43 #ifndef PANZER_BLOCKED_EPETRA_LINEAR_OBJ_FACTORY_IMPL_HPP 44 #define PANZER_BLOCKED_EPETRA_LINEAR_OBJ_FACTORY_IMPL_HPP 48 #include "Tpetra_MultiVector.hpp" 49 #include "Tpetra_Vector.hpp" 50 #include "Tpetra_CrsMatrix.hpp" 52 #include "Thyra_TpetraThyraWrappers.hpp" 53 #include "Thyra_DefaultProductVectorSpace.hpp" 54 #include "Thyra_DefaultBlockedLinearOp.hpp" 55 #include "Thyra_TpetraLinearOp.hpp" 56 #include "Thyra_SpmdVectorBase.hpp" 69 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
73 : blockProvider_(gidProvider), blockedDOFManager_(gidProvider), comm_(
comm)
75 for(std::size_t i=0;i<gidProvider->getFieldDOFManagers().size();i++)
76 gidProviders_.push_back(gidProvider->getFieldDOFManagers()[i]);
85 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
93 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
98 std::vector<Teuchos::RCP<const MapType> > blockMaps;
99 std::size_t blockDim = gidProviders_.size();
100 for(std::size_t i=0;i<blockDim;i++)
101 blockMaps.push_back(getMap(i));
104 container->setMapsForBlocks(blockMaps);
109 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
114 std::vector<Teuchos::RCP<const MapType> > blockMaps;
115 std::size_t blockDim = gidProviders_.size();
116 for(std::size_t i=0;i<blockDim;i++)
117 blockMaps.push_back(getGhostedMap(i));
120 container->setMapsForBlocks(blockMaps);
125 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
139 globalToGhostThyraVector(b_in.
get_x(),b_out.get_x());
142 globalToGhostThyraVector(b_in.
get_dxdt(),b_out.get_dxdt());
145 globalToGhostThyraVector(b_in.
get_f(),b_out.get_f());
148 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
162 ghostToGlobalThyraVector(b_in.
get_x(),b_out.get_x());
165 ghostToGlobalThyraVector(b_in.
get_f(),b_out.get_f());
168 ghostToGlobalThyraMatrix(*b_in.
get_A(),*b_out.get_A());
171 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
176 bool zeroVectorRows,
bool adjustX)
const 179 using Teuchos::rcp_dynamic_cast;
181 using Thyra::PhysicallyBlockedLinearOpBase;
185 std::size_t blockDim = gidProviders_.size();
201 if(adjustX) f = rcp_dynamic_cast<ProductVectorBase<ScalarT> >(b_ghosted.get_x());
204 if(A!=Teuchos::null)
TEUCHOS_ASSERT(A->productRange()->numBlocks()==(int) blockDim);
205 if(A!=Teuchos::null)
TEUCHOS_ASSERT(A->productDomain()->numBlocks()==(int) blockDim);
206 if(f!=Teuchos::null)
TEUCHOS_ASSERT(f->productSpace()->numBlocks()==(int) blockDim);
207 TEUCHOS_ASSERT(local_bcs->productSpace()->numBlocks()==(int) blockDim);
208 TEUCHOS_ASSERT(global_bcs->productSpace()->numBlocks()==(int) blockDim);
210 for(std::size_t i=0;i<blockDim;i++) {
218 if(th_f==Teuchos::null)
221 t_f = rcp_dynamic_cast<
ThyraVector>(th_f,
true)->getTpetraVector();
223 for(std::size_t j=0;j<blockDim;j++) {
232 if(th_A==Teuchos::null)
240 if(t_A!=Teuchos::null) {
244 adjustForDirichletConditions(*t_local_bcs,*t_global_bcs,t_f.
ptr(),t_A.
