43 #ifndef PANZER_STK_MODEL_EVALUATOR_FACTORY_T_HPP 44 #define PANZER_STK_MODEL_EVALUATOR_FACTORY_T_HPP 46 #include "Thyra_ModelEvaluator.hpp" 47 #include "Teuchos_Assert.hpp" 48 #include "Teuchos_as.hpp" 49 #include "Teuchos_DefaultMpiComm.hpp" 50 #include "Teuchos_AbstractFactoryStd.hpp" 52 #include "PanzerAdaptersSTK_config.hpp" 59 #include "Panzer_DOFManagerFactory.hpp" 61 #include "Panzer_BlockedDOFManagerFactory.hpp" 63 #include "Panzer_TpetraLinearObjFactory.hpp" 105 #include "Thyra_EpetraModelEvaluator.hpp" 106 #include "Piro_ConfigDefs.hpp" 107 #include "Piro_NOXSolver.hpp" 108 #include "Piro_LOCASolver.hpp" 109 #include "Piro_RythmosSolver.hpp" 115 template<
typename ScalarT>
118 paramList->validateParametersAndSetDefaults(*this->getValidParameters());
122 if(!paramList->sublist(
"Initial Conditions").isType<
bool>(
"Zero Initial Conditions"))
123 paramList->sublist(
"Initial Conditions").set<
bool>(
"Zero Initial Conditions",
false);
125 paramList->sublist(
"Initial Conditions").sublist(
"Vector File").validateParametersAndSetDefaults(
126 getValidParameters()->sublist(
"Initial Conditions").sublist(
"Vector File"));
128 this->setMyParamList(paramList);
131 template<
typename ScalarT>
134 static Teuchos::RCP<const Teuchos::ParameterList> validPL;
135 if (is_null(validPL)) {
136 Teuchos::RCP<Teuchos::ParameterList> pl = Teuchos::rcp(
new Teuchos::ParameterList());
138 pl->sublist(
"Physics Blocks").disableRecursiveValidation();
139 pl->sublist(
"Closure Models").disableRecursiveValidation();
140 pl->sublist(
"Boundary Conditions").disableRecursiveValidation();
141 pl->sublist(
"Solution Control").disableRecursiveValidation();
142 pl->set<
bool>(
"Use Discrete Adjoint",
false);
144 pl->sublist(
"Mesh").disableRecursiveValidation();
146 pl->sublist(
"Initial Conditions").set<
bool>(
"Zero Initial Conditions",
false);
147 pl->sublist(
"Initial Conditions").sublist(
"Transient Parameters").disableRecursiveValidation();
148 pl->sublist(
"Initial Conditions").sublist(
"Vector File");
149 pl->sublist(
"Initial Conditions").sublist(
"Vector File").set(
"File Name",
"");
150 pl->sublist(
"Initial Conditions").sublist(
"Vector File").set<
bool>(
"Enabled",
false);
151 pl->sublist(
"Initial Conditions").disableRecursiveValidation();
153 pl->sublist(
"Output").set(
"File Name",
"panzer.exo");
154 pl->sublist(
"Output").set(
"Write to Exodus",
true);
155 pl->sublist(
"Output").sublist(
"Cell Average Quantities").disableRecursiveValidation();
156 pl->sublist(
"Output").sublist(
"Cell Quantities").disableRecursiveValidation();
157 pl->sublist(
"Output").sublist(
"Cell Average Vectors").disableRecursiveValidation();
158 pl->sublist(
"Output").sublist(
"Nodal Quantities").disableRecursiveValidation();
159 pl->sublist(
"Output").sublist(
"Allocate Nodal Quantities").disableRecursiveValidation();
163 Teuchos::ParameterList& p = pl->sublist(
"Assembly");
164 p.set<
int>(
"Workset Size", 1);
165 p.set<
int>(
"Default Integration Order",-1);
166 p.set<std::string>(
"Field Order",
"");
167 p.set<std::string>(
"Auxiliary Field Order",
"");
168 p.set<
bool>(
"Use DOFManager FEI",
false);
169 p.set<
bool>(
"Load Balance DOFs",
false);
170 p.set<
bool>(
"Use Tpetra",
false);
171 p.set<
bool>(
"Use Epetra ME",
true);
172 p.set<
bool>(
"Lump Explicit Mass",
false);
173 p.set<
bool>(
"Constant Mass Matrix",
true);
174 p.set<
bool>(
"Apply Mass Matrix Inverse in Explicit Evaluator",
true);
175 p.set<
bool>(
"Use Conservative IMEX",
false);
176 p.set<
bool>(
"Compute Real Time Derivative",
false);
177 p.set<
bool>(
"Use Time Derivative in Explicit Model",
false);
178 p.set<
bool>(
"Compute Time Derivative at Time Step",
false);
179 p.set<Teuchos::RCP<const panzer::EquationSetFactory> >(
"Equation Set Factory", Teuchos::null);
180 p.set<Teuchos::RCP<const panzer::ClosureModelFactory_TemplateManager<panzer::Traits> > >(
"Closure Model Factory", Teuchos::null);
181 p.set<Teuchos::RCP<const panzer::BCStrategyFactory> >(
"BC Factory",Teuchos::null);
182 p.set<std::string>(
"Excluded Blocks",
"");
183 p.sublist(
"ALE").disableRecursiveValidation();
186 pl->sublist(
"Block ID to Physics ID Mapping").disableRecursiveValidation();
187 pl->sublist(
"Options").disableRecursiveValidation();
188 pl->sublist(
"Active Parameters").disableRecursiveValidation();
189 pl->sublist(
"Controls").disableRecursiveValidation();
190 pl->sublist(
"ALE").disableRecursiveValidation();
191 pl->sublist(
"User Data").disableRecursiveValidation();
192 pl->sublist(
"User Data").sublist(
"Panzer Data").disableRecursiveValidation();
200 bool hasInterfaceCondition(
const std::vector<panzer::BC>& bcs)
202 for (std::vector<panzer::BC>::const_iterator bcit = bcs.begin(); bcit != bcs.end(); ++bcit)
208 Teuchos::RCP<STKConnManager<int> >
211 const Teuchos::RCP<STKConnManager<int> > stk_conn_mgr =
212 Teuchos::rcp_dynamic_cast<STKConnManager<int> >(conn_mgr);
213 TEUCHOS_TEST_FOR_EXCEPTION(stk_conn_mgr.is_null(), std::logic_error,
214 "There are interface conditions, but the connection manager" 215 " does not support the necessary connections.");
219 void buildInterfaceConnections(
const std::vector<panzer::BC>& bcs,
222 const Teuchos::RCP<STKConnManager<int> > stk_conn_mgr = getSTKConnManager(conn_mgr);
223 for (std::vector<panzer::BC>::const_iterator bcit = bcs.begin(); bcit != bcs.end(); ++bcit)
225 stk_conn_mgr->associateElementsInSideset(bcit->sidesetID());
229 const Teuchos::RCP<Teuchos::Comm<int> >& comm)
231 const Teuchos::RCP<STKConnManager<int> > stk_conn_mgr = getSTKConnManager(conn_mgr);
232 std::vector<std::string> sidesets = stk_conn_mgr->checkAssociateElementsInSidesets(*comm);
233 if ( ! sidesets.empty()) {
234 std::stringstream ss;
236 for (std::size_t i = 0; i < sidesets.size(); ++i)
237 ss <<
" " << sidesets[i];
238 ss <<
" did not yield associations, but these sidesets correspond to BCT_Interface BCs.";
239 TEUCHOS_TEST_FOR_EXCEPTION(
true, std::logic_error, ss.str());
244 template<
typename ScalarT>
246 const Teuchos::RCP<panzer::GlobalData>& global_data,
247 const Teuchos::RCP<const panzer::EquationSetFactory>& eqset_factory,
250 bool meConstructionOn)
252 TEUCHOS_TEST_FOR_EXCEPTION(Teuchos::is_null(this->getParameterList()), std::runtime_error,
253 "ParameterList must be set before objects can be built!");
255 TEUCHOS_ASSERT(nonnull(comm));
256 TEUCHOS_ASSERT(nonnull(global_data));
257 TEUCHOS_ASSERT(nonnull(global_data->os));
258 TEUCHOS_ASSERT(nonnull(global_data->pl));
261 m_global_data = global_data;
273 Teuchos::ParameterList& p = *this->getNonconstParameterList();
276 Teuchos::ParameterList & mesh_params = p.sublist(
"Mesh");
277 Teuchos::ParameterList & assembly_params = p.sublist(
"Assembly");
278 Teuchos::ParameterList & solncntl_params = p.sublist(
"Solution Control");
279 Teuchos::ParameterList & output_list = p.sublist(
"Output");
281 Teuchos::ParameterList & user_data_params = p.sublist(
"User Data");
282 Teuchos::ParameterList & panzer_data_params = user_data_params.sublist(
"Panzer Data");
284 Teuchos::RCP<Teuchos::ParameterList> physics_block_plist = Teuchos::sublist(this->getMyNonconstParamList(),
"Physics Blocks");
287 std::size_t workset_size = Teuchos::as<std::size_t>(assembly_params.get<
int>(
"Workset Size"));
288 std::string field_order = assembly_params.get<std::string>(
"Field Order");
290 bool use_dofmanager_fei = assembly_params.get<
bool>(
"Use DOFManager FEI");
291 bool use_load_balance = assembly_params.get<
bool>(
"Load Balance DOFs");
292 bool useTpetra = assembly_params.get<
bool>(
"Use Tpetra");
293 bool useThyraME = !assembly_params.get<
bool>(
"Use Epetra ME");
297 bool is_transient = solncntl_params.get<std::string>(
"Piro Solver") ==
"Rythmos" ?
