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//
// ***********************************************************************
//
// MueLu: A package for multigrid based preconditioning
// Copyright 2012 Sandia Corporation
//
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/*
* MueLu_UzawaSmoother_def.hpp
*
* Created on: 13 May 2014
* Author: wiesner
*/
#ifndef MUELU_UZAWASMOOTHER_DEF_HPP_
#define MUELU_UZAWASMOOTHER_DEF_HPP_
#include "Teuchos_ArrayViewDecl.hpp"
#include "Teuchos_ScalarTraits.hpp"
#include "MueLu_ConfigDefs.hpp"
#include <Xpetra_Matrix.hpp>
#include <Xpetra_BlockedCrsMatrix.hpp>
#include <Xpetra_MultiVectorFactory.hpp>
#include <Xpetra_VectorFactory.hpp>
#include <Xpetra_ReorderedBlockedCrsMatrix.hpp>
#include "MueLu_UzawaSmoother_decl.hpp"
#include "MueLu_Level.hpp"
#include "MueLu_Utilities.hpp"
#include "MueLu_Monitor.hpp"
#include "MueLu_HierarchyUtils.hpp"
#include "MueLu_SmootherBase.hpp"
#include "MueLu_SubBlockAFactory.hpp"
// include files for default FactoryManager
#include "MueLu_SchurComplementFactory.hpp"
#include "MueLu_DirectSolver.hpp"
#include "MueLu_SmootherFactory.hpp"
#include "MueLu_FactoryManager.hpp"
namespace MueLu {
template <class Scalar,class LocalOrdinal, class GlobalOrdinal, class Node>
UzawaSmoother<Scalar, LocalOrdinal, GlobalOrdinal, Node>::UzawaSmoother()
: type_("Uzawa"), A_(Teuchos::null)
{
}
template <class Scalar,class LocalOrdinal, class GlobalOrdinal, class Node>
UzawaSmoother<Scalar, LocalOrdinal, GlobalOrdinal, Node>::~UzawaSmoother() {}
template <class Scalar, class LocalOrdinal, class GlobalOrdinal, class Node>
RCP<const ParameterList> UzawaSmoother<Scalar, LocalOrdinal, GlobalOrdinal, Node>::GetValidParameterList() const {
RCP<ParameterList> validParamList = rcp(new ParameterList());
validParamList->set< RCP<const FactoryBase> >("A", Teuchos::null, "Generating factory of the matrix A");
validParamList->set< Scalar > ("Damping factor", 1.0, "Damping/Scaling factor in SIMPLE");
validParamList->set< LocalOrdinal > ("Sweeps", 1, "Number of SIMPLE sweeps (default = 1)");
return validParamList;
}
//! Add a factory manager at a specific position
template <class Scalar,class LocalOrdinal, class GlobalOrdinal, class Node>
void UzawaSmoother<Scalar, LocalOrdinal, GlobalOrdinal, Node>::AddFactoryManager(RCP<const FactoryManagerBase> FactManager, int pos) {
TEUCHOS_TEST_FOR_EXCEPTION(pos < 0, Exceptions::RuntimeError, "MueLu::UzawaSmoother::AddFactoryManager: parameter \'pos\' must not be negative! error.");
size_t myPos = Teuchos::as<size_t>(pos);
if (myPos < FactManager_.size()) {
// replace existing entris in FactManager_ vector
FactManager_.at(myPos) = FactManager;
} else if( myPos == FactManager_.size()) {
// add new Factory manager in the end of the vector
FactManager_.push_back(FactManager);
} else { // if(myPos > FactManager_.size())
RCP<Teuchos::FancyOStream> out = Teuchos::fancyOStream(Teuchos::rcpFromRef(std::cout));
*out << "Warning: cannot add new FactoryManager at proper position " << pos << ". The FactoryManager is just appended to the end. Check this!" << std::endl;
// add new Factory manager in the end of the vector
FactManager_.push_back(FactManager);