ptr(),zeroVectorRows);
246 if(t_A!=Teuchos::null) {
255 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
261 bool zeroVectorRows)
const 263 if(f==Teuchos::null && A==Teuchos::null)
271 TEUCHOS_ASSERT(local_bcs.getLocalLength()==global_bcs.getLocalLength());
272 for(std::size_t i=0;i<local_bcs.getLocalLength();i++) {
273 if(global_bcs_array[i]==0.0)
276 if(local_bcs_array[i]==0.0 || zeroVectorRows) {
283 std::size_t numEntries = 0;
284 std::size_t sz = A->getNumEntriesInLocalRow(i);
288 A->getLocalRowCopy(i,indices,
values,numEntries);
290 for(std::size_t c=0;c<numEntries;c++)
293 A->replaceLocalValues(i,indices,
values);
299 ScalarT scaleFactor = global_bcs_array[i];
303 f_array[i] /= scaleFactor;
305 std::size_t numEntries = 0;
306 std::size_t sz = A->getNumEntriesInLocalRow(i);
310 A->getLocalRowCopy(i,indices,
values,numEntries);
312 for(std::size_t c=0;c<numEntries;c++)
315 A->replaceLocalValues(i,indices,
values);
321 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
329 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
337 std::vector<RCP<ReadOnlyVector_GlobalEvaluationData> > gedBlocks;
338 for(
int i=0;i<getBlockColCount();i++) {
341 vec_ged->initialize(getGhostedImport(i),getGhostedMap(i),getMap(i));
343 gedBlocks.push_back(vec_ged);
347 ged->
initialize(getGhostedThyraDomainSpace(),getThyraDomainSpace(),gedBlocks);
352 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
359 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
364 initializeContainer(mem,bloc);
367 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
372 initializeGhostedContainer(mem,bloc);
378 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
386 if((mem & LOC::X) == LOC::X)
387 loc.
set_x(getThyraDomainVector());
389 if((mem & LOC::DxDt) == LOC::DxDt)
390 loc.
set_dxdt(getThyraDomainVector());
392 if((mem & LOC::F) == LOC::F)
393 loc.
set_f(getThyraRangeVector());
395 if((mem & LOC::Mat) == LOC::Mat)
396 loc.
set_A(getThyraMatrix());
399 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
407 if((mem & LOC::X) == LOC::X)
408 loc.
set_x(getGhostedThyraDomainVector());
410 if((mem & LOC::DxDt) == LOC::DxDt)
411 loc.
set_dxdt(getGhostedThyraDomainVector());
413 if((mem & LOC::F) == LOC::F) {
414 loc.
set_f(getGhostedThyraRangeVector());
418 if((mem & LOC::Mat) == LOC::Mat) {
419 loc.
set_A(getGhostedThyraMatrix());
424 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
428 excludedPairs_.insert(std::make_pair(rowBlock,colBlock));
431 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
435 for(std::size_t i=0;i<exPairs.size();i++)
436 excludedPairs_.insert(exPairs[i]);
439 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
444 return gidProviders_[i];
447 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
451 maps_.resize(blockCnt);
452 ghostedMaps_.resize(blockCnt);
453 importers_.resize(blockCnt);
454 exporters_.resize(blockCnt);
460 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
465 if(domainSpace_==Teuchos::null) {
467 std::vector<Teuchos::RCP<const Thyra::VectorSpaceBase<ScalarT> > > vsArray;
468 for(std::size_t i=0;i<gidProviders_.size();i++)
469 vsArray.push_back(Thyra::createVectorSpace<ScalarT,LocalOrdinalT,GlobalOrdinalT,NodeT>(getMap(i)));
471 domainSpace_ = Thyra::productVectorSpace<ScalarT>(vsArray);
477 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
482 if(rangeSpace_==Teuchos::null) {
484 std::vector<Teuchos::RCP<const Thyra::VectorSpaceBase<ScalarT> > > vsArray;
485 for(std::size_t i=0;i<gidProviders_.size();i++)
486 vsArray.push_back(Thyra::createVectorSpace<ScalarT,LocalOrdinalT,GlobalOrdinalT,NodeT>(getMap(i)));
488 rangeSpace_ = Thyra::productVectorSpace<ScalarT>(vsArray);