true :
false;
299 if (solncntl_params.get<std::string>(
"Piro Solver") ==
"NOX") {
300 if (solncntl_params.sublist(
"NOX").get<std::string>(
"Nonlinear Solver") ==
"Pseudo-Transient")
305 if (solncntl_params.get<std::string>(
"Piro Solver") ==
"LOCA") {
306 if (solncntl_params.sublist(
"LOCA").sublist(
"Stepper").get<
bool>(
"Compute Eigenvalues"))
309 m_is_transient = is_transient;
311 bool useDiscreteAdjoint = p.get<
bool>(
"Use Discrete Adjoint");
319 Teuchos::FancyOStream& fout = *global_data->os;
322 const Teuchos::RCP<const Teuchos::MpiComm<int> > mpi_comm =
328 Teuchos::RCP<panzer_stk::STK_MeshFactory> mesh_factory = this->buildSTKMeshFactory(mesh_params);
329 Teuchos::RCP<panzer_stk::STK_Interface> mesh = mesh_factory->buildUncommitedMesh(*(mpi_comm->getRawMpiComm()));
332 m_eqset_factory = eqset_factory;
337 std::vector<Teuchos::RCP<panzer::PhysicsBlock> > physicsBlocks;
340 std::map<std::string,std::string> block_ids_to_physics_ids;
344 std::map<std::string,Teuchos::RCP<const shards::CellTopology> > block_ids_to_cell_topo;
345 for(std::map<std::string,std::string>::const_iterator itr=block_ids_to_physics_ids.begin();
346 itr!=block_ids_to_physics_ids.end();++itr) {
347 block_ids_to_cell_topo[itr->first] = mesh->getCellTopology(itr->first);
348 TEUCHOS_ASSERT(block_ids_to_cell_topo[itr->first]!=Teuchos::null);
353 panzer::buildPhysicsBlocks(block_ids_to_physics_ids,
354 block_ids_to_cell_topo,
356 assembly_params.get<
int>(
"Default Integration Order"),
362 m_physics_blocks = physicsBlocks;
367 addUserFieldsToMesh(*mesh,output_list);
374 this->finalizeMeshConstruction(*mesh_factory,physicsBlocks,*mpi_comm,*mesh);
376 fout <<
"*****************************************\n\n";
377 fout <<
"Element block exception, could not finalize the mesh, printing block and sideset information:\n";
379 mesh->printMetaData(fout);
385 fout <<
"*****************************************\n\n";
386 fout <<
"Sideset exception, could not finalize the mesh, printing block and sideset information:\n";
388 mesh->printMetaData(fout);
396 if(p.sublist(
"Output").get<
bool>(
"Write to Exodus"))
397 mesh->setupExodusFile(p.sublist(
"Output").get<std::string>(
"File Name"));
401 Teuchos::RCP<panzer_stk::WorksetFactory> wkstFactory;
402 if(m_user_wkst_factory==Teuchos::null)
405 wkstFactory = m_user_wkst_factory;
408 wkstFactory->setMesh(mesh);
412 std::vector<panzer::BC> bcs;
413 panzer::buildBCs(bcs, p.sublist(
"Boundary Conditions"), global_data);
418 Teuchos::RCP<panzer::ConnManagerBase<int> > conn_manager;
423 m_conn_manager = conn_manager;
428 Teuchos::RCP<panzer::LinearObjFactory<panzer::Traits> > linObjFactory;
429 Teuchos::RCP<panzer::UniqueGlobalIndexerBase> globalIndexer;
431 std::string loadBalanceString =
"";
432 bool blockedAssembly =
false;
435 const Teuchos::RCP<panzer::ConnManager<int,int> > conn_manager_int
439 blockedAssembly =
true;
444 Teuchos::RCP<panzer::UniqueGlobalIndexer<int,std::pair<int,int> > > dofManager
445 = globalIndexerFactory.
buildUniqueGlobalIndexer(mpi_comm->getRawMpiComm(),physicsBlocks,conn_manager_int,field_order);
446 globalIndexer = dofManager;
448 Teuchos::RCP<panzer::BlockedEpetraLinearObjFactory<panzer::Traits,int> > bloLinObjFactory
453 const std::string excludedBlocks = assembly_params.get<std::string>(
"Excluded Blocks");
454 std::vector<std::string> stringPairs;
456 for(std::size_t i=0;i<stringPairs.size();i++) {
457 std::vector<std::string> sPair;
458 std::vector<int> iPair;
462 TEUCHOS_TEST_FOR_EXCEPTION(iPair.size()!=2,std::logic_error,
463 "Input Error: The correct format for \"Excluded Blocks\" parameter in \"Assembly\" sub list is:\n" 464 " <int>,<int>; <int>,<int>; ...; <int>,<int>\n" 465 "Failure on string pair " << stringPairs[i] <<
"!");
467 bloLinObjFactory->addExcludedPair(iPair[0],iPair[1]);
470 linObjFactory = bloLinObjFactory;
476 const Teuchos::RCP<panzer::ConnManager<int,panzer::Ordinal64> > conn_manager_long
480 blockedAssembly =
true;
482 TEUCHOS_ASSERT(!use_dofmanager_fei);
486 Teuchos::RCP<panzer::UniqueGlobalIndexer<int,std::pair<int,panzer::Ordinal64> > > dofManager
487 = globalIndexerFactory.
buildUniqueGlobalIndexer(mpi_comm->getRawMpiComm(),physicsBlocks,conn_manager_long,field_order);
488 globalIndexer = dofManager;
490 Teuchos::RCP<panzer::BlockedTpetraLinearObjFactory<panzer::Traits,double,int,panzer::Ordinal64> > bloLinObjFactory
495 const std::string excludedBlocks = assembly_params.get<std::string>(
"Excluded Blocks");
496 std::vector<std::string> stringPairs;
498 for(std::size_t i=0;i<stringPairs.size();i++) {
499 std::vector<std::string> sPair;
500 std::vector<int> iPair;
504 TEUCHOS_TEST_FOR_EXCEPTION(iPair.size()!=2,std::logic_error,
505 "Input Error: The correct format for \"Excluded Blocks\" parameter in \"Assembly\" sub list is:\n" 506 " <int>,<int>; <int>,<int>; ...; <int>,<int>\n" 507 "Failure on string pair " << stringPairs[i] <<
"!");
509 bloLinObjFactory->addExcludedPair(iPair[0],iPair[1]);
512 linObjFactory = bloLinObjFactory;
518 const Teuchos::RCP<panzer::ConnManager<int,panzer::Ordinal64> > conn_manager_long
523 TEUCHOS_ASSERT(!use_dofmanager_fei);
527 Teuchos::RCP<panzer::UniqueGlobalIndexer<int,panzer::Ordinal64> > dofManager
528 = globalIndexerFactory.