}
}
template <class Scalar,class LocalOrdinal, class GlobalOrdinal, class Node>
void UzawaSmoother<Scalar, LocalOrdinal, GlobalOrdinal, Node>::SetVelocityPredictionFactoryManager(RCP<FactoryManager> FactManager) {
AddFactoryManager(FactManager, 0); // overwrite factory manager for predicting the primary variable
}
template <class Scalar,class LocalOrdinal, class GlobalOrdinal, class Node>
void UzawaSmoother<Scalar, LocalOrdinal, GlobalOrdinal, Node>::SetSchurCompFactoryManager(RCP<FactoryManager> FactManager) {
AddFactoryManager(FactManager, 1); // overwrite factory manager for SchurComplement
}
template <class Scalar,class LocalOrdinal, class GlobalOrdinal, class Node>
void UzawaSmoother<Scalar, LocalOrdinal, GlobalOrdinal, Node>::DeclareInput(Level ¤tLevel) const {
currentLevel.DeclareInput("A",this->GetFactory("A").get());
TEUCHOS_TEST_FOR_EXCEPTION(FactManager_.size() != 2, Exceptions::RuntimeError,"MueLu::UzawaSmoother::DeclareInput: You have to declare two FactoryManagers with a \"Smoother\" object: One for predicting the primary variable and one for the SchurComplement system. The smoother for the SchurComplement system needs a SchurComplementFactory as input for variable \"A\". make sure that you use the same proper damping factors for omega both in the SchurComplementFactory and in the SIMPLE smoother!");
// loop over all factory managers for the subblocks of blocked operator A
std::vector<Teuchos::RCP<const FactoryManagerBase> >::const_iterator it;
for(it = FactManager_.begin(); it!=FactManager_.end(); ++it) {
SetFactoryManager currentSFM (rcpFromRef(currentLevel), *it);
// request "Smoother" for current subblock row.
currentLevel.DeclareInput("PreSmoother",(*it)->GetFactory("Smoother").get());
}
}
template <class Scalar,class LocalOrdinal, class GlobalOrdinal, class Node>
void UzawaSmoother<Scalar, LocalOrdinal, GlobalOrdinal, Node>::Setup(Level ¤tLevel) {
FactoryMonitor m(*this, "Setup blocked Uzawa Smoother", currentLevel);
if (SmootherPrototype::IsSetup() == true)
this->GetOStream(Warnings0) << "MueLu::UzawaSmoother::Setup(): Setup() has already been called";
// extract blocked operator A from current level
A_ = Factory::Get<RCP<Matrix> > (currentLevel, "A");
RCP<BlockedCrsMatrix> bA = Teuchos::rcp_dynamic_cast<BlockedCrsMatrix>(A_);
TEUCHOS_TEST_FOR_EXCEPTION(bA == Teuchos::null, Exceptions::BadCast, "MueLu::UzawaSmoother::Setup: input matrix A is not of type BlockedCrsMatrix! error.");
// store map extractors
rangeMapExtractor_ = bA->getRangeMapExtractor();
domainMapExtractor_ = bA->getDomainMapExtractor();
// Store the blocks in local member variables
F_ = bA->getMatrix(0, 0);
G_ = bA->getMatrix(0, 1);
D_ = bA->getMatrix(1, 0);
Z_ = bA->getMatrix(1, 1);
// Set the Smoother
// carefully switch to the SubFactoryManagers (defined by the users)
{
RCP<const FactoryManagerBase> velpredictFactManager = FactManager_.at(0);
SetFactoryManager currentSFM (rcpFromRef(currentLevel), velpredictFactManager);
velPredictSmoo_ = currentLevel.Get< RCP<SmootherBase> >("PreSmoother",velpredictFactManager->GetFactory("Smoother").get());
}
{
RCP<const FactoryManagerBase> schurFactManager = FactManager_.at(1);
