コード例 #1
0
void IfpackPreconditionerFactory::initializePrec(
  const Teuchos::RCP<const LinearOpSourceBase<double> >    &fwdOpSrc
  ,PreconditionerBase<double>                                      *prec
  ,const ESupportSolveUse                                           supportSolveUse
  ) const
{
  using Teuchos::outArg;
  using Teuchos::OSTab;
  using Teuchos::dyn_cast;
  using Teuchos::RCP;
  using Teuchos::null;
  using Teuchos::rcp;
  using Teuchos::rcp_dynamic_cast;
  using Teuchos::rcp_const_cast;
  using Teuchos::set_extra_data;
  using Teuchos::get_optional_extra_data;
  using Teuchos::implicit_cast;
  Teuchos::Time totalTimer(""), timer("");
  totalTimer.start(true);
  Teuchos::TimeMonitor overallTimeMonitor(*overallTimer);
  const Teuchos::RCP<Teuchos::FancyOStream> out       = this->getOStream();
  const Teuchos::EVerbosityLevel                    verbLevel = this->getVerbLevel();
  Teuchos::OSTab tab(out);
  if(out.get() && implicit_cast<int>(verbLevel) > implicit_cast<int>(Teuchos::VERB_LOW))
    *out << "\nEntering Thyra::IfpackPreconditionerFactory::initializePrec(...) ...\n";
#ifdef TEUCHOS_DEBUG
  TEST_FOR_EXCEPT(fwdOpSrc.get()==NULL);
  TEST_FOR_EXCEPT(prec==NULL);
#endif
  Teuchos::RCP<const LinearOpBase<double> >
    fwdOp = fwdOpSrc->getOp();
#ifdef TEUCHOS_DEBUG
  TEST_FOR_EXCEPT(fwdOp.get()==NULL);
#endif
  //
  // Unwrap and get the forward Epetra_Operator object
  //
  Teuchos::RCP<const Epetra_Operator> epetraFwdOp;
  EOpTransp epetraFwdOpTransp;
  EApplyEpetraOpAs epetraFwdOpApplyAs;
  EAdjointEpetraOp epetraFwdOpAdjointSupport;
  double epetraFwdOpScalar;
  epetraFwdOpViewExtractor_->getEpetraOpView(
    fwdOp,
    outArg(epetraFwdOp), outArg(epetraFwdOpTransp),
    outArg(epetraFwdOpApplyAs), outArg(epetraFwdOpAdjointSupport),
    outArg(epetraFwdOpScalar)
    );
  // Validate what we get is what we need
  RCP<const Epetra_RowMatrix>
    epetraFwdRowMat = rcp_dynamic_cast<const Epetra_RowMatrix>(epetraFwdOp,true);
  TEST_FOR_EXCEPTION(
    epetraFwdOpApplyAs != EPETRA_OP_APPLY_APPLY, std::logic_error
    ,"Error, incorrect apply mode for an Epetra_RowMatrix"
    );
  //
  // Get the concrete precondtioner object
  //
  DefaultPreconditioner<double>
    *defaultPrec = &Teuchos::dyn_cast<DefaultPreconditioner<double> >(*prec);
  //
  // Get the EpetraLinearOp object that is used to implement the preconditoner linear op
  //
  RCP<EpetraLinearOp>
    epetra_precOp = rcp_dynamic_cast<EpetraLinearOp>(defaultPrec->getNonconstUnspecifiedPrecOp(),true);
  //
  // Get the embedded Ifpack_Preconditioner object if it exists
  //
  Teuchos::RCP<Ifpack_Preconditioner>
    ifpack_precOp;
  if(epetra_precOp.get())
    ifpack_precOp = rcp_dynamic_cast<Ifpack_Preconditioner>(epetra_precOp->epetra_op(),true);
  //