buildUniqueGlobalIndexer(mpi_comm->getRawMpiComm(),physicsBlocks,conn_manager_long,field_order);
529 globalIndexer = dofManager;
531 TEUCHOS_ASSERT(!useDiscreteAdjoint);
538 const bool has_interface_condition = hasInterfaceCondition(bcs);
539 if (has_interface_condition)
540 buildInterfaceConnections(bcs, conn_manager);
542 const Teuchos::RCP<panzer::ConnManager<int,int> > conn_manager_int
548 globalIndexerFactory.setUseTieBreak(use_load_balance);
549 globalIndexerFactory.setUseNeighbors(has_interface_condition);
550 Teuchos::RCP<panzer::UniqueGlobalIndexer<int,int> > dofManager
551 = globalIndexerFactory.buildUniqueGlobalIndexer(mpi_comm->getRawMpiComm(),physicsBlocks,conn_manager_int,
553 globalIndexer = dofManager;
555 if (has_interface_condition)
556 checkInterfaceConnections(conn_manager, dofManager->getComm());
564 TEUCHOS_ASSERT(globalIndexer!=Teuchos::null);
565 TEUCHOS_ASSERT(linObjFactory!=Teuchos::null);
566 m_global_indexer = globalIndexer;
567 m_lin_obj_factory = linObjFactory;
568 m_blockedAssembly = blockedAssembly;
571 fout <<
"Degree of freedom load balancing: " << loadBalanceString << std::endl;
577 std::map<std::string,panzer::WorksetNeeds> needs;
578 for(std::size_t i=0;i<physicsBlocks.size();i++)
579 needs[physicsBlocks[i]->elementBlockID()] = physicsBlocks[i]->getWorksetNeeds();
581 Teuchos::RCP<panzer::WorksetContainer> wkstContainer
584 wkstContainer->setWorksetSize(workset_size);
585 wkstContainer->setGlobalIndexer(globalIndexer);
587 m_wkstContainer = wkstContainer;
590 std::size_t max_wksets = 0;
591 for(std::size_t p=0;p<physicsBlocks.size();p++) {
593 Teuchos::RCP< std::vector<panzer::Workset> >works = wkstContainer->getWorksets(wd);
594 max_wksets = std::max(max_wksets,works->size());
596 user_data_params.set<std::size_t>(
"Max Worksets",max_wksets);
597 wkstContainer->clear();
604 useDynamicCoordinates_ =
false;
605 for(std::size_t p=0;p<physicsBlocks.size();p++) {
606 if(physicsBlocks[p]->getCoordinateDOFs().size()>0) {
607 mesh->setUseFieldCoordinates(
true);
608 useDynamicCoordinates_ =
true;
609 wkstContainer->clear();
618 panzer_data_params.set(
"STK Mesh", mesh);
619 panzer_data_params.set(
"DOF Manager", globalIndexer);
620 panzer_data_params.set(
"Linear Object Factory", linObjFactory);
625 if(!meConstructionOn)
631 std::vector<Teuchos::RCP<Teuchos::Array<std::string> > > p_names;
632 std::vector<Teuchos::RCP<Teuchos::Array<double> > > p_values;
633 if (p.isSublist(
"Active Parameters")) {
634 Teuchos::ParameterList& active_params = p.sublist(
"Active Parameters");
636 int num_param_vecs = active_params.get<
int>(
"Number of Parameter Vectors",0);
637 p_names.resize(num_param_vecs);
638 p_values.resize(num_param_vecs);
639 for (
int i=0; i<num_param_vecs; i++) {
640 std::stringstream ss;
641 ss <<
"Parameter Vector " << i;
642 Teuchos::ParameterList& pList = active_params.sublist(ss.str());
643 int numParameters = pList.get<
int>(
"Number");
644 TEUCHOS_TEST_FOR_EXCEPTION(numParameters == 0,
645 Teuchos::Exceptions::InvalidParameter,
646 std::endl <<
"Error! panzer::ModelEvaluator::ModelEvaluator(): " <<
647 "Parameter vector " << i <<
" has zero parameters!" << std::endl);
649 Teuchos::rcp(
new Teuchos::Array<std::string>(numParameters));
651 Teuchos::rcp(
new Teuchos::Array<double>(numParameters));
652 for (
int j=0; j<numParameters; j++) {
653 std::stringstream ss2;
654 ss2 <<
"Parameter " << j;
655 (*p_names[i])[j] = pList.get<std::string>(ss2.str());
658 ss2 <<
"Initial Value " << j;
659 (*p_values[i])[j] = pList.get<
double>(ss2.str());
672 cm_factory.buildObjects(io_cm_builder);
677 Teuchos::RCP<panzer::FieldManagerBuilder> fmb;
679 bool write_dot_files = p.sublist(
"Options").get(
"Write Volume Assembly Graphs",
false);
680 std::string dot_file_prefix = p.sublist(
"Options").get(
"Volume Assembly Graph Prefix",
"Panzer_AssemblyGraph");
681 bool write_fm_files = p.sublist(
"Options").get(
"Write Field Manager Files",
false);
682 std::string fm_file_prefix = p.sublist(
"Options").get(
"Field Manager File Prefix",
"Panzer_AssemblyGraph");
684 fmb = buildFieldManagerBuilder(wkstContainer,physicsBlocks,bcs,*eqset_factory,bc_factory,cm_factory,
685 user_cm_factory,p.sublist(
"Closure Models"),*linObjFactory,user_data_params,
686 write_dot_files,dot_file_prefix,
687 write_fm_files,fm_file_prefix);
696 bool write_dot_files =
false;
697 std::string prefix =
"Panzer_ResponseGraph_";
698 write_dot_files = p.sublist(
"Options").get(
"Write Volume Response Graphs",write_dot_files);
699 prefix = p.sublist(
"Options").get(
"Volume Response Graph Prefix",prefix);
701 Teuchos::ParameterList user_data(p.sublist(
"User Data"));
702 user_data.set<
int>(
"Workset Size",workset_size);
708 Teuchos::RCP<Thyra::LinearOpWithSolveFactoryBase<double> > lowsFactory =
716 t_init = this->getInitialTime(p.sublist(
"Initial Conditions").sublist(
"Transient Parameters"), *mesh);
718 if(blockedAssembly || useTpetra)
721 Teuchos::RCP<Thyra::ModelEvaluatorDefaultBase<double> > thyra_me
722 = buildPhysicsModelEvaluator(useThyraME,
739 const Teuchos::ParameterList& models = p.sublist(
"Closure Models");
740 Teuchos::ParameterList cl_models(models.name());
741 for (Teuchos::ParameterList::ConstIterator model_it=models.begin();
742 model_it!=models.end(); ++model_it) {
743 std::string key = model_it->first;
744 if (model_it->first !=
"Global MMS Parameters")
745 cl_models.setEntry(key,model_it->second);
747 bool write_dot_files =
false;
748 std::string prefix =
"Panzer_AssemblyGraph_";
749 setupInitialConditions(*thyra_me,*wkstContainer,physicsBlocks,user_cm_factory,*linObjFactory,
751 p.sublist(
"Initial Conditions"),
752 p.sublist(
"User Data"),
753 p.sublist(
"Options").get(
"Write Volume Assembly Graphs",write_dot_files),
754 p.sublist(
"Options").get(
"Volume Assembly Graph Prefix",prefix));
759 writeInitialConditions(*thyra_me,physicsBlocks,wkstContainer,globalIndexer,linObjFactory,mesh,user_cm_factory,
760 p.sublist(
"Closure Models"),
761 p.sublist(
"User Data"),workset_size);
763 m_physics_me = thyra_me;
766 template<
typename ScalarT>
771 const Teuchos::ParameterList & cellAvgQuants = output_list.sublist(
"Cell Average Quantities");
772 for(Teuchos::ParameterList::ConstIterator itr=cellAvgQuants.begin();
773 itr!=cellAvgQuants.end();++itr) {
774 const std::string & blockId = itr->first;
775 const std::string & fields = Teuchos::any_cast<std::string>(itr->second.getAny());
776 std::vector<std::string> tokens;
781 for(std::size_t i=0;i<tokens.size();i++)
788 const Teuchos::ParameterList & cellAvgVectors = output_list.sublist(
"Cell Average Vectors");
789 for(Teuchos::ParameterList::ConstIterator itr = cellAvgVectors.begin();
790 itr != cellAvgVectors.end(); ++itr) {
791 const std::string & blockId = itr->first;
792 const std::string & fields = Teuchos::any_cast<std::string>(itr->second.getAny());
793 std::vector<std::string> tokens;
798 for(std::size_t i = 0; i < tokens.size(); i++) {
799 std::string d_mod[3] = {
"X",
"Y",
"Z"};
806 const Teuchos::ParameterList & cellQuants = output_list.sublist(
"Cell Quantities");
807 for(Teuchos::ParameterList::ConstIterator itr=cellQuants.begin();
808 itr!=cellQuants.end();++itr) {
809 const std::string & blockId = itr->first;
810 const std::string & fields = Teuchos::any_cast<std::string>(itr->second.getAny());
811 std::vector<std::string> tokens;
