EpetraInterface.cpp

/* ******************************************************************** */
/* See the file COPYRIGHT for a complete copyright notice, contact      */
/* person and disclaimer.                                               */        
/* ******************************************************************** */
#include "ml_common.h"
#if defined(HAVE_ML_MLAPI) && defined(HAVE_ML_GALERI) && defined(HAVE_ML_AZTECOO)
#include "Epetra_Map.h"
#include "Epetra_Vector.h"
#include "Epetra_CrsMatrix.h"
#include "Epetra_LinearProblem.h"
// required to build the example matrix
#include "Galeri_Maps.h"
#include "Galeri_CrsMatrices.h"
// required by the linear system solver
#include "AztecOO.h"

#include "MLAPI_Space.h"
#include "MLAPI_Operator.h"
#include "MLAPI_MultiLevelSA.h"
#include "MLAPI_EpetraBaseOperator.h"
#include "MLAPI_Workspace.h"

using namespace Teuchos;
using namespace MLAPI;
using namespace Galeri;

// ============== //
// example driver //
// ============== //

int main(int argc, char *argv[])
{

#ifdef HAVE_MPI
  MPI_Init(&argc,&argv);
  Epetra_MpiComm Comm(MPI_COMM_WORLD);
#else
  Epetra_SerialComm Comm;
#endif

  // get the epetra matrix from the Gallery
  int nx = 8;
  int ny = 8 * Comm.NumProc();

  ParameterList GaleriList;
  GaleriList.set("nx", nx);
  GaleriList.set("ny", ny);
  GaleriList.set("mx", 1);
  GaleriList.set("my", Comm.NumProc());

  Epetra_Map* Map = CreateMap("Cartesian2D", Comm, GaleriList);
  Epetra_CrsMatrix* A = CreateCrsMatrix("Laplace2D", Map, GaleriList);

  Epetra_Vector LHS(*Map); LHS.Random();
  Epetra_Vector RHS(*Map); RHS.PutScalar(0.0);

  Epetra_LinearProblem Problem(A, &LHS, &RHS);

  AztecOO solver(Problem);

  Init();

  try {

    Space S(-1, A->NumMyRows(), A->RowMatrixRowMap().MyGlobalElements());
    Operator A_MLAPI(S, S, A, false);

    Teuchos::ParameterList MLList;
    MLList.set("max levels",3);
    MLList.set("increasing or decreasing","increasing");
    MLList.set("aggregation: type", "Uncoupled");
    MLList.set("aggregation: damping factor", 0.0);
    MLList.set("smoother: type","symmetric Gauss-Seidel");
    MLList.set("smoother: sweeps",1);
    MLList.set("smoother: damping factor",1.0);
    MLList.set("coarse: max size",3);
    MLList.set("smoother: pre or post", "both");
    MLList.set("coarse: type","Amesos-KLU");

    MultiLevelSA Prec_MLAPI(A_MLAPI, MLList);

    Epetra_Operator* Prec = new EpetraBaseOperator(A->RowMatrixRowMap(), Prec_MLAPI);

    solver.SetPrecOperator(Prec);
    solver.SetAztecOption(AZ_solver, AZ_cg_condnum);
    solver.SetAztecOption(AZ_output, 32);
    solver.Iterate(500, 1e-12);

    // destroy the preconditioner
    delete Prec;

  }
  catch (const int e) {
    cerr << "Caught exception, code = " << e << endl;
  }
  catch (...) {
    cerr << "Caught exception..." << endl;
  }

  Finalize();

  // compute the real residual

  double residual;
  LHS.Norm2(&residual);

  if( Comm.MyPID()==0 ) {
    cout << "||b-Ax||_2 = " << residual << endl;
  }

  delete A;
  delete Map;

  // for testing purposes
  if (residual > 1e-5)
    exit(EXIT_FAILURE);

#ifdef HAVE_MPI
  MPI_Finalize();
#endif

  return(EXIT_SUCCESS);
}

#else

#include "ml_include.h"

int main(int argc, char *argv[])
{
#ifdef HAVE_MPI
  MPI_Init(&argc,&argv);
#endif

  puts("This MLAPI example requires the following configuration options:");
  puts("\t--enable-epetra");
  puts("\t--enable-teuchos");
  puts("\t--enable-ifpack");
  puts("\t--enable-amesos");
  puts("\t--enable-galeri");
  puts("Please check your configure line.");

#ifdef HAVE_MPI
  MPI_Finalize();
#endif

  return(EXIT_SUCCESS);
}

#endif

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