  // Get the attached forward operator if it exists and make sure that it matches
  //
  if(ifpack_precOp.get()) {
    // ToDo: Get the forward operator and make sure that it matches what is
    // already being used!
  }
  //
  // Permform initialization if needed
  //
  //const bool startingOver = (ifpack_precOp.get() == NULL);
  const bool startingOver = true;
  // ToDo: Comment back in the above original version of startingOver to allow
  // for resuse.  Rob H. just pointed out to me that a memory leak is being
  // created when you just call Ifpack_ILU::Compute() over and over again.
  // Rob H. said that he will check in a fix the the development branch when
  // he can.
  if(startingOver) {
    if(out.get() && implicit_cast<int>(verbLevel) >= implicit_cast<int>(Teuchos::VERB_LOW))
      *out << "\nCreating the initial Ifpack_Preconditioner object of type \'"<<Ifpack::toString(precType_)<<"\' ...\n";
    timer.start(true);
    Teuchos::TimeMonitor creationTimeMonitor(*creationTimer);
    // Create the initial preconditioner
    ifpack_precOp = rcp(
      ::Ifpack::Create(
        precType_
        ,const_cast<Epetra_RowMatrix*>(&*epetraFwdRowMat)
        ,overlap_
        )
      );
    timer.stop();
    if(out.get() && implicit_cast<int>(verbLevel) >= implicit_cast<int>(Teuchos::VERB_LOW))
      OSTab(out).o() <<"=> Creation time = "<<timer.totalElapsedTime()<<" sec\n";
    // Set parameters if the list exists
    if(paramList_.get()) {
      Teuchos::ParameterList
        &ifpackSettingsPL = paramList_->sublist(IfpackSettings_name);
      // Above will create new sublist if it does not exist!
      TEST_FOR_EXCEPT(0!=ifpack_precOp->SetParameters(ifpackSettingsPL));
      // Above, I have not idea how any error messages for a mistake will be
      // reported back to the user!
    }
    // Initailize the structure for the preconditioner
    TEST_FOR_EXCEPT(0!=ifpack_precOp->Initialize());
  }
  //
  // Attach the epetraFwdOp to the ifpack_precOp to guarantee that it will not go away
  //
  set_extra_data(epetraFwdOp, "IFPF::epetraFwdOp", Teuchos::inOutArg(ifpack_precOp),
    Teuchos::POST_DESTROY, false);
  //
  // Update the factorization
  //
  {
    if(out.get() && implicit_cast<int>(verbLevel) >= implicit_cast<int>(Teuchos::VERB_LOW))
      *out << "\nComputing the factorization of the preconditioner ...\n";
    Teuchos::TimeMonitor factorizationTimeMonitor(*factorizationTimer);
    timer.start(true);
    TEST_FOR_EXCEPT(0!=ifpack_precOp->Compute());
    timer.stop();
    if(out.get() && implicit_cast<int>(verbLevel) >= implicit_cast<int>(Teuchos::VERB_LOW))
      OSTab(out).o() <<"=> Factorization time = "<<timer.totalElapsedTime()<<" sec\n";
  }
  //
  // Compute the conditioner number estimate if asked
  //