816 for(std::size_t i=0;i<tokens.size();i++)
821 const Teuchos::ParameterList & nodalQuants = output_list.sublist(
"Nodal Quantities");
822 for(Teuchos::ParameterList::ConstIterator itr=nodalQuants.begin();
823 itr!=nodalQuants.end();++itr) {
824 const std::string & blockId = itr->first;
825 const std::string & fields = Teuchos::any_cast<std::string>(itr->second.getAny());
826 std::vector<std::string> tokens;
831 for(std::size_t i=0;i<tokens.size();i++)
835 const Teuchos::ParameterList & allocNodalQuants = output_list.sublist(
"Allocate Nodal Quantities");
836 for(Teuchos::ParameterList::ConstIterator itr=allocNodalQuants.begin();
837 itr!=allocNodalQuants.end();++itr) {
838 const std::string & blockId = itr->first;
839 const std::string & fields = Teuchos::any_cast<std::string>(itr->second.getAny());
840 std::vector<std::string> tokens;
845 for(std::size_t i=0;i<tokens.size();i++)
850 template<
typename ScalarT>
854 const std::vector<Teuchos::RCP<panzer::PhysicsBlock> >& physicsBlocks,
857 const Teuchos::ParameterList & closure_pl,
858 const Teuchos::ParameterList & initial_cond_pl,
859 const Teuchos::ParameterList & user_data_pl,
860 bool write_dot_files,
const std::string & dot_file_prefix)
const 864 Thyra::ModelEvaluatorBase::InArgs<double> nomValues = model.getNominalValues();
867 if(initial_cond_pl.get<
bool>(
"Zero Initial Conditions")) {
869 Thyra::assign(x_vec.ptr(),0.0);
871 else if(!initial_cond_pl.sublist(
"Vector File").get<
bool>(
"Enabled")) {
874 std::map<std::string, Teuchos::RCP< PHX::FieldManager<panzer::Traits> > > phx_ic_field_managers;
885 phx_ic_field_managers);
906 const std::string & vectorFile = initial_cond_pl.sublist(
"Vector File").get<std::string>(
"File Name");
907 TEUCHOS_TEST_FOR_EXCEPTION(vectorFile==
"",std::runtime_error,
908 "If \"Read From Vector File\" is true, then parameter \"Vector File\" cannot be the empty string.");
920 template<
typename ScalarT>
923 const std::vector<Teuchos::RCP<panzer::PhysicsBlock> >& physicsBlocks,
924 const Teuchos::RCP<panzer::WorksetContainer> & wc,
925 const Teuchos::RCP<const panzer::UniqueGlobalIndexerBase> & ugi,
927 const Teuchos::RCP<panzer_stk::STK_Interface> & mesh,
929 const Teuchos::ParameterList & closure_model_pl,
930 const Teuchos::ParameterList & user_data_pl,
931 int workset_size)
const 933 Teuchos::RCP<panzer::LinearObjContainer> loc = lof->buildLinearObjContainer();
937 Teuchos::RCP<panzer::ResponseLibrary<panzer::Traits> > solnWriter
938 = initializeSolnWriterResponseLibrary(wc,ugi,lof,mesh);
941 Teuchos::ParameterList user_data(user_data_pl);
942 user_data.set<
int>(
"Workset Size",workset_size);
944 finalizeSolnWriterResponseLibrary(*solnWriter,physicsBlocks,cm_factory,closure_model_pl,workset_size,user_data);
951 ae_inargs.
alpha = 0.0;
952 ae_inargs.
beta = 1.0;
967 template<
typename ScalarT>
970 Teuchos::RCP<panzer_stk::STK_MeshFactory> mesh_factory;
973 if (mesh_params.get<std::string>(
"Source") ==
"Exodus File") {
974 mesh_factory = Teuchos::rcp(
new panzer_stk::STK_ExodusReaderFactory());
975 mesh_factory->setParameterList(Teuchos::rcp(
new Teuchos::ParameterList(mesh_params.sublist(
"Exodus File"))));
977 else if (mesh_params.get<std::string>(
"Source") ==
"Pamgen Mesh") {
978 mesh_factory = Teuchos::rcp(
new panzer_stk::STK_PamgenReaderFactory());
979 mesh_factory->setParameterList(Teuchos::rcp(
new Teuchos::ParameterList(mesh_params.sublist(
"Pamgen Mesh"))));
981 else if (mesh_params.get<std::string>(
"Source") ==
"Inline Mesh") {
983 int dimension = mesh_params.sublist(
"Inline Mesh").get<
int>(
"Mesh Dimension");
984 std::string typeStr =
"";
985 if(mesh_params.sublist(
"Inline Mesh").isParameter(
"Type"))
986 typeStr = mesh_params.sublist(
"Inline Mesh").get<std::string>(
"Type");
988 if (dimension == 1) {
990 Teuchos::RCP<Teuchos::ParameterList> in_mesh = Teuchos::rcp(
new Teuchos::ParameterList);
991 *in_mesh = mesh_params.sublist(
"Inline Mesh").sublist(
"Mesh Factory Parameter List");
992 mesh_factory->setParameterList(in_mesh);
994 else if (dimension == 2 && typeStr==
"Tri") {
996 Teuchos::RCP<Teuchos::ParameterList> in_mesh = Teuchos::rcp(
new Teuchos::ParameterList);
997 *in_mesh = mesh_params.sublist(
"Inline Mesh").sublist(
"Mesh Factory Parameter List");
998 mesh_factory->setParameterList(in_mesh);
1000 else if (dimension == 2) {
1002 Teuchos::RCP<Teuchos::ParameterList> in_mesh = Teuchos::rcp(
new Teuchos::ParameterList);
1003 *in_mesh = mesh_params.sublist(
"Inline Mesh").sublist(
"Mesh Factory Parameter List");
1004 mesh_factory->setParameterList(in_mesh);
1006 else if (dimension == 3 && typeStr==
"Tet") {
1008 Teuchos::RCP<Teuchos::ParameterList> in_mesh = Teuchos::rcp(
new Teuchos::ParameterList);
1009 *in_mesh = mesh_params.sublist(
"Inline Mesh").sublist(
"Mesh Factory Parameter List");
1010 mesh_factory->setParameterList(in_mesh);
1012 else if(dimension == 3) {
1014 Teuchos::RCP<Teuchos::ParameterList> in_mesh = Teuchos::rcp(
new Teuchos::ParameterList);
1015 *in_mesh = mesh_params.sublist(
"Inline Mesh").sublist(
"Mesh Factory Parameter List");
1016 mesh_factory->setParameterList(in_mesh);
1018 else if(dimension==4) {
1020 Teuchos::RCP<Teuchos::ParameterList> in_mesh = Teuchos::rcp(
new Teuchos::ParameterList);
1021 *in_mesh = mesh_params.sublist(
"Inline Mesh").sublist(
"Mesh Factory Parameter List");
1022 mesh_factory->setParameterList(in_mesh);
1025 else if (mesh_params.get<std::string>(
"Source") ==
"Custom Mesh") {
1027 mesh_factory->setParameterList(Teuchos::rcp(
new Teuchos::ParameterList(mesh_params.sublist(
"Custom Mesh"))));
1035 if(mesh_params.isSublist(
"Rebalance")) {
1036 const Teuchos::ParameterList & rebalance = mesh_params.sublist(
"Rebalance");
1039 bool enabled =
false;
1040 if(rebalance.isType<
bool>(
"Enabled"))
1041 enabled = rebalance.get<
bool>(
"Enabled");
1044 Teuchos::RCP<Teuchos::ParameterList> rebalanceCycles;
1045 if(enabled && rebalance.isSublist(
"Cycles"))
1046 rebalanceCycles = Teuchos::rcp(
new Teuchos::ParameterList(rebalance.sublist(
"Cycles")));
1049 mesh_factory->enableRebalance(enabled,rebalanceCycles);
1052 return mesh_factory;
1055 template<
typename ScalarT>
1057 const std::vector<Teuchos::RCP<panzer::PhysicsBlock> > & physicsBlocks,
1063 std::vector<Teuchos::RCP<panzer::PhysicsBlock> >::const_iterator physIter;
1064 for(physIter=physicsBlocks.begin();physIter!=physicsBlocks.end();++physIter) {
1066 double blockWeight = 0.0;
1068 Teuchos::RCP<const panzer::PhysicsBlock> pb = *physIter;
1069 const std::vector<panzer::StrPureBasisPair> & blockFields = pb->getProvidedDOFs();
1070 const std::vector<std::vector<std::string> > & coordinateDOFs = pb->getCoordinateDOFs();
1074 std::set<panzer::StrPureBasisPair,panzer::StrPureBasisComp> fieldNames;
1075 fieldNames.insert(blockFields.begin(),blockFields.end());
1080 std::set<std::string> fields_to_remove;
1084 for(std::size_t i=0;i<coordinateDOFs.size();i++) {
1086 for(std::size_t j=0;j<coordinateDOFs[i].size();j++)
1087 fields_to_remove.insert(coordinateDOFs[i][j]);
1091 std::set<std::string>::const_iterator rmItr;
1092 for (rmItr=fields_to_remove.begin();rmItr!=fields_to_remove.end();++rmItr)
1097 std::set<panzer::StrPureBasisPair,panzer::StrPureBasisComp>::const_iterator fieldItr;
1098 for (fieldItr=fieldNames.begin();fieldItr!=fieldNames.end();++fieldItr) {
1100 if(fieldItr->second->isScalarBasis() &&
1102 mesh.