494 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
500 Thyra::createMember<ScalarT>(*getThyraDomainSpace());
501 Thyra::assign(vec.
ptr(),0.0);
504 for(std::size_t i=0;i<gidProviders_.size();i++) {
505 TEUCHOS_ASSERT(Teuchos::rcp_dynamic_cast<Thyra::SpmdVectorBase<ScalarT> >(p_vec->getNonconstVectorBlock(i))->spmdSpace()->localSubDim()==
506 Teuchos::as<int>(getMap(i)->getNodeNumElements()));
512 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
518 Thyra::createMember<ScalarT>(*getThyraRangeSpace());
519 Thyra::assign(vec.
ptr(),0.0);
524 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
532 std::size_t blockDim = gidProviders_.size();
535 blockedOp->beginBlockFill(blockDim,blockDim);
538 for(std::size_t i=0;i<blockDim;i++) {
539 for(std::size_t j=0;j<blockDim;j++) {
540 if(excludedPairs_.find(std::make_pair(i,j))==excludedPairs_.end()) {
543 blockedOp->setNonconstBlock(i,j,block);
549 blockedOp->endBlockFill();
554 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
559 if(ghostedDomainSpace_==Teuchos::null) {
561 std::vector<Teuchos::RCP<const Thyra::VectorSpaceBase<ScalarT> > > vsArray;
562 for(std::size_t i=0;i<gidProviders_.size();i++)
563 vsArray.push_back(Thyra::createVectorSpace<ScalarT,LocalOrdinalT,GlobalOrdinalT,NodeT>(getGhostedMap(i)));
565 ghostedDomainSpace_ = Thyra::productVectorSpace<ScalarT>(vsArray);
568 return ghostedDomainSpace_;
571 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
576 if(ghostedRangeSpace_==Teuchos::null) {
578 std::vector<Teuchos::RCP<const Thyra::VectorSpaceBase<ScalarT> > > vsArray;
579 for(std::size_t i=0;i<gidProviders_.size();i++)
580 vsArray.push_back(Thyra::createVectorSpace<ScalarT,LocalOrdinalT,GlobalOrdinalT,NodeT>(getGhostedMap(i)));
582 ghostedRangeSpace_ = Thyra::productVectorSpace<ScalarT>(vsArray);
585 return ghostedRangeSpace_;
588 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
594 Thyra::createMember<ScalarT>(*getGhostedThyraDomainSpace());
595 Thyra::assign(vec.
ptr(),0.0);
600 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
606 Thyra::createMember<ScalarT>(*getGhostedThyraRangeSpace());
607 Thyra::assign(vec.
ptr(),0.0);
612 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
620 std::size_t blockDim = gidProviders_.size();
623 blockedOp->beginBlockFill(blockDim,blockDim);
626 for(std::size_t i=0;i<blockDim;i++) {
627 for(std::size_t j=0;j<blockDim;j++) {
628 if(excludedPairs_.find(std::make_pair(i,j))==excludedPairs_.end()) {
631 blockedOp->setNonconstBlock(i,j,block);
637 blockedOp->endBlockFill();
642 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
648 using Teuchos::rcp_dynamic_cast;
651 std::size_t blockDim = gidProviders_.size();
657 TEUCHOS_ASSERT(prod_in->productSpace()->numBlocks()==(int) blockDim);
658 TEUCHOS_ASSERT(prod_out->productSpace()->numBlocks()==(int) blockDim);
660 for(std::size_t i=0;i<blockDim;i++) {
666 ghostToGlobalTpetraVector(i,*tp_in,*tp_out);
670 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
675 using Teuchos::rcp_dynamic_cast;
678 using Thyra::PhysicallyBlockedLinearOpBase;
680 std::size_t blockDim = gidProviders_.size();
683 const PhysicallyBlockedLinearOpBase<ScalarT> & prod_in =
dyn_cast<
const PhysicallyBlockedLinearOpBase<ScalarT> >(in);
684 PhysicallyBlockedLinearOpBase<ScalarT> & prod_out =
dyn_cast<PhysicallyBlockedLinearOpBase<ScalarT> >(out);
686 TEUCHOS_ASSERT(prod_in.productRange()->numBlocks()==(int) blockDim);
687 TEUCHOS_ASSERT(prod_in.productDomain()->numBlocks()==(int) blockDim);
688 TEUCHOS_ASSERT(prod_out.productRange()->numBlocks()==(int) blockDim);
689 TEUCHOS_ASSERT(prod_out.productDomain()->numBlocks()==(int) blockDim);
691 for(std::size_t i=0;i<blockDim;i++) {
692 for(std::size_t j=0;j<blockDim;j++) {
693 if(excludedPairs_.find(std::make_pair(i,j))==excludedPairs_.end()) {