SetFactoryManager currentSFM (rcpFromRef(currentLevel), schurFactManager);
schurCompSmoo_ = currentLevel.Get< RCP<SmootherBase> >("PreSmoother", schurFactManager->GetFactory("Smoother").get());
}
SmootherPrototype::IsSetup(true);
}
template <class Scalar,class LocalOrdinal, class GlobalOrdinal, class Node>
void UzawaSmoother<Scalar, LocalOrdinal, GlobalOrdinal, Node>::Apply(MultiVector& X, const MultiVector& B, bool InitialGuessIsZero) const
{
TEUCHOS_TEST_FOR_EXCEPTION(SmootherPrototype::IsSetup() == false, Exceptions::RuntimeError, "MueLu::UzawaSmoother::Apply(): Setup() has not been called");
Teuchos::RCP<Teuchos::FancyOStream> fos = Teuchos::getFancyOStream(Teuchos::rcpFromRef(std::cout));
SC zero = Teuchos::ScalarTraits<SC>::zero(), one = Teuchos::ScalarTraits<SC>::one();
bool bRangeThyraMode = rangeMapExtractor_->getThyraMode();
bool bDomainThyraMode = domainMapExtractor_->getThyraMode();
// extract parameters from internal parameter list
const ParameterList & pL = Factory::GetParameterList();
LocalOrdinal nSweeps = pL.get<LocalOrdinal>("Sweeps");
Scalar omega = pL.get<Scalar>("Damping factor");
// wrap current solution vector in RCP
RCP<MultiVector> rcpX = Teuchos::rcpFromRef(X);
RCP<const MultiVector> rcpB = Teuchos::rcpFromRef(B);
// make sure that both rcpX and rcpB are BlockedMultiVector objects
bool bCopyResultX = false;
RCP<BlockedCrsMatrix> bA = Teuchos::rcp_dynamic_cast<BlockedCrsMatrix>(A_);
MUELU_TEST_FOR_EXCEPTION(bA.is_null() == true, Exceptions::RuntimeError, "MueLu::BlockedGaussSeidelSmoother::Apply(): A_ must be a BlockedCrsMatrix");
RCP<BlockedMultiVector> bX = Teuchos::rcp_dynamic_cast<BlockedMultiVector>(rcpX);
RCP<const BlockedMultiVector> bB = Teuchos::rcp_dynamic_cast<const BlockedMultiVector>(rcpB);
if(bX.is_null() == true) {
RCP<MultiVector> test = Teuchos::rcp(new BlockedMultiVector(bA->getBlockedDomainMap(),rcpX));
rcpX.swap(test);
bCopyResultX = true;
}
if(bB.is_null() == true) {
RCP<const MultiVector> test = Teuchos::rcp(new BlockedMultiVector(bA->getBlockedRangeMap(),rcpB));
rcpB.swap(test);
}
// we now can guarantee that X and B are blocked multi vectors
bX = Teuchos::rcp_dynamic_cast<BlockedMultiVector>(rcpX);
bB = Teuchos::rcp_dynamic_cast<const BlockedMultiVector>(rcpB);
// check the type of operator
RCP<Xpetra::ReorderedBlockedCrsMatrix<Scalar,LocalOrdinal,GlobalOrdinal,Node> > rbA = Teuchos::rcp_dynamic_cast<Xpetra::ReorderedBlockedCrsMatrix<Scalar,LocalOrdinal,GlobalOrdinal,Node> >(bA);
if(rbA.is_null() == false) {
// A is a ReorderedBlockedCrsMatrix
Teuchos::RCP<const Xpetra::BlockReorderManager > brm = rbA->getBlockReorderManager();
// check type of X vector
if(bX->getBlockedMap()->getNumMaps() != bA->getDomainMapExtractor()->NumMaps()) {
// X is a blocked multi vector but incompatible to the reordered blocked operator A
Teuchos::RCP<MultiVector> test =
buildReorderedBlockedMultiVector(brm, bX);
rcpX.swap(test);
}
if(bB->getBlockedMap()->getNumMaps() != bA->getRangeMapExtractor()->NumMaps()) {
// B is a blocked multi vector but incompatible to the reordered blocked operator A
Teuchos::RCP<const MultiVector> test =
buildReorderedBlockedMultiVector(brm, bB);
