46 #ifndef MUELU_BLOCKEDRAPFACTORY_DEF_HPP 47 #define MUELU_BLOCKEDRAPFACTORY_DEF_HPP 49 #ifdef HAVE_MUELU_EXPERIMENTAL 62 #include "MueLu_PerfUtils.hpp" 64 #include "MueLu_Utilities.hpp" 68 template <
class Scalar,
class LocalOrdinal,
class GlobalOrdinal,
class Node>
70 : checkAc_(false), repairZeroDiagonals_(false)
73 template <
class Scalar,
class LocalOrdinal,
class GlobalOrdinal,
class Node>
75 RCP<ParameterList> validParamList = rcp(
new ParameterList());
77 #define SET_VALID_ENTRY(name) validParamList->setEntry(name, MasterList::getEntry(name)) 79 #undef SET_VALID_ENTRY 80 validParamList->set< RCP<const FactoryBase> >(
"A", null,
"Generating factory of the matrix A used during the prolongator smoothing process");
81 validParamList->set< RCP<const FactoryBase> >(
"P", null,
"Prolongator factory");
82 validParamList->set< RCP<const FactoryBase> >(
"R", null,
"Restrictor factory");
84 return validParamList;
87 template <
class Scalar,
class LocalOrdinal,
class GlobalOrdinal,
class Node>
89 const Teuchos::ParameterList& pL = GetParameterList();
90 if (pL.get<
bool>(
"transpose: use implicit") ==
false)
91 Input(coarseLevel,
"R");
93 Input(fineLevel,
"A");
94 Input(coarseLevel,
"P");
97 for (std::vector<RCP<const FactoryBase> >::const_iterator it = transferFacts_.begin(); it != transferFacts_.end(); ++it)
98 (*it)->CallDeclareInput(coarseLevel);
101 template <
class Scalar,
class LocalOrdinal,
class GlobalOrdinal,
class Node>
105 const ParameterList& pL = GetParameterList();
107 RCP<Matrix> A = Get< RCP<Matrix> >(fineLevel,
"A");
108 RCP<Matrix> P = Get< RCP<Matrix> >(coarseLevel,
"P");
110 RCP<BlockedCrsMatrix> bA = rcp_dynamic_cast<BlockedCrsMatrix>(A);
111 RCP<BlockedCrsMatrix> bP = rcp_dynamic_cast<BlockedCrsMatrix>(P);
112 TEUCHOS_TEST_FOR_EXCEPTION(bA.is_null() || bP.is_null(),
Exceptions::BadCast,
"Matrices A and P must be of type BlockedCrsMatrix.");
114 RCP<BlockedCrsMatrix> bAP;
115 RCP<BlockedCrsMatrix> bAc;
121 "Block matrix dimensions do not match: " 122 "A is " << bA->Rows() <<
"x" << bA->Cols() <<
123 "P is " << bP->Rows() <<
"x" << bP->Cols());
125 bAP = MatrixMatrix::TwoMatrixMultiplyBlock(*bA,
false, *bP,
false, GetOStream(
Statistics2),
true,
true);
131 bool doOptimizeStorage = !checkAc_;
133 const bool doTranspose =
true;
134 const bool doFillComplete =
true;
135 if (pL.get<
bool>(
"transpose: use implicit") ==
true) {
137 bAc = MatrixMatrix::TwoMatrixMultiplyBlock(*bP, doTranspose, *bAP, !doTranspose, GetOStream(
Statistics2), doFillComplete, doOptimizeStorage);
140 RCP<Matrix> R = Get< RCP<Matrix> >(coarseLevel,
"R");
141 RCP<BlockedCrsMatrix> bR = rcp_dynamic_cast<BlockedCrsMatrix>(R);
142 TEUCHOS_TEST_FOR_EXCEPTION(bR.is_null(),
Exceptions::BadCast,
"Matrix R must be of type BlockedCrsMatrix.");
145 "Block matrix dimensions do not match: " 146 "R is " << bR->Rows() <<
"x" << bR->Cols() <<
147 "A is " << bA->Rows() <<
"x" << bA->Cols());
150 bAc = MatrixMatrix::TwoMatrixMultiplyBlock(*bR, !doTranspose, *bAP, !doTranspose, GetOStream(
Statistics2), doFillComplete, doOptimizeStorage);
155 CheckMainDiagonal(bAc);
170 Set<RCP <Matrix> >(coarseLevel,
"A", bAc);
172 if (transferFacts_.begin() != transferFacts_.end()) {