710 ghostToGlobalTpetraMatrix(i,*tp_in,*tp_out);
716 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
722 using Teuchos::rcp_dynamic_cast;
725 std::size_t blockDim = gidProviders_.size();
731 TEUCHOS_ASSERT(prod_in->productSpace()->numBlocks()==(int) blockDim);
732 TEUCHOS_ASSERT(prod_out->productSpace()->numBlocks()==(int) blockDim);
734 for(std::size_t i=0;i<blockDim;i++) {
740 globalToGhostTpetraVector(i,*tp_in,*tp_out);
747 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
756 out.doExport(in,*exporter,Tpetra::ADD);
759 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
772 out.setAllToScalar(0.0);
773 out.doExport(in,*exporter,Tpetra::ADD);
774 out.fillComplete(map_j,map_i);
777 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
786 out.doImport(in,*importer,Tpetra::INSERT);
790 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
795 if(maps_[i]==Teuchos::null)
796 maps_[i] = buildTpetraMap(i);
801 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
806 if(ghostedMaps_[i]==Teuchos::null)
807 ghostedMaps_[i] = buildTpetraGhostedMap(i);
809 return ghostedMaps_[i];
813 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
820 typename GraphMap::const_iterator itr = graphs_.find(std::make_pair(i,j));
822 if(itr==graphs_.end()) {
823 graph = buildTpetraGraph(i,j);
824 graphs_[std::make_pair(i,j)] = graph;
833 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
840 typename GraphMap::const_iterator itr = ghostedGraphs_.find(std::make_pair(i,j));
842 if(itr==ghostedGraphs_.end()) {
843 ghostedGraph = buildTpetraGhostedGraph(i,j);
844 ghostedGraphs_[std::make_pair(i,j)] = ghostedGraph;
847 ghostedGraph = itr->second;
853 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
858 if(importers_[i]==Teuchos::null)
861 return importers_[i];
864 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
869 if(exporters_[i]==Teuchos::null)
872 return exporters_[i];
875 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
880 std::vector<GlobalOrdinalT> indices;
883 getGlobalIndexer(i)->getOwnedIndices(indices);
889 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
894 std::vector<GlobalOrdinalT> indices;
897 getGlobalIndexer(i)->getOwnedAndGhostedIndices(indices);
903 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
921 graph->doExport( *oGraph, *exporter, Tpetra::INSERT );
922 graph->fillComplete(map_j,map_i);
927 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
942 std::vector<std::string> elementBlockIds;
946 rowProvider = getGlobalIndexer(i);
947 colProvider = getGlobalIndexer(j);
949 blockProvider_->getElementBlockIds(elementBlockIds);
953 std::vector<std::string>::const_iterator blockItr;
954 for(blockItr=elementBlockIds.begin();blockItr!=elementBlockIds.end();++blockItr) {
955 std::string blockId = *blockItr;
958 const std::vector<LocalOrdinalT> & elements = blockProvider_->getElementBlock(blockId);
962 std::vector<GlobalOrdinalT> row_gids;
963 std::vector<GlobalOrdinalT> col_gids;
966 for(std::size_t elmt=0;elmt<elements.size();elmt++) {
968 rowProvider->getElementGIDs(elements[elmt],row_gids);
969 colProvider->getElementGIDs(elements[elmt],col_gids);
970 for(std::size_t row=0;row<row_gids.size();row++)
971 graph->insertGlobalIndices(row_gids[row],col_gids);
977 graph->fillComplete(map_j,map_i);
982 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
992 mat->fillComplete(map_j,map_i);
997 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
1007 mat->fillComplete(map_j,map_i);
1012 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
1017 return gidProviders_.size();
1020 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
1025 return gidProviders_.size();
1028 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
1033 if(tloc.
