trilinos/muelu/Thyra__MueLuRefMaxwellPreconditionerFactory__def_8hpp_source.html

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#ifndef THYRA_MUELU_REFMAXWELL_PRECONDITIONER_FACTORY_DEF_HPP

#define THYRA_MUELU_REFMAXWELL_PRECONDITIONER_FACTORY_DEF_HPP


#include "Thyra_MueLuRefMaxwellPreconditionerFactory_decl.hpp"

#include <list>


#if defined(HAVE_MUELU_STRATIMIKOS) && defined(HAVE_MUELU_THYRA)


namespace Thyra {


  using Teuchos::RCP;

  using Teuchos::rcp;

  using Teuchos::ParameterList;

  using Teuchos::rcp_dynamic_cast;

  using Teuchos::rcp_const_cast;


  // Constructors/initializers/accessors


  template <class Scalar, class LocalOrdinal, class GlobalOrdinal, class Node>

  MueLuRefMaxwellPreconditionerFactory<Scalar,LocalOrdinal,GlobalOrdinal,Node>::MueLuRefMaxwellPreconditionerFactory() :

      paramList_(rcp(new ParameterList()))

  {}


  // Overridden from PreconditionerFactoryBase


  template <class Scalar, class LocalOrdinal, class GlobalOrdinal, class Node>

  bool MueLuRefMaxwellPreconditionerFactory<Scalar,LocalOrdinal,GlobalOrdinal,Node>::isCompatible(const LinearOpSourceBase<Scalar>& fwdOpSrc) const {

    const RCP<const LinearOpBase<Scalar> > fwdOp = fwdOpSrc.getOp();


#ifdef HAVE_MUELU_TPETRA

    if (Xpetra::ThyraUtils<Scalar,LocalOrdinal,GlobalOrdinal,Node>::isTpetra(fwdOp)) return true;

#endif


    return false;

  }


  template <class Scalar, class LocalOrdinal, class GlobalOrdinal, class Node>

  RCP<PreconditionerBase<Scalar> > MueLuRefMaxwellPreconditionerFactory<Scalar,LocalOrdinal,GlobalOrdinal,Node>::createPrec() const {

    return Teuchos::rcp(new DefaultPreconditioner<Scalar>);

  }


  template <class Scalar, class LocalOrdinal, class GlobalOrdinal, class Node>

  void MueLuRefMaxwellPreconditionerFactory<Scalar,LocalOrdinal,GlobalOrdinal,Node>::

  initializePrec(const RCP<const LinearOpSourceBase<Scalar> >& fwdOpSrc, PreconditionerBase<Scalar>* prec, const ESupportSolveUse supportSolveUse) const {


    // we are using typedefs here, since we are using objects from different packages (Xpetra, Thyra,...)

    typedef Xpetra::Operator<Scalar, LocalOrdinal, GlobalOrdinal, Node>      XpOp;

    typedef Xpetra::ThyraUtils<Scalar,LocalOrdinal,GlobalOrdinal,Node>       XpThyUtils;

    typedef Xpetra::CrsMatrix<Scalar,LocalOrdinal,GlobalOrdinal,Node>        XpCrsMat;

    typedef Xpetra::Matrix<Scalar,LocalOrdinal,GlobalOrdinal,Node>           XpMat;

    typedef Thyra::LinearOpBase<Scalar>                                      ThyLinOpBase;

    typedef Thyra::XpetraLinearOp<Scalar, LocalOrdinal, GlobalOrdinal, Node> ThyXpOp;

#if defined(HAVE_MUELU_TPETRA) && defined(HAVE_TPETRA_INST_DOUBLE) && defined(HAVE_TPETRA_INST_FLOAT)

    typedef Xpetra::TpetraHalfPrecisionOperator<Scalar,LocalOrdinal,GlobalOrdinal,Node> XpHalfPrecOp;

    typedef Xpetra::MultiVector<Scalar,LocalOrdinal,GlobalOrdinal,Node>           XpMV;

    typedef typename XpHalfPrecOp::HalfScalar                                     HalfScalar;

    typedef Xpetra::Operator<HalfScalar,LocalOrdinal,GlobalOrdinal,Node>          XpHalfOp;

    typedef typename Teuchos::ScalarTraits<Scalar>::magnitudeType                 Magnitude;

    typedef typename Teuchos::ScalarTraits<Magnitude>::halfPrecision              HalfMagnitude;

    typedef Xpetra::MultiVector<HalfScalar,LocalOrdinal,GlobalOrdinal,Node>       XphMV;

    typedef Xpetra::MultiVector<Magnitude,LocalOrdinal,GlobalOrdinal,Node >       XpmMV;

    typedef Xpetra::MultiVector<HalfMagnitude,LocalOrdinal,GlobalOrdinal,Node >   XphmMV;

    typedef Xpetra::Matrix<HalfScalar,LocalOrdinal,GlobalOrdinal,Node>            XphMat;

