Teko_InverseFactoryOperator.cpp

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//      Teko: A package for block and physics based preconditioning
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#include "Teko_InverseFactoryOperator.hpp"

// Teko includes
#include "Teko_BasicMappingStrategy.hpp"

// Thyra includes
#include "Thyra_EpetraLinearOp.hpp"

using Teuchos::RCP;
using Teuchos::rcp;
using Teuchos::rcpFromRef;
using Teuchos::rcp_dynamic_cast;

namespace Teko {
namespace Epetra {

InverseFactoryOperator::InverseFactoryOperator(const Teuchos::RCP<InverseFactory> & ifp)
   : inverseFactory_(ifp), firstBuildComplete_(false)
{
}

void InverseFactoryOperator::initInverse(bool clearOld)
{
   if(not clearOld)
      return;
   invOperator_ = Teuchos::null;
}

void InverseFactoryOperator::buildInverseOperator(const Teuchos::RCP<const Epetra_Operator> & A,bool clear)
{
   Teko_DEBUG_SCOPE("InverseFactoryOperator::buildInverseOperator",10);

   // extract EpetraOperatorWrapper (throw on failure) and corresponding thyra operator
   RCP<const Thyra::LinearOpBase<double> > thyraA = extractLinearOp(A);

   // set the mapping strategy
   SetMapStrategy(rcp(new InverseMappingStrategy(extractMappingStrategy(A))));

   initInverse(clear);

   // actually build the inverse operator
   invOperator_ = Teko::buildInverse(*inverseFactory_,thyraA); 

   SetOperator(invOperator_,false);

   firstBuildComplete_ = true;

   TEUCHOS_ASSERT(invOperator_!=Teuchos::null);
   TEUCHOS_ASSERT(getThyraOp()!=Teuchos::null);
   TEUCHOS_ASSERT(getMapStrategy()!=Teuchos::null);
   TEUCHOS_ASSERT(firstBuildComplete_==true);
}

void InverseFactoryOperator::rebuildInverseOperator(const Teuchos::RCP<const Epetra_Operator> & A)
{
   Teko_DEBUG_SCOPE("InverseFactoryOperator::rebuildPreconditioner",10);

   // if the inverse hasn't been built yet, rebuild from scratch
   if(not firstBuildComplete_) {
      buildInverseOperator(A,false);
      return;
   }

   RCP<const Thyra::LinearOpBase<double> > thyraA = extractLinearOp(A);
   Teko::rebuildInverse(*inverseFactory_,thyraA,invOperator_); 

   SetOperator(invOperator_,false);

   TEUCHOS_ASSERT(invOperator_!=Teuchos::null);
   TEUCHOS_ASSERT(getThyraOp()!=Teuchos::null);
   TEUCHOS_ASSERT(firstBuildComplete_==true);
}

Teuchos::RCP<const Thyra::LinearOpBase<double> > InverseFactoryOperator::extractLinearOp(const Teuchos::RCP<const Epetra_Operator> & A) const
{
   // extract EpetraOperatorWrapper (throw on failure) and corresponding thyra operator
   const RCP<const EpetraOperatorWrapper> & eow = rcp_dynamic_cast<const EpetraOperatorWrapper>(A);
  
   // if it is an EpetraOperatorWrapper, then get the Thyra operator
   if(eow!=Teuchos::null)
      return eow->getThyraOp(); 

   // otherwise wrap it up as a thyra operator 
   return Thyra::epetraLinearOp(A);
}

Teuchos::RCP<const MappingStrategy> InverseFactoryOperator::extractMappingStrategy(const Teuchos::RCP<const Epetra_Operator> & A) const
{
   // extract EpetraOperatorWrapper (throw on failure) and corresponding thyra operator
   const RCP<const EpetraOperatorWrapper> & eow = rcp_dynamic_cast<const EpetraOperatorWrapper>(A);
  
   // if it is an EpetraOperatorWrapper, then get the Thyra operator
   if(eow!=Teuchos::null)
      return eow->getMapStrategy(); 

   // otherwise wrap it up as a thyra operator 
   RCP<const Epetra_Map> range = rcpFromRef(A->OperatorRangeMap());
   RCP<const Epetra_Map> domain = rcpFromRef(A->OperatorDomainMap());
   return rcp(new BasicMappingStrategy(range,domain,A->Comm()));
}

} // end namespace Epetra
} // end namespace Teko