  // ToDo: Implement

  //
  // Attach fwdOp to the ifpack_precOp
  //
  set_extra_data(fwdOpSrc, "IFPF::fwdOpSrc", Teuchos::inOutArg(ifpack_precOp),
    Teuchos::POST_DESTROY, false);
  //
  // Initialize the output EpetraLinearOp
  //
  if(startingOver) {
    epetra_precOp = rcp(new EpetraLinearOp);
  }
  epetra_precOp->initialize(
    ifpack_precOp
    ,epetraFwdOpTransp
    ,EPETRA_OP_APPLY_APPLY_INVERSE
    ,EPETRA_OP_ADJOINT_SUPPORTED
    );
  if(out.get() && implicit_cast<int>(verbLevel) >= implicit_cast<int>(Teuchos::VERB_MEDIUM)) {
    *out << "\nDescription of created preconditioner:\n";
    OSTab tab(out);
    ifpack_precOp->Print(*out);
  }

  //
  // Initialize the preconditioner
  //
  defaultPrec->initializeUnspecified(
    Teuchos::rcp_implicit_cast<LinearOpBase<double> >(epetra_precOp)
    );
  totalTimer.stop();
  if(out.get() && implicit_cast<int>(verbLevel) >= implicit_cast<int>(Teuchos::VERB_LOW))
    *out << "\nTotal time in IfpackPreconditionerFactory = "<<totalTimer.totalElapsedTime()<<" sec\n";
  if(out.get() && implicit_cast<int>(verbLevel) > implicit_cast<int>(Teuchos::VERB_LOW))
    *out << "\nLeaving Thyra::IfpackPreconditionerFactory::initializePrec(...) ...\n";
}
コード例 #2
0
void MLPreconditionerFactory::initializePrec(
  const Teuchos::RCP<const LinearOpSourceBase<double> > &fwdOpSrc,
  PreconditionerBase<double> *prec,
  const ESupportSolveUse supportSolveUse
  ) const
{
  using Teuchos::outArg;
  using Teuchos::OSTab;
  using Teuchos::dyn_cast;
  using Teuchos::RCP;
  using Teuchos::null;
  using Teuchos::rcp;
  using Teuchos::rcp_dynamic_cast;
  using Teuchos::rcp_const_cast;
  using Teuchos::set_extra_data;
  using Teuchos::get_optional_extra_data;
  using Teuchos::implicit_cast;
  Teuchos::Time totalTimer(""), timer("");
  totalTimer.start(true);
  const RCP<Teuchos::FancyOStream> out = this->getOStream();
  const Teuchos::EVerbosityLevel verbLevel = this->getVerbLevel();
  Teuchos::OSTab tab(out);
  if(out.get() && implicit_cast<int>(verbLevel) > implicit_cast<int>(Teuchos::VERB_LOW))
    *out << "\nEntering Thyra::MLPreconditionerFactory::initializePrec(...) ...\n";

  Teuchos::RCP<const LinearOpBase<double> > fwdOp = fwdOpSrc->getOp();
#ifdef _DEBUG
  TEUCHOS_TEST_FOR_EXCEPT(fwdOp.get()==NULL);
  TEUCHOS_TEST_FOR_EXCEPT(prec==NULL);
#endif
  //
  // Unwrap and get the forward Epetra_Operator object
  //
  Teuchos::RCP<const Epetra_Operator> epetraFwdOp;
  EOpTransp epetraFwdOpTransp;
  EApplyEpetraOpAs epetraFwdOpApplyAs;
  EAdjointEpetraOp epetraFwdOpAdjointSupport;
  double epetraFwdOpScalar;
  epetraFwdOpViewExtractor_->getEpetraOpView(
    fwdOp,outArg(epetraFwdOp),outArg(epetraFwdOpTransp),outArg(epetraFwdOpApplyAs),
    outArg(epetraFwdOpAdjointSupport),outArg(epetraFwdOpScalar)
                                             );
  // Validate what we get is what we need
  RCP<const Epetra_RowMatrix>
    epetraFwdRowMat = rcp_dynamic_cast<const Epetra_RowMatrix>(epetraFwdOp,true);
  TEUCHOS_TEST_FOR_EXCEPTION(
    epetraFwdOpApplyAs != EPETRA_OP_APPLY_APPLY, std::logic_error
    ,"Error, incorrect apply mode for an Epetra_RowMatrix"
    );

  //
  // Get the concrete preconditioner object
  //
  DefaultPreconditioner<double>
    *defaultPrec = &Teuchos::dyn_cast<DefaultPreconditioner<double> >(*prec);
  //
  // Get the EpetraLinearOp object that is used to implement the preconditoner linear op
  //
  RCP<EpetraLinearOp>
    epetra_precOp = rcp_dynamic_cast<EpetraLinearOp>(defaultPrec->getNonconstUnspecifiedPrecOp(),true);
  //
  // Get the embedded ML_Epetra::MultiLevelPreconditioner object if it exists
  //
  Teuchos::RCP<ML_Epetra::MultiLevelPreconditioner> ml_precOp;
  if(epetra_precOp.get())
    ml_precOp = rcp_dynamic_cast<ML_Epetra::MultiLevelPreconditioner>(epetra_precOp->epetra_op(),true);
  //
  // Get the attached forward operator if it exists and make sure that it matches
  //
  if(ml_precOp!=Teuchos::null) {
    // Get the forward operator and make sure that it matches what is
    // already being used!
    const Epetra_RowMatrix & rm = ml_precOp->RowMatrix();
   