addCellField(fieldItr->first,pb->elementBlockID());
1104 else if(fieldItr->second->isScalarBasis()) {
1107 else if(fieldItr->second->isVectorBasis()) {
1108 std::string d_mod[3] = {
"X",
"Y",
"Z"};
1109 for(
int d=0;d<fieldItr->second->dimension();d++)
1110 mesh.
addCellField(fieldItr->first+d_mod[d],pb->elementBlockID());
1112 else { TEUCHOS_ASSERT(
false); }
1114 blockWeight += double(fieldItr->second->cardinality());
1127 template<
typename ScalarT>
1130 TEUCHOS_TEST_FOR_EXCEPTION(Teuchos::is_null(m_physics_me), std::runtime_error,
1131 "Objects are not built yet! Please call buildObjects() member function.");
1132 return m_physics_me;
1135 template<
typename ScalarT>
1138 m_nox_observer_factory = nox_observer_factory;
1141 template<
typename ScalarT>
1144 m_rythmos_observer_factory = rythmos_observer_factory;
1147 template<
typename ScalarT>
1150 m_user_wkst_factory = user_wkst_factory;
1153 template<
typename ScalarT>
1156 if(m_rome_me==Teuchos::null)
1157 m_rome_me = buildResponseOnlyModelEvaluator(m_physics_me,m_global_data);
1162 template<
typename ScalarT>
1165 const Teuchos::RCP<panzer::GlobalData>& global_data,
1167 const Teuchos::Ptr<const panzer_stk::NOXObserverFactory> & in_nox_observer_factory,
1168 const Teuchos::Ptr<const panzer_stk::RythmosObserverFactory> & in_rythmos_observer_factory
1171 using Teuchos::is_null;
1174 TEUCHOS_TEST_FOR_EXCEPTION(is_null(m_lin_obj_factory), std::runtime_error,
1175 "Objects are not built yet! Please call buildObjects() member function.");
1176 TEUCHOS_TEST_FOR_EXCEPTION(is_null(m_global_indexer), std::runtime_error,
1177 "Objects are not built yet! Please call buildObjects() member function.");
1178 TEUCHOS_TEST_FOR_EXCEPTION(is_null(m_mesh), std::runtime_error,
1179 "Objects are not built yet! Please call buildObjects() member function.");
1180 Teuchos::Ptr<const panzer_stk::NOXObserverFactory> nox_observer_factory
1181 = is_null(in_nox_observer_factory) ? m_nox_observer_factory.ptr() : in_nox_observer_factory;
1182 Teuchos::Ptr<const panzer_stk::RythmosObserverFactory> rythmos_observer_factory
1183 = is_null(in_rythmos_observer_factory) ? m_rythmos_observer_factory.ptr() : in_rythmos_observer_factory;
1185 Teuchos::ParameterList& p = *this->getNonconstParameterList();
1186 Teuchos::ParameterList & solncntl_params = p.sublist(
"Solution Control");
1187 Teuchos::RCP<Teuchos::ParameterList> piro_params = Teuchos::rcp(
new Teuchos::ParameterList(solncntl_params));
1188 Teuchos::RCP<Thyra::ModelEvaluatorDefaultBase<double> > piro;
1190 std::string solver = solncntl_params.get<std::string>(
"Piro Solver");
1191 Teuchos::RCP<Thyra::ModelEvaluatorDefaultBase<double> > thyra_me_db
1192 = Teuchos::rcp_dynamic_cast<Thyra::ModelEvaluatorDefaultBase<double> >(thyra_me);
1193 if ( (solver==
"NOX") || (solver ==
"LOCA") ) {
1195 TEUCHOS_TEST_FOR_EXCEPTION(Teuchos::is_null(nox_observer_factory), std::runtime_error,
1196 "No NOX obersver built! Please call setNOXObserverFactory() member function if you plan to use a NOX solver.");
1198 Teuchos::RCP<NOX::Abstract::PrePostOperator> ppo = nox_observer_factory->buildNOXObserver(m_mesh,m_global_indexer,m_lin_obj_factory);
1199 piro_params->sublist(
"NOX").sublist(
"Solver Options").set(
"User Defined Pre/Post Operator", ppo);
1202 piro = Teuchos::rcp(
new Piro::NOXSolver<double>(piro_params,
1203 Teuchos::rcp_dynamic_cast<Thyra::ModelEvaluatorDefaultBase<double> >(thyra_me_db)));
1204 else if (solver ==
"LOCA")
1205 piro = Teuchos::rcp(
new Piro::LOCASolver<double>(piro_params,
1206 Teuchos::rcp_dynamic_cast<Thyra::ModelEvaluatorDefaultBase<double> >(thyra_me_db),
1208 TEUCHOS_ASSERT(nonnull(piro));
1211 piro_params->sublist(
"NOX").sublist(
"Printing").set<Teuchos::RCP<std::ostream> >(
"Output Stream",global_data->os);
1212 piro_params->sublist(
"NOX").sublist(
"Printing").set<Teuchos::RCP<std::ostream> >(
"Error Stream",global_data->os);
1213 piro_params->sublist(
"NOX").sublist(
"Printing").set<
int>(
"Output Processor",global_data->os->getOutputToRootOnly());
1215 else if (solver==
"Rythmos") {
1217 TEUCHOS_TEST_FOR_EXCEPTION(Teuchos::is_null(rythmos_observer_factory), std::runtime_error,
1218 "No NOX obersver built! Please call setrythmosObserverFactory() member function if you plan to use a Rythmos solver.");
1221 if(rythmos_observer_factory->useNOXObserver()) {
1222 Teuchos::RCP<NOX::Abstract::PrePostOperator> ppo = nox_observer_factory->buildNOXObserver(m_mesh,m_global_indexer,m_lin_obj_factory);
1223 piro_params->sublist(
"NOX").sublist(
"Solver Options").set(
"User Defined Pre/Post Operator", ppo);
1227 piro_params->sublist(
"NOX").sublist(
"Printing").set<Teuchos::RCP<std::ostream> >(
"Output Stream",global_data->os);
1228 piro_params->sublist(
"NOX").sublist(
"Printing").set<Teuchos::RCP<std::ostream> >(
"Error Stream",global_data->os);
1229 piro_params->sublist(
"NOX").sublist(
"Printing").set<
int>(
"Output Processor",global_data->os->getOutputToRootOnly());
1232 Teuchos::RCP<Piro::RythmosSolver<double> > piro_rythmos;
1233 if(rythmosSolver==Teuchos::null)
1236 piro_rythmos = rythmosSolver;
1239 Teuchos::RCP<Thyra::ModelEvaluator<ScalarT> > rythmos_me = thyra_me;
1240 const std::string stepper_type = piro_params->sublist(
"Rythmos").get<std::string>(
"Stepper Type");
1241 if(stepper_type==
"Explicit RK" || stepper_type==
"Forward Euler") {
1242 const Teuchos::ParameterList & assembly_params = p.sublist(
"Assembly");
1243 bool lumpExplicitMass = assembly_params.get<
bool>(
"Lump Explicit Mass");
1247 piro_rythmos->initialize(piro_params, rythmos_me, rythmos_observer_factory->buildRythmosObserver(m_mesh,m_global_indexer,m_lin_obj_factory));
1249 piro = piro_rythmos;
1252 TEUCHOS_TEST_FOR_EXCEPTION(
true, std::logic_error,
1253 "Error: Unknown Piro Solver : " << solver);
1258 template<
typename ScalarT>
1261 TEUCHOS_TEST_FOR_EXCEPTION(Teuchos::is_null(m_response_library), std::runtime_error,
1262 "Objects are not built yet! Please call buildObjects() member function.");
1264 return m_response_library;
1267 template<
typename ScalarT>
1270 TEUCHOS_TEST_FOR_EXCEPTION(m_physics_blocks.size()==0, std::runtime_error,
1271 "Objects are not built yet! Please call buildObjects() member function.");
1273 return m_physics_blocks;
1276 template<
typename ScalarT>
1277 Teuchos::RCP<panzer::FieldManagerBuilder>
1280 const std::vector<Teuchos::RCP<panzer::PhysicsBlock> >& physicsBlocks,
1281 const std::vector<panzer::BC> & bcs,
1286 const Teuchos::ParameterList& closure_models,