get_A()!=Teuchos::null)
1037 template <
typename Traits,
typename ScalarT,
typename LocalOrdinalT,
typename GlobalOrdinalT,
typename NodeT>
1042 if(tloc.
get_A()!=Teuchos::null)
virtual void applyDirichletBCs(const LinearObjContainer &counter, LinearObjContainer &result) const
Thyra::TpetraVector< ScalarT, LocalOrdinalT, GlobalOrdinalT, NodeT > ThyraVector
void ghostToGlobalTpetraMatrix(int blockRow, const CrsMatrixType &in, CrsMatrixType &out) const
Teuchos::RCP< const panzer::BlockedDOFManager< int, GlobalOrdinalT > > getGlobalIndexer() const
bool is_null(const boost::shared_ptr< T > &p)
virtual ~BlockedTpetraLinearObjFactory()
virtual Teuchos::RCP< const MapType > buildTpetraMap(int i) const
Thyra::TpetraLinearOp< ScalarT, LocalOrdinalT, GlobalOrdinalT, NodeT > ThyraLinearOp
void set_dxdt(const Teuchos::RCP< VectorType > &in)
virtual Teuchos::RCP< const ExportType > getGhostedExport(int j) const
get exporter for converting an overalapped object to a "normal" object
bool is_null(const std::shared_ptr< T > &p)
std::vector< Teuchos::RCP< const UniqueGlobalIndexer< LocalOrdinalT, GlobalOrdinalT > > > gidProviders_
T_To & dyn_cast(T_From &from)
virtual Teuchos::RCP< const MapType > buildTpetraGhostedMap(int i) const
virtual Teuchos::RCP< const ImportType > getGhostedImport(int i) const
get importer for converting an overalapped object to a "normal" object
Tpetra::Import< LocalOrdinalT, GlobalOrdinalT, NodeT > ImportType
virtual Teuchos::RCP< const CrsGraphType > buildTpetraGraph(int i, int j) const
virtual Teuchos::RCP< LinearObjContainer > buildLinearObjContainer() const
Teuchos::RCP< Thyra::LinearOpBase< ScalarT > > getThyraMatrix() const
Get a Thyra operator.
virtual void adjustForDirichletConditions(const LinearObjContainer &localBCRows, const LinearObjContainer &globalBCRows, LinearObjContainer &ghostedObjs, bool zeroVectorRows=false, bool adjustX=false) const
Teuchos::MpiComm< int > getComm() const
virtual void globalToGhostContainer(const LinearObjContainer &container, LinearObjContainer &ghostContainer, int) const
Teuchos::RCP< VectorType > get_f() const
PHX::MDField< ScalarT > vector
virtual Teuchos::RCP< LinearObjContainer > buildGhostedLinearObjContainer() const
Teuchos::RCP< Thyra::BlockedLinearOpBase< ScalarT > > getGhostedThyraMatrix() const
Get a Thyra operator.
Teuchos::RCP< VectorType > get_dxdt() const
int getBlockColCount() const
how many block columns
void initializeGhostedContainer(int, LinearObjContainer &loc) const
Tpetra::CrsGraph< LocalOrdinalT, GlobalOrdinalT, NodeT > CrsGraphType
virtual Teuchos::RCP< const MapType > getMap(int i) const
get the map from the matrix
virtual Teuchos::RCP< const CrsGraphType > getGraph(int i, int j) const
get the graph of the crs matrix
Teuchos::RCP< CrsMatrixType > get_A() const
void globalToGhostThyraVector(const Teuchos::RCP< const Thyra::VectorBase< ScalarT > > &in, const Teuchos::RCP< Thyra::VectorBase< ScalarT > > &out) const
TEUCHOS_DEPRECATED RCP< T > rcp(T *p, Dealloc_T dealloc, bool owns_mem)
Tpetra::Export< LocalOrdinalT, GlobalOrdinalT, NodeT > ExportType
void initialize(const Teuchos::RCP< const Thyra::VectorSpaceBase< double > > &ghostedSpace, const Teuchos::RCP< const Thyra::VectorSpaceBase< double > > &ownedSpace, const std::vector< Teuchos::RCP< ReadOnlyVector_GlobalEvaluationData > > &gedBlocks)
Teuchos::RCP< Thyra::VectorBase< ScalarT > > getGhostedThyraRangeVector() const
Get a range vector.