    TEUCHOS_TEST_FOR_EXCEPTION(
       &rm!=&*epetraFwdRowMat, std::logic_error
       ,"ML requires Epetra_RowMatrix to be the same for each initialization of the preconditioner"
       );
  }
  //
  // Perform initialization if needed
  //
  const bool startingOver = (ml_precOp.get() == NULL);
  if(startingOver) 
  {
    if(out.get() && implicit_cast<int>(verbLevel) >= implicit_cast<int>(Teuchos::VERB_LOW))
      *out << "\nCreating the initial ML_Epetra::MultiLevelPreconditioner object...\n";
    timer.start(true);
    // Create the initial preconditioner: DO NOT compute it yet
    ml_precOp = rcp(
      new ML_Epetra::MultiLevelPreconditioner(
        *epetraFwdRowMat, paramList_->sublist(MLSettings_name),false
        )
      );
    
    timer.stop();
    if(out.get() && implicit_cast<int>(verbLevel) >= implicit_cast<int>(Teuchos::VERB_LOW))
      OSTab(out).o() <<"> Creation time = "<<timer.totalElapsedTime()<<" sec\n";
    // RAB: Above, I am just passing a string to ML::Create(...) in order
    // get this code written.  However, in the future, it would be good to
    // copy the contents of what is in ML::Create(...) into a local
    // function and then use switch(...) to create the initial
    // ML_Epetra::MultiLevelPreconditioner object.  This would result in better validation
    // and faster code.
    // Set parameters if the list exists
    if(paramList_.get())
      TEUCHOS_TEST_FOR_EXCEPT(
        0!=ml_precOp->SetParameterList(paramList_->sublist(MLSettings_name))
        );
    // Initialize the structure for the preconditioner
    //        TEUCHOS_TEST_FOR_EXCEPT(0!=ml_precOp->Initialize());
  }
  //
  // Attach the epetraFwdOp to the ml_precOp to guarantee that it will not go away
  //
  set_extra_data(epetraFwdOp, "IFPF::epetraFwdOp", Teuchos::inOutArg(ml_precOp),
    Teuchos::POST_DESTROY, false);
  //
  // Update the factorization
  //
  if(out.get() && implicit_cast<int>(verbLevel) >= implicit_cast<int>(Teuchos::VERB_LOW))
    *out << "\nComputing the preconditioner ...\n";
  timer.start(true);
  if (startingOver) {
    TEUCHOS_TEST_FOR_EXCEPT(0!=ml_precOp->ComputePreconditioner());
  }
  else {
    TEUCHOS_TEST_FOR_EXCEPT(0!=ml_precOp->ReComputePreconditioner(paramList_->get<bool>(ReuseFineLevelSmoother_name)));
  }
  timer.stop();
  if(out.get() && implicit_cast<int>(verbLevel) >= implicit_cast<int>(Teuchos::VERB_LOW))
    OSTab(out).o() <<"=> Setup time = "<<timer.totalElapsedTime()<<" sec\n";
  //
  // Compute the conditioner number estimate if asked
  //

  // ToDo: Implement

  //
  // Attach fwdOp to the ml_precOp
  //
  set_extra_data(fwdOp, "IFPF::fwdOp", Teuchos::inOutArg(ml_precOp),
    Teuchos::POST_DESTROY, false);
  //
  // Initialize the output EpetraLinearOp
  //
  if(startingOver) {
    epetra_precOp = rcp(new EpetraLinearOp);
  }
  epetra_precOp->initialize(
    ml_precOp
    ,epetraFwdOpTransp
    ,EPETRA_OP_APPLY_APPLY_INVERSE
    ,EPETRA_OP_ADJOINT_UNSUPPORTED  // ToDo: Look into adjoints again.
    );
  //
  // Initialize the preconditioner
  //
  defaultPrec->initializeUnspecified(
    Teuchos::rcp_implicit_cast<LinearOpBase<double> >(epetra_precOp)
    );
  totalTimer.stop();
  if(out.get() && implicit_cast<int>(verbLevel) >= implicit_cast<int>(Teuchos::VERB_LOW))
    *out << "\nTotal time in MLPreconditionerFactory = "<<totalTimer.totalElapsedTime()<<" sec\n";
  if(out.get() && implicit_cast<int>(verbLevel) > implicit_cast<int>(Teuchos::VERB_LOW))
    *out << "\nLeaving Thyra::MLPreconditionerFactory::initializePrec(...) ...\n";
}
コード例 #3
0
void MueLuPreconditionerFactory::initializePrec(
  const Teuchos::RCP<const LinearOpSourceBase<double> > &fwdOpSrc,
  PreconditionerBase<double> *prec,
  const ESupportSolveUse supportSolveUse
  ) const
{
  using Teuchos::outArg;
  using Teuchos::OSTab;
  using Teuchos::dyn_cast;
  using Teuchos::RCP;
  using Teuchos::null;
  using Teuchos::rcp;
  using Teuchos::rcp_dynamic_cast;
  using Teuchos::rcp_const_cast;
  using Teuchos::set_extra_data;
  using Teuchos::get_optional_extra_data;
  using Teuchos::implicit_cast;