1288 const Teuchos::ParameterList& user_data,
1289 bool writeGraph,
const std::string & graphPrefix,
1290 bool write_field_managers,
const std::string & field_manager_prefix)
const 1293 fmb->setWorksetContainer(wc);
1294 fmb->setupVolumeFieldManagers(physicsBlocks,volume_cm_factory,closure_models,lo_factory,user_data);
1295 fmb->setupBCFieldManagers(bcs,physicsBlocks,eqset_factory,bc_cm_factory,bc_factory,closure_models,lo_factory,user_data);
1299 fmb->writeVolumeGraphvizDependencyFiles(graphPrefix, physicsBlocks);
1300 fmb->writeBCGraphvizDependencyFiles(graphPrefix);
1302 if (write_field_managers){
1303 fmb->writeVolumeTextDependencyFiles(graphPrefix, physicsBlocks);
1304 fmb->writeBCTextDependencyFiles(field_manager_prefix);
1310 template<
typename ScalarT>
1311 Teuchos::RCP<Thyra::ModelEvaluator<double> >
1314 const Teuchos::RCP<Teuchos::ParameterList> & physics_block_plist,
1315 const Teuchos::RCP<const panzer::EquationSetFactory>& eqset_factory,
1318 bool is_transient,
bool is_explicit,
1319 const Teuchos::Ptr<const Teuchos::ParameterList> & bc_list,
1324 Teuchos::RCP<Thyra::ModelEvaluator<ScalarT> > physics_me = physics_me_in==Teuchos::null ? m_physics_me : physics_me_in;
1326 const Teuchos::ParameterList& p = *this->getParameterList();
1329 std::vector<Teuchos::RCP<panzer::PhysicsBlock> > physicsBlocks;
1331 const Teuchos::ParameterList & assembly_params = p.sublist(
"Assembly");
1334 std::map<std::string,std::string> block_ids_to_physics_ids;
1338 std::map<std::string,Teuchos::RCP<const shards::CellTopology> > block_ids_to_cell_topo;
1339 for(std::map<std::string,std::string>::const_iterator itr=block_ids_to_physics_ids.begin();
1340 itr!=block_ids_to_physics_ids.end();++itr) {
1341 block_ids_to_cell_topo[itr->first] = m_mesh->getCellTopology(itr->first);
1342 TEUCHOS_ASSERT(block_ids_to_cell_topo[itr->first]!=Teuchos::null);
1345 std::size_t workset_size = Teuchos::as<std::size_t>(assembly_params.get<
int>(
"Workset Size"));
1347 panzer::buildPhysicsBlocks(block_ids_to_physics_ids,
1348 block_ids_to_cell_topo,
1349 physics_block_plist,
1350 assembly_params.get<
int>(
"Default Integration Order"),
1359 Teuchos::RCP<panzer::FieldManagerBuilder> fmb;
1361 const Teuchos::ParameterList & user_data_params = p.sublist(
"User Data");
1363 bool write_dot_files =
false;
1364 std::string prefix =
"Cloned_";
1366 std::vector<panzer::BC> bcs;
1367 if(bc_list==Teuchos::null) {
1368 panzer::buildBCs(bcs, p.sublist(
"Boundary Conditions"), m_global_data);
1371 panzer::buildBCs(bcs, *bc_list, m_global_data);
1374 fmb = buildFieldManagerBuilder(
1384 p.sublist(
"Closure Models"),
1387 write_dot_files,prefix,
1388 write_dot_files,prefix);
1391 Teuchos::RCP<panzer::ResponseLibrary<panzer::Traits> > response_library
1394 m_lin_obj_factory));
1402 Thyra::ModelEvaluatorBase::InArgs<ScalarT> nomVals = physics_me->getNominalValues();
1405 Teuchos::RCP<Thyra::EpetraModelEvaluator> ep_thyra_me = Teuchos::rcp_dynamic_cast<Thyra::EpetraModelEvaluator>(physics_me);
1406 Teuchos::RCP<PanzerME> panzer_me = Teuchos::rcp_dynamic_cast<PanzerME>(physics_me);
1407 bool useThyra =
true;
1408 if(ep_thyra_me!=Teuchos::null)
1412 std::vector<Teuchos::RCP<Teuchos::Array<std::string> > > p_names(physics_me->Np());
1413 std::vector<Teuchos::RCP<Teuchos::Array<double> > > p_values(physics_me->Np());
1414 for(std::size_t i=0;i<p_names.size();i++) {
1415 p_names[i] = Teuchos::rcp(
new Teuchos::Array<std::string>(*physics_me->get_p_names(i)));
1416 p_values[i] = Teuchos::rcp(
new Teuchos::Array<double>(p_names[i]->size(),0.0));
1419 Teuchos::RCP<Thyra::ModelEvaluatorDefaultBase<double> > thyra_me
1420 = buildPhysicsModelEvaluator(useThyra,
1432 thyra_me->getNominalValues() = nomVals;
1436 const Teuchos::ParameterList & assembly_params = p.sublist(
"Assembly");
1437 bool lumpExplicitMass = assembly_params.get<
bool>(
"Lump Explicit Mass");
1445 template<
typename ScalarT>
1446 Teuchos::RCP<Thyra::ModelEvaluatorDefaultBase<double> >
1449 const Teuchos::RCP<panzer::FieldManagerBuilder> & fmb,
1452 const std::vector<Teuchos::RCP<Teuchos::Array<std::string> > > & p_names,
1453 const std::vector<Teuchos::RCP<Teuchos::Array<double> > > & p_values,
1455 const Teuchos::RCP<panzer::GlobalData> & global_data,
1456 bool is_transient,
double t_init)
const 1458 Teuchos::RCP<Thyra::ModelEvaluatorDefaultBase<double> > thyra_me;
1460 Teuchos::RCP<panzer::ModelEvaluator_Epetra> ep_me
1464 ep_me->set_t_init(t_init);
1467 thyra_me = Thyra::epetraModelEvaluator(ep_me,solverFactory);
1471 (fmb,rLibrary,lof,p_names,p_values,solverFactory,global_data,is_transient,t_init));
1477 template<
typename ScalarT>
1482 Teuchos::ParameterList validPL;
1484 Teuchos::setStringToIntegralParameter<int>(
1487 "Set the start time",
1488 Teuchos::tuple<std::string>(
"From Input File",
"From Exodus File"),
1492 validPL.set<
double>(
"Start Time",0.0);
1495 p.validateParametersAndSetDefaults(validPL);
1497 std::string t_init_type = p.get<std::string>(
"Start Time Type");
1498 double t_init = 10.0;
1500 if (t_init_type ==
"From Input File")
1501 t_init = p.get<
double>(
"Start Time");
1503 if (t_init_type ==
"From Exodus File")
1511 template<
typename ScalarT>
1514 const Teuchos::RCP<const panzer::UniqueGlobalIndexerBase> & ugi,
1516 const Teuchos::RCP<panzer_stk::STK_Interface> & mesh)
const 1518 Teuchos::RCP<panzer::ResponseLibrary<panzer::Traits> > stkIOResponseLibrary
1521 std::vector<std::string> eBlocks;
1522 mesh->getElementBlockNames(eBlocks);
1525 builder.
mesh = mesh;
1526 stkIOResponseLibrary->addResponse(
"Main Field Output",eBlocks,builder);
1528 return stkIOResponseLibrary;
1531 template<
typename ScalarT>
1534 const std::vector<Teuchos::RCP<panzer::PhysicsBlock> > & physicsBlocks,
1536 const Teuchos::ParameterList & closure_models,
1537 int workset_size, Teuchos::ParameterList & user_data)
const 1539 user_data.set<
int>(
"Workset Size",workset_size);
1543 template<
typename ScalarT>
1546 const Teuchos::RCP<const panzer::UniqueGlobalIndexerBase> & globalIndexer,
1548 const Teuchos::RCP<panzer_stk::STK_Interface> & mesh,
1550 #ifdef PANZER_HAVE_TEKO
1551 ,
const Teuchos::RCP<Teko::RequestHandler> & reqHandler
1555 const Teuchos::ParameterList & p = *this->getParameterList();
1556 const Teuchos::ParameterList & solncntl_params = p.sublist(
"Solution Control");
1559 Teuchos::RCP<Teuchos::ParameterList> strat_params
1560 = Teuchos::rcp(
new Teuchos::ParameterList(solncntl_params.sublist(
"NOX").sublist(
"Direction").