void ghostToGlobalTpetraVector(int i, const VectorType &in, VectorType &out) const
Teuchos::RCP< const Thyra::VectorSpaceBase< ScalarT > > getGhostedThyraDomainSpace() const
Get the domain vector space (x and dxdt)
void setRequiresDirichletAdjustment(bool b)
std::vector< ScalarT > values
Teuchos::RCP< Thyra::VectorBase< ScalarT > > getThyraRangeVector() const
Get a range vector.
virtual Teuchos::RCP< const CrsGraphType > getGhostedGraph(int i, int j) const
get the ghosted graph of the crs matrix
void makeRoomForBlocks(std::size_t blockCnt)
Allocate the space in the std::vector objects so we can fill with appropriate Tpetra data...
Tpetra::Vector< ScalarT, LocalOrdinalT, GlobalOrdinalT, NodeT > VectorType
Teuchos::RCP< Thyra::VectorBase< ScalarT > > getThyraDomainVector() const
Get a domain vector.
virtual void endFill(LinearObjContainer &loc) const
Tpetra::CrsMatrix< ScalarT, LocalOrdinalT, GlobalOrdinalT, NodeT > CrsMatrixType
virtual Teuchos::RCP< ReadOnlyVector_GlobalEvaluationData > buildDomainContainer() const
Teuchos::RCP< Thyra::VectorBase< ScalarT > > getGhostedThyraDomainVector() const
Get a domain vector.
void addExcludedPairs(const std::vector< std::pair< int, int > > &exPairs)
exclude a vector of pairs from the matrix
virtual void ghostToGlobalContainer(const LinearObjContainer &ghostContainer, LinearObjContainer &container, int) const
Teuchos::RCP< const Thyra::VectorSpaceBase< ScalarT > > getThyraRangeSpace() const
Get the range vector space (f)
void addExcludedPair(int rowBlock, int colBlock)
exclude a block pair from the matrix
virtual Teuchos::RCP< const MapType > getGhostedMap(int i) const
get the ghosted map from the matrix
Teuchos::RCP< VectorType > get_x() const
void globalToGhostTpetraVector(int i, const VectorType &in, VectorType &out) const
int getBlockRowCount() const
how many block rows
void set_x(const Teuchos::RCP< VectorType > &in)
Teuchos::RCP< const Teuchos::Comm< int > > comm
BlockedTpetraLinearObjFactory(const Teuchos::RCP< const Teuchos::MpiComm< int > > &comm, const Teuchos::RCP< const BlockedDOFManager< LocalOrdinalT, GlobalOrdinalT > > &gidProvider)
Teuchos::RCP< const Thyra::VectorSpaceBase< ScalarT > > getThyraDomainSpace() const
Get the domain vector space (x and dxdt)
void buildGatherScatterEvaluators(const BuilderT &builder)
virtual void beginFill(LinearObjContainer &loc) const
Teuchos::RCP< const Thyra::VectorSpaceBase< ScalarT > > getGhostedThyraRangeSpace() const
Get the range vector space (f)
#define TEUCHOS_ASSERT(assertion_test)
void ghostToGlobalThyraVector(const Teuchos::RCP< const Thyra::VectorBase< ScalarT > > &in, const Teuchos::RCP< Thyra::VectorBase< ScalarT > > &out) const
void initializeContainer(int, LinearObjContainer &loc) const
void set_f(const Teuchos::RCP< VectorType > &in)
void ghostToGlobalThyraMatrix(const Thyra::LinearOpBase< ScalarT > &in, Thyra::LinearOpBase< ScalarT > &out) const
Teuchos::RCP< CrsMatrixType > getGhostedTpetraMatrix(int i, int j) const
Tpetra::Map< LocalOrdinalT, GlobalOrdinalT, NodeT > MapType
virtual Teuchos::RCP< const CrsGraphType > buildTpetraGhostedGraph(int i, int j) const
void set_A(const Teuchos::RCP< CrsMatrixType > &in)
Teuchos::RCP< CrsMatrixType > getTpetraMatrix(int i, int j) const