  typedef KokkosClassic::DefaultNode::DefaultNodeType NO;
  typedef KokkosClassic::DefaultKernels<double,int,NO>::SparseOps LMO;

  Teuchos::Time totalTimer(""), timer("");
  totalTimer.start(true);

  const RCP<Teuchos::FancyOStream> out = this->getOStream();
  const Teuchos::EVerbosityLevel verbLevel = this->getVerbLevel();
  Teuchos::OSTab tab(out);
  if(out.get() && implicit_cast<int>(verbLevel) > implicit_cast<int>(Teuchos::VERB_LOW))
    *out << "\nEntering Thyra::MueLuPreconditionerFactory::initializePrec(...) ...\n";

  Teuchos::RCP<const LinearOpBase<double> > fwdOp = fwdOpSrc->getOp();
#ifdef _DEBUG
  TEUCHOS_TEST_FOR_EXCEPT(fwdOp.get()==NULL);
  TEUCHOS_TEST_FOR_EXCEPT(prec==NULL);
#endif

  //
  // Unwrap and get the forward Epetra_Operator object
  //

  Teuchos::RCP<const Epetra_Operator> epetraFwdOp;
  EOpTransp epetraFwdOpTransp;
  EApplyEpetraOpAs epetraFwdOpApplyAs;
  EAdjointEpetraOp epetraFwdOpAdjointSupport;
  double epetraFwdOpScalar;
  epetraFwdOpViewExtractor_->getEpetraOpView(
    fwdOp,outArg(epetraFwdOp),outArg(epetraFwdOpTransp),outArg(epetraFwdOpApplyAs),
    outArg(epetraFwdOpAdjointSupport),outArg(epetraFwdOpScalar)
                                             );
  // Validate what we get is what we need

  RCP<const Epetra_CrsMatrix>
    epetraFwdCrsMat = rcp_dynamic_cast<const Epetra_CrsMatrix>(epetraFwdOp,true);
  TEUCHOS_TEST_FOR_EXCEPTION(
    epetraFwdOpApplyAs != EPETRA_OP_APPLY_APPLY, std::logic_error
    ,"Error, incorrect apply mode for an Epetra_CrsMatrix"
    );

  //
  // Get the concrete preconditioner object
  //

  DefaultPreconditioner<double>
    *defaultPrec = &Teuchos::dyn_cast<DefaultPreconditioner<double> >(*prec);

  //
  // Get the EpetraLinearOp object that is used to implement the preconditoner linear op
  //

  RCP<EpetraLinearOp>
    epetra_precOp = rcp_dynamic_cast<EpetraLinearOp>(defaultPrec->getNonconstUnspecifiedPrecOp(),true);

  //
  // Get the embedded MueLu::EpetraOperator object if it exists
  //

  Teuchos::RCP<MueLu::EpetraOperator> muelu_precOp;
  if(epetra_precOp.get())
    muelu_precOp = rcp_dynamic_cast<MueLu::EpetraOperator>(epetra_precOp->epetra_op(),true);
  //
  // Get the attached forward operator if it exists and make sure that it matches
  //
  if(muelu_precOp!=Teuchos::null) {
    // TODO
//     // Get the forward operator and make sure that it matches what is
//     // already being used!
//     const Epetra_CrsMatrix & rm = muelu_precOp->CrsMatrix();

//     TEUCHOS_TEST_FOR_EXCEPTION(
//        &rm!=&*epetraFwdRowMat, std::logic_error
//        ,"MueLu requires Epetra_RowMatrix to be the same for each initialization of the preconditioner"
//        );
  }

  MueLu::ParameterListInterpreter<double, int, int, NO, LMO> mueluFactory(*paramList_);