#endif

    Teuchos::TimeMonitor tM(*Teuchos::TimeMonitor::getNewTimer(std::string("ThyraMueLuRefMaxwell::initializePrec")));


    // Check precondition

    TEUCHOS_ASSERT(Teuchos::nonnull(fwdOpSrc));

    TEUCHOS_ASSERT(this->isCompatible(*fwdOpSrc));

    TEUCHOS_ASSERT(prec);


    // Create a copy, as we may remove some things from the list

    ParameterList paramList = *paramList_;


    // Retrieve wrapped concrete Xpetra matrix from FwdOp

    const RCP<const ThyLinOpBase> fwdOp = fwdOpSrc->getOp();

    TEUCHOS_TEST_FOR_EXCEPT(Teuchos::is_null(fwdOp));


    // Check whether it is Epetra/Tpetra

    bool bIsEpetra  = XpThyUtils::isEpetra(fwdOp);

    bool bIsTpetra  = XpThyUtils::isTpetra(fwdOp);

    TEUCHOS_TEST_FOR_EXCEPT((bIsEpetra == true  && bIsTpetra == true));


    RCP<const XpCrsMat > xpetraFwdCrsMat = XpThyUtils::toXpetra(fwdOp);

    TEUCHOS_TEST_FOR_EXCEPT(Teuchos::is_null(xpetraFwdCrsMat));


    // MueLu needs a non-const object as input

    RCP<XpCrsMat> xpetraFwdCrsMatNonConst = Teuchos::rcp_const_cast<XpCrsMat>(xpetraFwdCrsMat);

    TEUCHOS_TEST_FOR_EXCEPT(Teuchos::is_null(xpetraFwdCrsMatNonConst));


    // wrap the forward operator as an Xpetra::Matrix that MueLu can work with

    RCP<XpMat> A = rcp(new Xpetra::CrsMatrixWrap<Scalar,LocalOrdinal,GlobalOrdinal,Node>(xpetraFwdCrsMatNonConst));

    TEUCHOS_TEST_FOR_EXCEPT(Teuchos::is_null(A));


    // Retrieve concrete preconditioner object

    const Teuchos::Ptr<DefaultPreconditioner<Scalar> > defaultPrec = Teuchos::ptr(dynamic_cast<DefaultPreconditioner<Scalar> *>(prec));

    TEUCHOS_TEST_FOR_EXCEPT(Teuchos::is_null(defaultPrec));


    // extract preconditioner operator

    RCP<ThyLinOpBase> thyra_precOp = Teuchos::null;

    thyra_precOp = rcp_dynamic_cast<Thyra::LinearOpBase<Scalar> >(defaultPrec->getNonconstUnspecifiedPrecOp(), true);


    // make a decision whether to (re)build the multigrid preconditioner or reuse the old one

    // rebuild preconditioner if startingOver == true

    // reuse preconditioner if startingOver == false

    const bool startingOver = (thyra_precOp.is_null() || !paramList.isParameter("refmaxwell: enable reuse") || !paramList.get<bool>("refmaxwell: enable reuse"));

    const bool useHalfPrecision = paramList.get<bool>("half precision", false) && bIsTpetra;


    RCP<XpOp> xpPrecOp;

    if (startingOver == true) {


      // Convert to Xpetra

      std::list<std::string> convertXpetra = {"Coordinates", "Nullspace", "M1", "Ms", "D0", "M0inv"};

      for (auto it = convertXpetra.begin(); it != convertXpetra.end(); ++it)

        replaceWithXpetra<Scalar,LocalOrdinal,GlobalOrdinal,Node>(paramList,*it);


      paramList.set<bool>("refmaxwell: use as preconditioner", true);

      if (useHalfPrecision) {

#if defined(HAVE_MUELU_TPETRA) && defined(HAVE_TPETRA_INST_DOUBLE) && defined(HAVE_TPETRA_INST_FLOAT)


        // convert to half precision

        RCP<XphMat> halfA = Xpetra::convertToHalfPrecision(A);

        if (paramList.isType<RCP<XpmMV> >("Coordinates")) {

          RCP<XpmMV> coords = paramList.get<RCP<XpmMV> >("Coordinates");

          paramList.remove("Coordinates");

