Teko_AddPreconditionerFactory.cpp

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//      Teko: A package for block and physics based preconditioning
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#include "Teko_AddPreconditionerFactory.hpp"
 
namespace Teko {
 
using Teuchos::RCP;
 
AddPreconditionerFactory::AddPreconditionerFactory(
                            const RCP<const BlockPreconditionerFactory> & FirstFactory,
                            const RCP<const BlockPreconditionerFactory> & SecondFactory)
   : FirstFactory_(FirstFactory), SecondFactory_(SecondFactory)
{}
 
AddPreconditionerFactory::AddPreconditionerFactory()
{}

RCP<PreconditionerState> AddPreconditionerFactory::buildPreconditionerState() const
{ 
   AddPrecondState*   mystate = new AddPrecondState(); 
   mystate->StateOne_ = Teuchos::rcp_dynamic_cast<BlockPreconditionerState>(FirstFactory_->buildPreconditionerState());
   mystate->StateTwo_ = Teuchos::rcp_dynamic_cast<BlockPreconditionerState>(SecondFactory_->buildPreconditionerState());
   return rcp(mystate);
}
 
// Use the factory to build the preconditioner (this is where the work goes)
LinearOp AddPreconditionerFactory 
   ::buildPreconditionerOperator(BlockedLinearOp & blockOp,
                                 BlockPreconditionerState & state) const
{
   // The main tricky thing here is that we have to take the 'state' object
   // associated with AddPreconditionerFactory(), pull out the states for
   // the individual preconditioners, and pass these on to 
   // buildPreconditionerOperator() for each subpreconditioner.
   
   AddPrecondState *MyState = dynamic_cast<AddPrecondState *> (&state);
   TEUCHOS_ASSERT(MyState != 0);
 
   LinearOp M1 = FirstFactory_->buildPreconditionerOperator(blockOp, *MyState->StateOne_);
   LinearOp M2 = SecondFactory_->buildPreconditionerOperator(blockOp, *MyState->StateTwo_);
 
   LinearOp invA = add(M1, M2);
 
   // return fully constructed preconditioner
   return invA;
}

void AddPreconditionerFactory::initializeFromParameterList(const Teuchos::ParameterList & pl)
{
   RCP<const InverseLibrary> invLib = getInverseLibrary();
 
   // get string specifying inverse
   std::string aStr="", bStr="";
 
   // "parse" the parameter list
   aStr = pl.get<std::string>("Preconditioner A");
   bStr = pl.get<std::string>("Preconditioner B");
 
   RCP<const Teuchos::ParameterList> aSettings = invLib->getParameterList(aStr);
   RCP<const Teuchos::ParameterList> bSettings = invLib->getParameterList(bStr);
 
   // build preconditioner from the parameters
   std::string aType = aSettings->get<std::string>("Preconditioner Type");
   RCP<Teko::PreconditionerFactory> precA
         = Teko::PreconditionerFactory::buildPreconditionerFactory(aType,aSettings->sublist("Preconditioner Settings"),invLib);
 
   // build preconditioner from the parameters
   std::string bType = bSettings->get<std::string>("Preconditioner Type");
   RCP<Teko::PreconditionerFactory> precB
         = Teko::PreconditionerFactory::buildPreconditionerFactory(bType,bSettings->sublist("Preconditioner Settings"),invLib);
 
   // set preconditioners
   FirstFactory_ = Teuchos::rcp_dynamic_cast<const Teko::BlockPreconditionerFactory>(precA);
   SecondFactory_ = Teuchos::rcp_dynamic_cast<const Teko::BlockPreconditionerFactory>(precB);
}
 
} // end namespace Teko