  //
  // Perform initialization if needed
  //
  const bool startingOver = (muelu_precOp.get() == NULL);
  if(startingOver)
  {
    if(out.get() && implicit_cast<int>(verbLevel) >= implicit_cast<int>(Teuchos::VERB_LOW))
      *out << "\nCreating the initial MueLu::EpetraOperator object...\n";
    timer.start(true);
    // Create the initial preconditioner: DO NOT compute it yet

    // Turns a Epetra_CrsMatrix into a Xpetra::Matrix
    RCP<Epetra_CrsMatrix> epetraFwdCrsMatNonConst = rcp_const_cast<Epetra_CrsMatrix>(epetraFwdCrsMat); // !! TODO: MueLu interface should accept const matrix as input.

    RCP<Xpetra::CrsMatrix<double, int, int, NO, LMO> > mueluAcrs = rcp(new Xpetra::EpetraCrsMatrix(epetraFwdCrsMatNonConst)); //TODO: should not be needed
    RCP<Xpetra::Matrix <double, int, int, NO, LMO> >   mueluA    = rcp(new Xpetra::CrsMatrixWrap<double, int, int, NO, LMO>(mueluAcrs));

    const RCP<MueLu::Hierarchy<double,int, int, NO, LMO > > muelu_hierarchy = mueluFactory.CreateHierarchy();
    muelu_hierarchy->GetLevel(0)->Set("A", mueluA);
    muelu_precOp = rcp(new MueLu::EpetraOperator(muelu_hierarchy));

    timer.stop();
    if(out.get() && implicit_cast<int>(verbLevel) >= implicit_cast<int>(Teuchos::VERB_LOW))
      OSTab(out).o() <<"> Creation time = "<<timer.totalElapsedTime()<<" sec\n";

    //     if(paramList_.get())
    //       TEUCHOS_TEST_FOR_EXCEPT(
    //         0!=muelu_precOp->SetParameterList(paramList_->sublist(MueLuSettings_name))
    //         );
  }

  //
  // Attach the epetraFwdOp to the muelu_precOp to guarantee that it will not go away
  //
  set_extra_data(epetraFwdOp, "IFPF::epetraFwdOp", Teuchos::inOutArg(muelu_precOp),
    Teuchos::POST_DESTROY, false);

  //
  // Update the factorization
  //
  if(out.get() && implicit_cast<int>(verbLevel) >= implicit_cast<int>(Teuchos::VERB_LOW))
    *out << "\nComputing the preconditioner ...\n";
  timer.start(true);

  mueluFactory.SetupHierarchy(*muelu_precOp->GetHierarchy());

  timer.stop();
  if(out.get() && implicit_cast<int>(verbLevel) >= implicit_cast<int>(Teuchos::VERB_LOW))
    OSTab(out).o() <<"=> Setup time = "<<timer.totalElapsedTime()<<" sec\n";
  //
  // Compute the conditioner number estimate if asked
  //

  // ToDo: Implement

  //
  // Attach fwdOp to the muelu_precOp
  //
  set_extra_data(fwdOp, "IFPF::fwdOp", Teuchos::inOutArg(muelu_precOp),
    Teuchos::POST_DESTROY, false);
  //
  // Initialize the output EpetraLinearOp
  //
  if(startingOver) {
    epetra_precOp = rcp(new EpetraLinearOp);
  }
  epetra_precOp->initialize(
    muelu_precOp
    ,epetraFwdOpTransp
    ,EPETRA_OP_APPLY_APPLY_INVERSE
    ,EPETRA_OP_ADJOINT_UNSUPPORTED  // ToDo: Look into adjoints again.
    );
  //
  // Initialize the preconditioner
  //
  defaultPrec->initializeUnspecified(
    Teuchos::rcp_implicit_cast<LinearOpBase<double> >(epetra_precOp)
    );
  totalTimer.stop();
  if(out.get() && implicit_cast<int>(verbLevel) >= implicit_cast<int>(Teuchos::VERB_LOW))
    *out << "\nTotal time in MLPreconditionerFactory = "<<totalTimer.totalElapsedTime()<<" sec\n";
  if(out.get() && implicit_cast<int>(verbLevel) > implicit_cast<int>(Teuchos::VERB_LOW))
    *out << "\nLeaving Thyra::MLPreconditionerFactory::initializePrec(...) ...\n";
}