176 for (std::vector<RCP<const FactoryBase> >::const_iterator it = transferFacts_.begin(); it != transferFacts_.end(); ++it) {
177 RCP<const FactoryBase> fac = *it;
179 GetOStream(
Runtime0) <<
"BlockRAPFactory: call transfer factory: " << fac->description() << std::endl;
181 fac->CallBuild(coarseLevel);
185 coarseLevel.Release(*fac);
191 template <
class Scalar,
class LocalOrdinal,
class GlobalOrdinal,
class Node>
193 RCP<Matrix> c00 = bAc->getMatrix(0, 0);
194 RCP<Matrix> Aout = MatrixFactory::Build(c00->getRowMap(), c00->getGlobalMaxNumRowEntries(),
Xpetra::StaticProfile);
196 RCP<Vector> diagVec = VectorFactory::Build(c00->getRowMap());
197 c00->getLocalDiagCopy(*diagVec);
198 ArrayRCP<SC> diagVal = diagVec->getDataNonConst(0);
201 for (
size_t row = 0; row < c00->getNodeNumRows(); row++) {
203 GO grid = c00->getRowMap()->getGlobalElement(row);
205 ArrayView<const LO> indices;
206 ArrayView<const SC> vals;
207 c00->getLocalRowView(row, indices, vals);
210 ArrayRCP<GO> indout(indices.size(), Teuchos::OrdinalTraits<GO>::zero());
211 ArrayRCP<SC> valout(indices.size(), Teuchos::ScalarTraits<SC>::zero());
214 for (
size_t i = 0; i < as<size_t>(indices.size()); i++) {
215 GO gcid = c00->getColMap()->getGlobalElement(indices[i]);
217 valout [i] = vals[i];
220 Aout->insertGlobalValues(grid, indout.view(0, indout.size()), valout.view(0, valout.size()));
221 if (diagVal[row] == 0.0 && repairZeroDiagonals) {
223 Aout->insertGlobalValues(grid, Teuchos::tuple<GO>(grid), Teuchos::tuple<SC>(1.0));
227 Aout->fillComplete(c00->getDomainMap(), c00->getRangeMap());
229 bAc->setMatrix(0, 0, Aout);
232 template <
class Scalar,
class LocalOrdinal,
class GlobalOrdinal,
class Node>
235 TEUCHOS_TEST_FOR_EXCEPTION(rcp_dynamic_cast<const TwoLevelFactoryBase>(factory) == Teuchos::null,
Exceptions::BadCast,
236 "Transfer factory is not derived from TwoLevelFactoryBase. This is very strange. " 237 "(Note: you can remove this exception if there's a good reason for)");
238 transferFacts_.push_back(factory);
243 #define MUELU_BLOCKEDRAPFACTORY_SHORT 245 #endif // MUELU_BLOCKEDRAPFACTORY_DEF_HPP Exception indicating invalid cast attempted.
Timer to be used in factories. Similar to Monitor but with additional timers.
void DeclareInput(Level &fineLevel, Level &coarseLevel) const
Input.
One-liner description of what is happening.
Namespace for MueLu classes and methods.
Print even more statistics.
Class that holds all level-specific information.
Timer to be used in factories. Similar to SubMonitor but adds a timer level by level.
void AddTransferFactory(const RCP< const FactoryBase > &factory)
Add transfer factory in the end of list of transfer factories in RepartitionAcFactory.
static std::string PrintMatrixInfo(const Matrix &A, const std::string &msgTag, RCP< const Teuchos::ParameterList > params=Teuchos::null)
static void CheckMainDiagonal(RCP< BlockedCrsMatrix > &bAc, bool repairZeroDiagonals=false)
#define SET_VALID_ENTRY(name)
void Build(Level &fineLevel, Level &coarseLevel) const
Build an object with this factory.
RCP< const ParameterList > GetValidParameterList() const
Return a const parameter list of valid parameters that setParameterList() will accept.