Exemplo n.º 1
0
//============================================================================
Epetra_CrsGraph* Ifpack_CreateOverlappingCrsMatrix(const Epetra_CrsGraph* Graph,
                                                   const int OverlappingLevel)
{

  if (OverlappingLevel == 0)
    return(0); // All done
  if (Graph->Comm().NumProc() == 1)
    return(0); // All done

  Epetra_CrsGraph* OverlappingGraph;
  Epetra_BlockMap* OverlappingMap;
  OverlappingGraph = const_cast<Epetra_CrsGraph*>(Graph);
  OverlappingMap = const_cast<Epetra_BlockMap*>(&(Graph->RowMap()));

  Epetra_CrsGraph* OldGraph;
  Epetra_BlockMap* OldMap;
  const Epetra_BlockMap* DomainMap = &(Graph->DomainMap());
  const Epetra_BlockMap* RangeMap = &(Graph->RangeMap());

  for (int level = 1; level <= OverlappingLevel ; ++level) {

    OldGraph = OverlappingGraph;
    OldMap = OverlappingMap;

    Epetra_Import* OverlappingImporter;
    OverlappingImporter = const_cast<Epetra_Import*>(OldGraph->Importer());
    OverlappingMap = new Epetra_BlockMap(OverlappingImporter->TargetMap());

    if (level < OverlappingLevel)
      OverlappingGraph = new Epetra_CrsGraph(Copy, *OverlappingMap, 0);
    else
      // On last iteration, we want to filter out all columns except
      // those that correspond
      // to rows in the graph.  This assures that our matrix is square
      OverlappingGraph = new Epetra_CrsGraph(Copy, *OverlappingMap,
                                          *OverlappingMap, 0);

    OverlappingGraph->Import(*OldGraph, *OverlappingImporter, Insert);
    if (level < OverlappingLevel)
      OverlappingGraph->FillComplete(*DomainMap, *RangeMap);
    else {
      // Copy last OverlapImporter because we will use it later
      OverlappingImporter = new Epetra_Import(*OverlappingMap, *DomainMap);
      OverlappingGraph->FillComplete(*DomainMap, *RangeMap);
    }

    if (level > 1) {
      delete OldGraph;
      delete OldMap;
    }

    delete OverlappingMap;
    OverlappingGraph->FillComplete();

  }

  return(OverlappingGraph);
}
Exemplo n.º 2
0
int Epetra_Util::GetPidGidPairs(const Epetra_Import & Importer,std::vector< std::pair<int,long long> > & gpids, bool use_minus_one_for_local){
  // Put the (PID,GID) pair in member of Importer.TargetMap() in gpids.  If use_minus_one_for_local==true, put in -1 instead of MyPID.
  // This only works if we have an MpiDistributor in our Importer.  Otheriwise return an error.
#ifdef HAVE_MPI
  Epetra_MpiDistributor *D=dynamic_cast<Epetra_MpiDistributor*>(&Importer.Distributor());
  if(!D) EPETRA_CHK_ERR(-2);

  int i,j,k;
  int mypid=Importer.TargetMap().Comm().MyPID();
  int N=Importer.TargetMap().NumMyElements();

  // Get the importer's data
  const int *RemoteLIDs  = Importer.RemoteLIDs();

  // Get the distributor's data
  int NumReceives        = D->NumReceives();
  const int *ProcsFrom   = D->ProcsFrom();
  const int *LengthsFrom = D->LengthsFrom();

  // Resize the outgoing data structure
  gpids.resize(N);

  // Start by claiming that I own all the data
  if(use_minus_one_for_local)
    for(i=0;i <N; i++) gpids[i]=std::make_pair(-1,Importer.TargetMap().GID64(i));
  else
    for(i=0;i <N; i++) gpids[i]=std::make_pair(mypid,Importer.TargetMap().GID64(i));

  // Now, for each remote ID, record who actually owns it.  This loop follows the operation order in the
  // MpiDistributor so it ought to duplicate that effect.
  for(i=0,j=0;i<NumReceives;i++){
    int pid=ProcsFrom[i];
    for(k=0;k<LengthsFrom[i];k++){
      if(pid!=mypid) gpids[RemoteLIDs[j]].first=pid;
      j++;
    }    
  }
  return 0;
#else
  EPETRA_CHK_ERR(-10);
#endif
}
Exemplo n.º 3
0
//----------------------------------------------------------------------------
int Epetra_Util::GetPids(const Epetra_Import & Importer, std::vector<int> &pids, bool use_minus_one_for_local){
#ifdef HAVE_MPI
  Epetra_MpiDistributor *D=dynamic_cast<Epetra_MpiDistributor*>(&Importer.Distributor());
  if(!D) EPETRA_CHK_ERR(-2);

  int i,j,k;
  int mypid=Importer.TargetMap().Comm().MyPID();
  int N=Importer.TargetMap().NumMyElements();

  // Get the importer's data
  const int *RemoteLIDs  = Importer.RemoteLIDs();

  // Get the distributor's data
  int NumReceives        = D->NumReceives();
  const int *ProcsFrom   = D->ProcsFrom();
  const int *LengthsFrom = D->LengthsFrom();
  
  // Resize the outgoing data structure
  pids.resize(N);

  // Start by claiming that I own all the data
  if(use_minus_one_for_local)
    for(i=0; i<N; i++) pids[i]=-1;
  else
    for(i=0; i<N; i++) pids[i]=mypid;