rcpB.swap(test);
}
}
// Throughout the rest of the algorithm rcpX and rcpB are used for solution vector and RHS
// create residual vector
// contains current residual of current solution X with rhs B
RCP<MultiVector> residual = MultiVectorFactory::Build(rcpB->getMap(), rcpB->getNumVectors());
RCP<BlockedMultiVector> bresidual = Teuchos::rcp_dynamic_cast<BlockedMultiVector>(residual);
Teuchos::RCP<MultiVector> r1 = bresidual->getMultiVector(0,bRangeThyraMode);
Teuchos::RCP<MultiVector> r2 = bresidual->getMultiVector(1,bRangeThyraMode);
// helper vector 1
RCP<MultiVector> xtilde = MultiVectorFactory::Build(rcpX->getMap(), rcpX->getNumVectors());
RCP<BlockedMultiVector> bxtilde = Teuchos::rcp_dynamic_cast<BlockedMultiVector>(xtilde);
RCP<MultiVector> xtilde1 = bxtilde->getMultiVector(0,bDomainThyraMode);
RCP<MultiVector> xtilde2 = bxtilde->getMultiVector(1,bDomainThyraMode);
// incrementally improve solution vector X
for (LocalOrdinal run = 0; run < nSweeps; ++run) {
// 1) calculate current residual
residual->update(one,*rcpB,zero); // residual = B
A_->apply(*rcpX, *residual, Teuchos::NO_TRANS, -one, one);
// 2) solve F * \Delta \tilde{x}_1 = r_1
// start with zero guess \Delta \tilde{x}_1
bxtilde->putScalar(zero);
velPredictSmoo_->Apply(*xtilde1,*r1);
// 3) calculate rhs for SchurComp equation
// r_2 - D \Delta \tilde{x}_1
RCP<MultiVector> schurCompRHS = MultiVectorFactory::Build(r2->getMap(),rcpB->getNumVectors());
D_->apply(*xtilde1,*schurCompRHS);
schurCompRHS->update(one,*r2,-one);
// 4) solve SchurComp equation
// start with zero guess \Delta \tilde{x}_2
schurCompSmoo_->Apply(*xtilde2,*schurCompRHS);
rcpX->update(omega,*bxtilde,one);
}
if (bCopyResultX == true) {
RCP<MultiVector> Xmerged = bX->Merge();
X.update(one, *Xmerged, zero);
}
}
template <class Scalar,class LocalOrdinal, class GlobalOrdinal, class Node>
RCP<MueLu::SmootherPrototype<Scalar, LocalOrdinal, GlobalOrdinal, Node> >
UzawaSmoother<Scalar, LocalOrdinal, GlobalOrdinal, Node>::Copy() const {
return rcp( new UzawaSmoother(*this) );
}
template <class Scalar,class LocalOrdinal, class GlobalOrdinal, class Node>
std::string UzawaSmoother<Scalar, LocalOrdinal, GlobalOrdinal, Node>::description() const {
std::ostringstream out;
out << SmootherPrototype::description();
out << "{type = " << type_ << "}";
return out.str();
}
template <class Scalar,class LocalOrdinal, class GlobalOrdinal, class Node>
void UzawaSmoother<Scalar, LocalOrdinal, GlobalOrdinal, Node>::print(Teuchos::FancyOStream &out, const VerbLevel verbLevel) const {
MUELU_DESCRIBE;
if (verbLevel & Parameters0) {
out0 << "Prec. type: " << type_ << /*" Sweeps: " << nSweeps_ << " damping: " << omega_ <<*/ std::endl;
}
if (verbLevel & Debug) {
out0 << "IsSetup: " << Teuchos::toString(SmootherPrototype::IsSetup()) << std::endl;
}
}
template <class Scalar,class LocalOrdinal, class GlobalOrdinal, class Node>
size_t UzawaSmoother<Scalar, LocalOrdinal, GlobalOrdinal, Node>::getNodeSmootherComplexity() const {
// FIXME: This is a placeholder
return Teuchos::OrdinalTraits<size_t>::invalid();
}
} // namespace MueLu
#endif /* MUELU_UZAWASMOOTHER_DEF_HPP_ */
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