          RCP<XphmMV> halfCoords = Xpetra::convertToHalfPrecision(coords);

          paramList.set("Coordinates",halfCoords);

        }

        if (paramList.isType<RCP<XpMV> >("Nullspace")) {

          RCP<XpMV> nullspace = paramList.get<RCP<XpMV> >("Nullspace");

          paramList.remove("Nullspace");

          RCP<XphMV> halfNullspace = Xpetra::convertToHalfPrecision(nullspace);

          paramList.set("Nullspace",halfNullspace);

        }

        std::list<std::string> convertMat = {"M1", "Ms", "D0", "M0inv"};

        for (auto it = convertMat.begin(); it != convertMat.end(); ++it) {

          if (paramList.isType<RCP<XpMat> >(*it)) {

            RCP<XpMat> M = paramList.get<RCP<XpMat> >(*it);

            paramList.remove(*it);

            RCP<XphMat> halfM = Xpetra::convertToHalfPrecision(M);

            paramList.set(*it,halfM);

          }

        }


        // build a new half-precision MueLu RefMaxwell preconditioner

        RCP<MueLu::RefMaxwell<HalfScalar,LocalOrdinal,GlobalOrdinal,Node> > halfPrec = rcp(new MueLu::RefMaxwell<HalfScalar,LocalOrdinal,GlobalOrdinal,Node>(halfA, paramList, true));

        xpPrecOp = rcp(new XpHalfPrecOp(halfPrec));

#else

        TEUCHOS_TEST_FOR_EXCEPT(true);

#endif

      } else

        {

          // build a new MueLu RefMaxwell preconditioner

          RCP<MueLu::RefMaxwell<Scalar,LocalOrdinal,GlobalOrdinal,Node> > preconditioner = rcp(new MueLu::RefMaxwell<Scalar,LocalOrdinal,GlobalOrdinal,Node>(A, paramList, true));

          xpPrecOp = rcp_dynamic_cast<XpOp>(preconditioner);

        }

    } else {

      // reuse old MueLu preconditioner stored in MueLu Xpetra operator and put in new matrix


      RCP<ThyXpOp> thyXpOp = rcp_dynamic_cast<ThyXpOp>(thyra_precOp, true);

      RCP<XpOp>    xpOp    = thyXpOp->getXpetraOperator();

#if defined(HAVE_MUELU_TPETRA) && defined(HAVE_TPETRA_INST_DOUBLE) && defined(HAVE_TPETRA_INST_FLOAT)

      RCP<XpHalfPrecOp> xpHalfPrecOp = rcp_dynamic_cast<XpHalfPrecOp>(xpOp);

      if (!xpHalfPrecOp.is_null()) {

        RCP<MueLu::RefMaxwell<HalfScalar,LocalOrdinal,GlobalOrdinal,Node> > preconditioner = rcp_dynamic_cast<MueLu::RefMaxwell<HalfScalar,LocalOrdinal,GlobalOrdinal,Node>>(xpHalfPrecOp->GetHalfPrecisionOperator(), true);

        RCP<XphMat> halfA = Xpetra::convertToHalfPrecision(A);

        preconditioner->resetMatrix(halfA);

        xpPrecOp = rcp_dynamic_cast<XpOp>(preconditioner);

      } else

#endif

        {

          RCP<MueLu::RefMaxwell<Scalar,LocalOrdinal,GlobalOrdinal,Node> > preconditioner = rcp_dynamic_cast<MueLu::RefMaxwell<Scalar,LocalOrdinal,GlobalOrdinal,Node>>(xpOp, true);

          preconditioner->resetMatrix(A);

          xpPrecOp = rcp_dynamic_cast<XpOp>(preconditioner);

        }

    }


    // wrap preconditioner in thyraPrecOp

    RCP<const VectorSpaceBase<Scalar> > thyraRangeSpace  = Xpetra::ThyraUtils<Scalar,LocalOrdinal,GlobalOrdinal,Node>::toThyra(xpPrecOp->getRangeMap());

    RCP<const VectorSpaceBase<Scalar> > thyraDomainSpace = Xpetra::ThyraUtils<Scalar,LocalOrdinal,GlobalOrdinal,Node>::toThyra(xpPrecOp->getDomainMap());


    RCP<ThyLinOpBase > thyraPrecOp = Thyra::xpetraLinearOp<Scalar, LocalOrdinal, GlobalOrdinal, Node>(thyraRangeSpace, thyraDomainSpace, xpPrecOp);

