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// Use of Epetra_Operator.
// This code must be run with one process

#include "Didasko_ConfigDefs.h"
#if defined(HAVE_DIDASKO_EPETRA)

#include "Epetra_ConfigDefs.h"
#ifdef HAVE_MPI
#include "mpi.h"
#include "Epetra_MpiComm.h"
#else
#include "Epetra_SerialComm.h"
#endif
#include "Epetra_Map.h"
#include "Epetra_Vector.h"
#include "Epetra_MultiVector.h"
#include "Epetra_Operator.h"

// ==================== //
// TriDiagonal Operator //
// -------------------- //

class TriDiagonalOperator : public Epetra_Operator 
{

public:
  
  // constructor
  TriDiagonalOperator( double diag_minus_one,
               double diag,
               double diag_plus_one,
               Epetra_Map & Map) :
    Map_(Map),
    diag_minus_one_(diag_minus_one),
    diag_(diag),
    diag_plus_one_(diag_plus_one)
  {}

  // application of the tridiagonal operator
  int Apply( const Epetra_MultiVector & X,
         Epetra_MultiVector & Y ) const
  {
    int Length = X.MyLength();
    
    // maybe some error checks on MultiVector Lenghts
    // for the future...
    
    for( int vec=0 ; vec<X.NumVectors() ; ++vec ) {
      
      // one-dimensional problems here
      if( Length == 1 ) {
    Y[vec][0] = diag_ * X[vec][0];
    break;
      }
      
      // more general case (Lenght >= 2)

      // first row
      Y[vec][0] = diag_ * X[vec][0] + diag_plus_one_ * X[vec][1];
      
      // intermediate rows
      for( int i=1 ; i<Length-1 ; ++i ) {
    Y[vec][i] = diag_ * X[vec][i] + diag_plus_one_ * X[vec][i+1]
      + diag_minus_one_ * X[vec][i-1];
      }
      // final row
      Y[vec][Length-1] = diag_ * X[vec][Length-1]
    + diag_minus_one_ * X[vec][Length-2];
    }
    
    return true;
  }

  // other function
  int SetUseTranspose( bool UseTranspose) 
  {
    return(-1); // not implemented
  }

  int ApplyInverse( const Epetra_MultiVector & X,
            Epetra_MultiVector & Y ) const
  {
    return(-1); // not implemented
  }

  double NormInf() const
  {
    return(abs(diag_) + abs(diag_minus_one_) + abs(diag_plus_one_));
  }

  const char * Label () const
  {
    return("TriDiagonalOperator");
  }

  bool UseTranspose() const
  {
    return(false);
  }

  bool HasNormInf () const
  {
    return(true);
  }
  
  
  const Epetra_Comm & Comm() const
  {
    return(Map_.Comm());
  }

  const Epetra_Map & OperatorDomainMap() const
  {
    return(Map_);
  }
  
  const Epetra_Map & OperatorRangeMap() const
  {
    return(Map_);
  }

  
private:

  Epetra_Map Map_;
  double diag_minus_one_;   // value in the sub-diagonal
  double diag_;             // value in the diagonal
  double diag_plus_one_;    // value in the super-diagonal
  
};

// =========== //
// main 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

  if( Comm.NumProc() != 1 ) {
    if( Comm.MyPID() == 0 ) {
      cerr << "This is mono-process example\n"
       << "Please run with one processo only\n";
    }
#ifdef HAVE_MPI
    MPI_Finalize();
#endif
    exit(EXIT_SUCCESS);
  }
  
  // global dimension of the problem, could be any positive number
  int NumGlobalElements( 5 );

  // linear decomposition (for simplicity, could be general)
  Epetra_Map Map(NumGlobalElements,0,Comm );

  // define two vectors based on Map
  Epetra_Vector x(Map);
  Epetra_Vector y(Map);
  x.PutScalar(1.0);
  
  // define a linear operator, as previously defined in class
  // TriDiagonalOperator

  TriDiagonalOperator TriDiagOp(-1.0,2.0,-1.0,Map);

  TriDiagOp.Apply(x,y);

  cout << x;
  cout << y;
  
#ifdef HAVE_MPI
  MPI_Finalize();
#endif

  return( EXIT_SUCCESS );

}

#else

#include <stdlib.h>
#include <stdio.h>

int main(int argc, char *argv[])
{
  puts("Please configure Didasko with:\n"
       "--enable-epetra");

  return 0;
}
#endif

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