1561 sublist(
"Newton").sublist(
"Stratimikos Linear Solver").sublist(
"Stratimikos")));
1563 bool writeCoordinates =
false;
1564 if(p.sublist(
"Options").isType<
bool>(
"Write Coordinates"))
1565 writeCoordinates = p.sublist(
"Options").get<
bool>(
"Write Coordinates");
1567 bool writeTopo =
false;
1568 if(p.sublist(
"Options").isType<
bool>(
"Write Topology"))
1569 writeTopo = p.sublist(
"Options").get<
bool>(
"Write Topology");
1573 blockedAssembly,globalIndexer,conn_manager,
1574 Teuchos::as<int>(mesh->getDimension()), mpi_comm, strat_params,
1575 #ifdef PANZER_HAVE_TEKO
1583 template<
typename ScalarT>
1586 const bool write_graphviz_file,
1587 const std::string& graphviz_file_prefix)
1591 Teuchos::ParameterList & p = *this->getNonconstParameterList();
1592 Teuchos::ParameterList & user_data = p.sublist(
"User Data");
1593 Teuchos::ParameterList & closure_models = p.sublist(
"Closure Models");
1596 Teuchos::RCP<Thyra::EpetraModelEvaluator> thyra_me = Teuchos::rcp_dynamic_cast<Thyra::EpetraModelEvaluator>(m_physics_me);
1597 Teuchos::RCP<PanzerME> panzer_me = Teuchos::rcp_dynamic_cast<PanzerME>(m_physics_me);
1599 if(thyra_me!=Teuchos::null && panzer_me==Teuchos::null) {
1600 Teuchos::RCP<const EpetraExt::ModelEvaluator> const_ep_me;
1601 Teuchos::RCP<Thyra::LinearOpWithSolveFactoryBase<double> > solveFactory;
1602 thyra_me->uninitialize(&const_ep_me,&solveFactory);
1605 Teuchos::RCP<EpetraExt::ModelEvaluator> ep_me = Teuchos::rcp_const_cast<EpetraExt::ModelEvaluator>(const_ep_me);
1608 ep_panzer_me->
buildResponses(m_physics_blocks,*m_eqset_factory,cm_factory,closure_models,user_data,write_graphviz_file,graphviz_file_prefix);
1611 thyra_me->initialize(ep_me,solveFactory);
1615 else if(panzer_me!=Teuchos::null && thyra_me==Teuchos::null) {
1616 panzer_me->buildResponses(m_physics_blocks,*m_eqset_factory,cm_factory,closure_models,user_data,write_graphviz_file,graphviz_file_prefix);
1621 TEUCHOS_ASSERT(
false);
Teuchos::RCP< Thyra::LinearOpWithSolveFactoryBase< double > > buildLOWSFactory(bool blockedAssembly, const Teuchos::RCP< const panzer::UniqueGlobalIndexerBase > &globalIndexer, const Teuchos::RCP< panzer::ConnManagerBase< int > > &conn_manager, int spatialDim, const Teuchos::RCP< const Teuchos::MpiComm< int > > &mpi_comm, const Teuchos::RCP< Teuchos::ParameterList > &strat_params, bool writeCoordinates, bool writeTopo, const Teuchos::RCP< const panzer::UniqueGlobalIndexerBase > &auxGlobalIndexer, bool useCoordinates)
Teuchos::RCP< panzer::ResponseLibrary< panzer::Traits > > initializeSolnWriterResponseLibrary(const Teuchos::RCP< panzer::WorksetContainer > &wc, const Teuchos::RCP< const panzer::UniqueGlobalIndexerBase > &ugi, const Teuchos::RCP< const panzer::LinearObjFactory< panzer::Traits > > &lof, const Teuchos::RCP< panzer_stk::STK_Interface > &mesh) const
void writeInitialConditions(const Thyra::ModelEvaluator< ScalarT > &model, const std::vector< Teuchos::RCP< panzer::PhysicsBlock > > &physicsBlocks, const Teuchos::RCP< panzer::WorksetContainer > &wc, const Teuchos::RCP< const panzer::UniqueGlobalIndexerBase > &ugi, const Teuchos::RCP< const panzer::LinearObjFactory< panzer::Traits > > &lof, const Teuchos::RCP< panzer_stk::STK_Interface > &mesh, const panzer::ClosureModelFactory_TemplateManager< panzer::Traits > &cm_factory, const Teuchos::ParameterList &closure_model_pl, const Teuchos::ParameterList &user_data_pl, int workset_size) const
Write the initial conditions to exodus. Note that this is entirely self contained.
void TokensToInts(std::vector< int > &values, const std::vector< std::string > &tokens)
Turn a vector of tokens into a vector of ints.
void setRythmosObserverFactory(const Teuchos::RCP< const panzer_stk::RythmosObserverFactory > &rythmos_observer_factory)
Interface for constructing a BCStrategy_TemplateManager.
virtual void completeMeshConstruction(STK_Interface &mesh, stk::ParallelMachine parallelMach) const =0
Allocates and initializes an equation set template manager.
bool evaluate_transient_terms
void finalizeMeshConstruction(const STK_MeshFactory &mesh_factory, const std::vector< Teuchos::RCP< panzer::PhysicsBlock > > &physicsBlocks, const Teuchos::MpiComm< int > mpi_comm, STK_Interface &mesh) const
Teuchos::RCP< Thyra::ModelEvaluator< ScalarT > > getPhysicsModelEvaluator()
Teuchos::RCP< Thyra::ModelEvaluator< double > > cloneWithNewPhysicsBlocks(const Teuchos::RCP< Thyra::LinearOpWithSolveFactoryBase< ScalarT > > &solverFactory, const Teuchos::RCP< Teuchos::ParameterList > &physics_block_plist, const Teuchos::RCP< const panzer::EquationSetFactory > &eqset_factory, const panzer::BCStrategyFactory &bc_factory, const panzer::ClosureModelFactory_TemplateManager< panzer::Traits > &user_cm_factory, bool is_transient, bool is_explicit, const Teuchos::Ptr< const Teuchos::ParameterList > &bc_list=Teuchos::null, const Teuchos::RCP< Thyra::ModelEvaluator< ScalarT > > &physics_me=Teuchos::null) const
void setUseDOFManagerFEI(bool flag)
void buildBlockIdToPhysicsIdMap(std::map< std::string, std::string > &b_to_p, const Teuchos::ParameterList &p)
Teuchos::RCP< const Teuchos::ParameterList > getValidParameters() const
virtual void set_x_th(const Teuchos::RCP< Thyra::VectorBase< ScalarT > > &in)=0
void addSolutionField(const std::string &fieldName, const std::string &blockId)
void setParameterList(Teuchos::RCP< Teuchos::ParameterList > const ¶mList)
void setUseTieBreak(bool flag)
Teuchos::RCP< panzer::LinearObjContainer > ghostedContainer_
Teuchos::RCP< panzer_stk::STK_Interface > mesh
Class that provides access to worksets on each element block and side set.