    TEUCHOS_TEST_FOR_EXCEPT(Teuchos::is_null(thyraPrecOp));


    defaultPrec->initializeUnspecified(thyraPrecOp);


  }


  template <class Scalar, class LocalOrdinal, class GlobalOrdinal, class Node>

  void MueLuRefMaxwellPreconditionerFactory<Scalar,LocalOrdinal,GlobalOrdinal,Node>::

  uninitializePrec(PreconditionerBase<Scalar>* prec, RCP<const LinearOpSourceBase<Scalar> >* fwdOp, ESupportSolveUse* supportSolveUse) const {

    TEUCHOS_ASSERT(prec);


    // Retrieve concrete preconditioner object

    const Teuchos::Ptr<DefaultPreconditioner<Scalar> > defaultPrec = Teuchos::ptr(dynamic_cast<DefaultPreconditioner<Scalar> *>(prec));

    TEUCHOS_TEST_FOR_EXCEPT(Teuchos::is_null(defaultPrec));


    if (fwdOp) {

      // TODO: Implement properly instead of returning default value

      *fwdOp = Teuchos::null;

    }


    if (supportSolveUse) {

      // TODO: Implement properly instead of returning default value

      *supportSolveUse = Thyra::SUPPORT_SOLVE_UNSPECIFIED;

    }


    defaultPrec->uninitialize();

  }


  // Overridden from ParameterListAcceptor

  template <class Scalar, class LocalOrdinal, class GlobalOrdinal, class Node>

  void MueLuRefMaxwellPreconditionerFactory<Scalar,LocalOrdinal,GlobalOrdinal,Node>::setParameterList(RCP<ParameterList> const& paramList) {

    TEUCHOS_TEST_FOR_EXCEPT(Teuchos::is_null(paramList));

    paramList_ = paramList;

  }


  template <class Scalar, class LocalOrdinal, class GlobalOrdinal, class Node>

  RCP<ParameterList> MueLuRefMaxwellPreconditionerFactory<Scalar,LocalOrdinal,GlobalOrdinal,Node>::getNonconstParameterList() {

    return paramList_;

  }


  template <class Scalar, class LocalOrdinal, class GlobalOrdinal, class Node>

  RCP<ParameterList> MueLuRefMaxwellPreconditionerFactory<Scalar,LocalOrdinal,GlobalOrdinal,Node>::unsetParameterList() {

    RCP<ParameterList> savedParamList = paramList_;

    paramList_ = Teuchos::null;

    return savedParamList;

  }


  template <class Scalar, class LocalOrdinal, class GlobalOrdinal, class Node>

  RCP<const ParameterList> MueLuRefMaxwellPreconditionerFactory<Scalar,LocalOrdinal,GlobalOrdinal,Node>::getParameterList() const {

    return paramList_;

  }


  template <class Scalar, class LocalOrdinal, class GlobalOrdinal, class Node>

  RCP<const ParameterList> MueLuRefMaxwellPreconditionerFactory<Scalar,LocalOrdinal,GlobalOrdinal,Node>::getValidParameters() const {

    static RCP<const ParameterList> validPL;


    if (Teuchos::is_null(validPL))

      validPL = rcp(new ParameterList());


    return validPL;

  }


  // Public functions overridden from Teuchos::Describable

  template <class Scalar, class LocalOrdinal, class GlobalOrdinal, class Node>

  std::string MueLuRefMaxwellPreconditionerFactory<Scalar,LocalOrdinal,GlobalOrdinal,Node>::description() const {

    return "Thyra::MueLuRefMaxwellPreconditionerFactory";

  }

} // namespace Thyra


#endif // HAVE_MUELU_STRATIMIKOS


#endif // ifdef THYRA_MUELU_REFMAXWELL_PRECONDITIONER_FACTORY_DEF_HPP

Thyra_MueLuRefMaxwellPreconditionerFactory_decl.hpp

MueLu::RefMaxwell
Preconditioner (wrapped as a Xpetra::Operator) for Maxwell's equations in curl-curl form.
Definition: MueLu_RefMaxwell_decl.hpp:133

Thyra::XpetraLinearOp
Concrete Thyra::LinearOpBase subclass for Xpetra::Operator.
Definition: Thyra_XpetraLinearOp_decl.hpp:68

Thyra
Definition: Thyra_MueLuTpetraQ2Q1PreconditionerFactory_decl.hpp:60