  // Now, for each remote ID, record who actually owns it.  This loop follows the operation order in the
  // MpiDistributor so it ought to duplicate that effect.
  for(i=0,j=0;i<NumReceives;i++){
    int pid=ProcsFrom[i];
    for(k=0;k<LengthsFrom[i];k++){
      if(pid!=mypid) pids[RemoteLIDs[j]]=pid;
      j++;
    }    
  }
  return 0;
#else
  EPETRA_CHK_ERR(-10);
#endif
}
void  EpetraGhostView::import(const Epetra_Import& importer,
  const Epetra_Vector& srcObject)
{
  /* If my vector does not yet exist, create it using the target map of the
   * importer */
  if (ghostView_.get()==0)
  {
    ghostView_ = rcp(new Epetra_Vector(importer.TargetMap()));
  }

  /* do the import */
  int ierr = ghostView_->Import(srcObject, importer, Insert);

  if (ierr < 0)
  {
    Out::os() << "target map=" << endl;
    importer.TargetMap().Print(Out::os());
    Out::os() << "source map=" << endl;
    srcObject.Map().Print(Out::os());
  }
  TEUCHOS_TEST_FOR_EXCEPTION(ierr < 0, std::runtime_error, "ierr=" << ierr << " in EpetraGhostView::import()");
}
Exemplo n.º 5
0
//=============================================================================
int Epetra_DistObject::Export(const Epetra_SrcDistObject& A,
			      const Epetra_Import& Importer,
			      Epetra_CombineMode CombineMode,
                              const Epetra_OffsetIndex * Indexor)
{

  if (!Map_.SameAs(Importer.SourceMap())) EPETRA_CHK_ERR(-2);
  if (!A.Map().SameAs(Importer.TargetMap())) EPETRA_CHK_ERR(-3);

  int NumSameIDs = Importer.NumSameIDs();
  int NumPermuteIDs = Importer.NumPermuteIDs();
  int NumRemoteIDs = Importer.NumExportIDs();
  int NumExportIDs = Importer.NumRemoteIDs();
  int* ExportLIDs = Importer.RemoteLIDs();
  int* RemoteLIDs = Importer.ExportLIDs();
  int* PermuteToLIDs = Importer.PermuteFromLIDs();
  int* PermuteFromLIDs = Importer.PermuteToLIDs();

  EPETRA_CHK_ERR(DoTransfer(A, CombineMode, NumSameIDs, NumPermuteIDs, NumRemoteIDs, NumExportIDs,
			    PermuteToLIDs, PermuteFromLIDs,  RemoteLIDs, ExportLIDs,
			    LenImports_, Imports_, LenExports_, Exports_,
			    Importer.Distributor(), true, Indexor));
  return(0);
}
Exemplo n.º 6
0
//============================================================================
Epetra_CrsMatrix* Ifpack_CreateOverlappingCrsMatrix(const Epetra_RowMatrix* Matrix,
                                                    const int OverlappingLevel)
{

  if (OverlappingLevel == 0)
    return(0); // All done
  if (Matrix->Comm().NumProc() == 1)
    return(0); // All done

  Epetra_CrsMatrix* OverlappingMatrix;
  OverlappingMatrix = 0;
  Epetra_Map* OverlappingMap;
  OverlappingMap = (Epetra_Map*)&(Matrix->RowMatrixRowMap());

  const Epetra_RowMatrix* OldMatrix;
  const Epetra_Map* DomainMap = &(Matrix->OperatorDomainMap());
  const Epetra_Map* RangeMap = &(Matrix->OperatorRangeMap());

  for (int level = 1; level <= OverlappingLevel ; ++level) {

    if (OverlappingMatrix)
      OldMatrix = OverlappingMatrix;
    else
      OldMatrix = Matrix;

    Epetra_Import* OverlappingImporter;
    OverlappingImporter = (Epetra_Import*)OldMatrix->RowMatrixImporter();
    int NumMyElements = OverlappingImporter->TargetMap().NumMyElements();

    // need to build an Epetra_Map in this way because Epetra_CrsMatrix
    // requires Epetra_Map and not Epetra_BlockMap

#ifndef EPETRA_NO_32BIT_GLOBAL_INDICES
    if(OverlappingImporter->TargetMap().GlobalIndicesInt()) {
          int* MyGlobalElements = OverlappingImporter->TargetMap().MyGlobalElements();
      OverlappingMap = new Epetra_Map(-1,NumMyElements,MyGlobalElements,
                                    0, Matrix->Comm());
    }
        else
#endif
#ifndef EPETRA_NO_64BIT_GLOBAL_INDICES
    if(OverlappingImporter->TargetMap().GlobalIndicesLongLong()) {
      long long* MyGlobalElements = OverlappingImporter->TargetMap().MyGlobalElements64();
      OverlappingMap = new Epetra_Map((long long) -1,NumMyElements,MyGlobalElements,
                                    0, Matrix->Comm());
        }
        else
#endif
      throw "Ifpack_CreateOverlappingCrsMatrix: GlobalIndices type unknown";

    if (level < OverlappingLevel)
      OverlappingMatrix = new Epetra_CrsMatrix(Copy, *OverlappingMap, 0);
    else
      // On last iteration, we want to filter out all columns except
      // those that correspond
      // to rows in the graph.  This assures that our matrix is square
      OverlappingMatrix = new Epetra_CrsMatrix(Copy, *OverlappingMap,
                                               *OverlappingMap, 0);

    OverlappingMatrix->Import(*OldMatrix, *OverlappingImporter, Insert);
    if (level < OverlappingLevel) {
      OverlappingMatrix->FillComplete(*DomainMap, *RangeMap);
    }
    else {
      OverlappingMatrix->FillComplete(*DomainMap, *RangeMap);
    }

    delete OverlappingMap;

    if (level > 1) {
      delete OldMatrix;
    }
    OverlappingMatrix->FillComplete();

  }

  return(OverlappingMatrix);
}