MueLu_RebalanceAcFactory_def.hpp

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#ifndef MUELU_REBALANCEACFACTORY_DEF_HPP
#define MUELU_REBALANCEACFACTORY_DEF_HPP
 
#include <Xpetra_Matrix.hpp>
#include <Xpetra_CrsMatrix.hpp>
#include <Xpetra_CrsMatrixWrap.hpp>
#include <Xpetra_MatrixFactory.hpp>
 
#include "MueLu_RebalanceAcFactory_decl.hpp"
 
#include "MueLu_MasterList.hpp"
#include "MueLu_Monitor.hpp"
#include "MueLu_PerfUtils.hpp"
#include "MueLu_RAPFactory.hpp"
 
namespace MueLu {
 
  template <class Scalar, class LocalOrdinal, class GlobalOrdinal, class Node>
  RCP<const ParameterList> RebalanceAcFactory<Scalar, LocalOrdinal, GlobalOrdinal, Node>::GetValidParameterList() const {
    RCP<ParameterList> validParamList = rcp(new ParameterList());
 
#define SET_VALID_ENTRY(name) validParamList->setEntry(name, MasterList::getEntry(name))
    SET_VALID_ENTRY("repartition: use subcommunicators");
#undef SET_VALID_ENTRY
 
    validParamList->set< RCP<const FactoryBase> >("A",        Teuchos::null, "Generating factory of the matrix A for rebalancing");
    validParamList->set< RCP<const FactoryBase> >("Importer", Teuchos::null, "Generating factory of the importer");
 
    return validParamList;
  }
 
  template <class Scalar, class LocalOrdinal, class GlobalOrdinal, class Node>
  void RebalanceAcFactory<Scalar, LocalOrdinal, GlobalOrdinal, Node>::DeclareInput(Level &fineLevel, Level &coarseLevel) const {
    Input(coarseLevel, "A");
    Input(coarseLevel, "Importer");
  }
 
  template <class Scalar, class LocalOrdinal, class GlobalOrdinal, class Node>
  void RebalanceAcFactory<Scalar, LocalOrdinal, GlobalOrdinal, Node>::Build(Level &fineLevel, Level &coarseLevel) const {
    FactoryMonitor m(*this, "Computing Ac", coarseLevel);
    
    RCP<Matrix> originalAc = Get< RCP<Matrix> >(coarseLevel, "A");
    RCP<const Import> rebalanceImporter = Get< RCP<const Import> >(coarseLevel, "Importer");
 
    if (rebalanceImporter != Teuchos::null) {
      RCP<Matrix> rebalancedAc;
      {
        SubFactoryMonitor subM(*this, "Rebalancing existing Ac", coarseLevel);
        RCP<const Map> targetMap = rebalanceImporter->getTargetMap();
 
        const ParameterList & pL = GetParameterList();
 
        ParameterList XpetraList;
        if (pL.get<bool>("repartition: use subcommunicators") == true) {
          GetOStream(Runtime0) << "Replacing maps with a subcommunicator" << std::endl;
          XpetraList.set("Restrict Communicator",true);
        }
        // NOTE: If the communicator is restricted away, Build returns Teuchos::null.
        XpetraList.set("Timer Label","MueLu::RebalanceAc-" + Teuchos::toString(coarseLevel.GetLevelID()));
  rebalancedAc = MatrixFactory::Build(originalAc, *rebalanceImporter, *rebalanceImporter, targetMap, targetMap, rcp(&XpetraList,false));
 
        if (!rebalancedAc.is_null())
          rebalancedAc->SetFixedBlockSize(originalAc->GetFixedBlockSize());
 
        Set(coarseLevel, "A", rebalancedAc);
      }
      if (!rebalancedAc.is_null() && IsPrint(Statistics2)) {
        int oldRank = SetProcRankVerbose(rebalancedAc->getRowMap()->getComm()->getRank());
 
        RCP<ParameterList> params = rcp(new ParameterList());
        params->set("printLoadBalancingInfo", true);
        params->set("printCommInfo",          true);
        GetOStream(Statistics2) << PerfUtils::PrintMatrixInfo(*rebalancedAc, "Ac (rebalanced)", params);
 
        SetProcRankVerbose(oldRank);
      }
 
    } else {
      // Ac already built by the load balancing process and no load balancing needed
      GetOStream(Runtime1) << "No rebalancing" << std::endl;
      Set(coarseLevel, "A", originalAc);
    }
 
    if (rebalanceFacts_.begin() != rebalanceFacts_.end()) {
      SubFactoryMonitor m2(*this, "Rebalance additional data", coarseLevel);
 
      // call Build of all user-given transfer factories
      for (std::vector<RCP<const FactoryBase> >::const_iterator it = rebalanceFacts_.begin(); it != rebalanceFacts_.end(); ++it) {
        GetOStream(Runtime0) << "RebalanceAc: call rebalance factory " << (*it).get() << ": " << (*it)->description() << std::endl;
        (*it)->CallBuild(coarseLevel);
      }
    }
  } //Build()
 
 
  template <class Scalar, class LocalOrdinal, class GlobalOrdinal, class Node>
  void RebalanceAcFactory<Scalar, LocalOrdinal, GlobalOrdinal, Node>::AddRebalanceFactory(const RCP<const FactoryBase>& factory) {
 
    /*TEUCHOS_TEST_FOR_EXCEPTION(Teuchos::rcp_dynamic_cast<const TwoLevelFactoryBase>(factory) == Teuchos::null, Exceptions::BadCast,
                               "MueLu::RAPFactory::AddTransferFactory: Transfer factory is not derived from TwoLevelFactoryBase. "
                               "This is very strange. (Note: you can remove this exception if there's a good reason for)");
    TEUCHOS_TEST_FOR_EXCEPTION(hasDeclaredInput_, Exceptions::RuntimeError, "MueLu::RAPFactory::AddTransferFactory: Factory is being added after we have already declared input");*/
    rebalanceFacts_.push_back(factory);
  } //AddRebalanceFactory()
 
} //namespace MueLu
 
#endif // MUELU_REBALANCEACFACTORY_DEF_HPP