virtual Teuchos::RCP< panzer::UniqueGlobalIndexer< LO, std::pair< int, GO > > > buildUniqueGlobalIndexer(const Teuchos::RCP< const Teuchos::OpaqueWrapper< MPI_Comm > > &mpiComm, const std::vector< Teuchos::RCP< panzer::PhysicsBlock > > &physicsBlocks, const Teuchos::RCP< ConnManager< LO, GO > > &connMngr, const std::string &fieldOrder="") const
Teuchos::RCP< panzer::LinearObjContainer > container_
Teuchos::RCP< panzer::FieldManagerBuilder > buildFieldManagerBuilder(const Teuchos::RCP< panzer::WorksetContainer > &wc, const std::vector< Teuchos::RCP< panzer::PhysicsBlock > > &physicsBlocks, const std::vector< panzer::BC > &bcs, const panzer::EquationSetFactory &eqset_factory, const panzer::BCStrategyFactory &bc_factory, const panzer::ClosureModelFactory_TemplateManager< panzer::Traits > &volume_cm_factory, const panzer::ClosureModelFactory_TemplateManager< panzer::Traits > &bc_cm_factory, const Teuchos::ParameterList &closure_models, const panzer::LinearObjFactory< panzer::Traits > &lo_factory, const Teuchos::ParameterList &user_data, bool writeGraph, const std::string &graphPrefix, bool write_field_managers, const std::string &field_manager_prefix) const
unsigned getDimension() const
get the dimension
void buildResponseEvaluators(const std::vector< Teuchos::RCP< panzer::PhysicsBlock > > &physicsBlocks, const panzer::ClosureModelFactory_TemplateManager< panzer::Traits > &cm_factory, const Teuchos::ParameterList &closure_models, const Teuchos::ParameterList &user_data, const bool write_graphviz_file=false, const std::string &graphviz_file_prefix="")
Teuchos::RCP< Thyra::ModelEvaluator< ScalarT > > buildResponseOnlyModelEvaluator(const Teuchos::RCP< Thyra::ModelEvaluator< ScalarT > > &thyra_me, const Teuchos::RCP< panzer::GlobalData > &global_data, const Teuchos::RCP< Piro::RythmosSolver< ScalarT > > rythmosSolver=Teuchos::null, const Teuchos::Ptr< const panzer_stk::NOXObserverFactory > &in_nox_observer_factory=Teuchos::null, const Teuchos::Ptr< const panzer_stk::RythmosObserverFactory > &in_rythmos_observer_factory=Teuchos::null)
void buildResponses(const std::vector< Teuchos::RCP< panzer::PhysicsBlock > > &physicsBlocks, const panzer::EquationSetFactory &eqset_factory, const panzer::ClosureModelFactory_TemplateManager< panzer::Traits > &cm_factory, const Teuchos::ParameterList &closure_models, const Teuchos::ParameterList &user_data, const bool write_graphviz_file=false, const std::string &graphviz_file_prefix="")
void addUserFieldsToMesh(panzer_stk::STK_Interface &mesh, const Teuchos::ParameterList &output_list) const
Add the user fields specified by output_list to the mesh.
Teuchos::RCP< Thyra::ModelEvaluator< ScalarT > > getResponseOnlyModelEvaluator()
Teuchos::RCP< Thyra::ModelEvaluatorDefaultBase< double > > buildPhysicsModelEvaluator(bool buildThyraME, const Teuchos::RCP< panzer::FieldManagerBuilder > &fmb, const Teuchos::RCP< panzer::ResponseLibrary< panzer::Traits > > &rLibrary, const Teuchos::RCP< panzer::LinearObjFactory< panzer::Traits > > &lof, const std::vector< Teuchos::RCP< Teuchos::Array< std::string > > > &p_names, const std::vector< Teuchos::RCP< Teuchos::Array< double > > > &p_values, const Teuchos::RCP< Thyra::LinearOpWithSolveFactoryBase< ScalarT > > &solverFactory, const Teuchos::RCP< panzer::GlobalData > &global_data, bool is_transient, double t_init) const
void setNOXObserverFactory(const Teuchos::RCP< const panzer_stk::NOXObserverFactory > &nox_observer_factory)
Teuchos::RCP< STK_MeshFactory > buildSTKMeshFactory(const Teuchos::ParameterList &mesh_params) const
build STK mesh factory from a mesh parameter list
void buildObjects(const Teuchos::RCP< const Teuchos::Comm< int > > &comm, const Teuchos::RCP< panzer::GlobalData > &global_data, const Teuchos::RCP< const panzer::EquationSetFactory > &eqset_factory, const panzer::BCStrategyFactory &bc_factory, const panzer::ClosureModelFactory_TemplateManager< panzer::Traits > &cm_factory, bool meConstructionOn=true)
Builds the model evaluators for a panzer assembly.
void setUseDOFManagerFEI(bool flag)
virtual Teuchos::RCP< LinearObjContainer > buildLinearObjContainer() const =0
std::string printUGILoadBalancingInformation(const UniqueGlobalIndexer< LocalOrdinalT, GlobalOrdinalT > &ugi)
double getInitialStateTime() const
void setBlockWeight(const std::string &blockId, double weight)
void setupInitialConditions(Thyra::ModelEvaluator< ScalarT > &model, panzer::WorksetContainer &wkstContainer, const std::vector< Teuchos::RCP< panzer::PhysicsBlock > > &physicsBlocks, const panzer::ClosureModelFactory_TemplateManager< panzer::Traits > &cm_factory, const panzer::LinearObjFactory< panzer::Traits > &lof, const Teuchos::ParameterList &closure_pl, const Teuchos::ParameterList &initial_cond_pl, const Teuchos::ParameterList &user_data_pl, bool write_dot_files, const std::string &dot_file_prefix) const
Setup the initial conditions in a model evaluator. Note that this is entirely self contained...
Teuchos::RCP< Thyra::LinearOpWithSolveFactoryBase< double > > buildLOWSFactory(bool blockedAssembly, const Teuchos::RCP< const panzer::UniqueGlobalIndexerBase > &globalIndexer, const Teuchos::RCP< panzer::ConnManagerBase< int > > &conn_manager, const Teuchos::RCP< panzer_stk::STK_Interface > &mesh, const Teuchos::RCP< const Teuchos::MpiComm< int > > &mpi_comm) const
double getInitialTime(Teuchos::ParameterList &transient_ic_params, const panzer_stk::STK_Interface &mesh) const
Gets the initial time from either the input parameter list or an exodus file.
virtual void readVector(const std::string &identifier, LinearObjContainer &loc, int id) const =0
void addMeshCoordFields(const std::string &blockId, const std::vector< std::string > &coordField, const std::string &dispPrefix)
void setupInitialConditionFieldManagers(WorksetContainer &wkstContainer, const std::vector< Teuchos::RCP< panzer::PhysicsBlock > > &physicsBlocks, const panzer::ClosureModelFactory_TemplateManager< panzer::Traits > &cm_factory, const Teuchos::ParameterList &ic_block_closure_models, const panzer::LinearObjFactory< panzer::Traits > &lo_factory, const Teuchos::ParameterList &user_data, const bool write_graphviz_file, const std::string &graphviz_file_prefix, std::map< std::string, Teuchos::RCP< PHX::FieldManager< panzer::Traits > > > &phx_ic_field_managers)
Builds PHX::FieldManager objects for inital conditions and registers evaluators.
void buildResponses(const panzer::ClosureModelFactory_TemplateManager< panzer::Traits > &cm_factory, const bool write_graphviz_file=false, const std::string &graphviz_file_prefix="")
const std::vector< Teuchos::RCP< panzer::PhysicsBlock > > & getPhysicsBlocks() const
void finalizeSolnWriterResponseLibrary(panzer::ResponseLibrary< panzer::Traits > &rl, const std::vector< Teuchos::RCP< panzer::PhysicsBlock > > &physicsBlocks, const panzer::ClosureModelFactory_TemplateManager< panzer::Traits > &cm_factory, const Teuchos::ParameterList &closure_models, int workset_size, Teuchos::ParameterList &user_data) const
std::pair< std::string, Teuchos::RCP< panzer::PureBasis > > StrPureBasisPair
virtual Teuchos::RCP< panzer::UniqueGlobalIndexer< LO, GO > > buildUniqueGlobalIndexer(const Teuchos::RCP< const Teuchos::OpaqueWrapper< MPI_Comm > > &mpiComm, const std::vector< Teuchos::RCP< panzer::PhysicsBlock > > &physicsBlocks, const Teuchos::RCP< ConnManager< LO, GO > > &connMngr, const std::string &fieldOrder="") const
WorksetDescriptor blockDescriptor(const std::string &eBlock)
void StringTokenizer(std::vector< std::string > &tokens, const std::string &str, const std::string delimiters, bool trim)
Tokenize a string, put tokens in a vector.
void addCellField(const std::string &fieldName, const std::string &blockId)
void evaluateInitialCondition(WorksetContainer &wkstContainer, const std::map< std::string, Teuchos::RCP< PHX::FieldManager< panzer::Traits > > > &phx_ic_field_managers, Teuchos::RCP< panzer::LinearObjContainer > loc, const panzer::LinearObjFactory< panzer::Traits > &lo_factory, const double time_stamp)
void registerScalarParameter(const std::string name, panzer::ParamLib &pl, double realValue)
void setUserWorksetFactory(Teuchos::RCP< panzer_stk::WorksetFactory > &user_wkst_factory)
Set user defined workset factory.
Teuchos::RCP< panzer::ResponseLibrary< panzer::Traits > > getResponseLibrary()