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#ifndef MLAPI_SERIALMATRIX_H
#define MLAPI_SERIALMATRIX_H

/*!
\file MLAPI_SerialMatrix.h

\brief MATLAB-like serial matrix.

\author Marzio Sala, D-INFK/ETHZ.

\date Last updated on Mar-06.
*/
/* ******************************************************************** */
/* See the file COPYRIGHT for a complete copyright notice, contact      */
/* person and disclaimer.                                               */
/* ******************************************************************** */

#include "ml_common.h"

#include "ml_include.h"
//#include "ml_lapack.h"
#include "ml_comm.h"
#include "MLAPI_Error.h"
#include "MLAPI_Space.h"
#include "MLAPI_Operator.h"
#include "Epetra_Vector.h"
#include "Epetra_RowMatrix.h"
#include "Teuchos_RefCountPtr.hpp"
#include <iomanip>

namespace MLAPI {

class Epetra_SerialMatrix : public Epetra_RowMatrix {

public:

  Epetra_SerialMatrix(const Space& RowSpace, const Space& ColSpace)
  {
    NumMyRows_ = RowSpace.GetNumMyElements();
    NumMyCols_ = ColSpace.GetNumMyElements();

    NumMyNonzeros_ = 0;
    NumMyDiagonals_ = 0;

    if (GetNumProcs() != 1)
      ML_THROW("Class SerialMatrix can only be used for serial computations.", -1);

    RowMap_ = Teuchos::rcp(new Epetra_Map(NumMyRows_,0,GetEpetra_Comm()));
    ColMap_ = Teuchos::rcp(new Epetra_Map(NumMyCols_,0,GetEpetra_Comm()));

    ptr_.resize(NumMyRows_);
  }

  virtual int NumMyRowEntries(int MyRow, int & NumEntries) const
  {
#ifdef MLAPI_CHECK
    if (MyRow < 0 || MyRow >= NumMyRows())
      ML_THROW("Requested not valid row (" + GetString(MyRow) +").", -1);
#endif
    NumEntries = ptr_[MyRow].size();

    return(0);
  }

  virtual int MaxNumEntries() const
  {
    int res = 0, res_i = 0;

    for (int i = 0 ; i < NumMyRows() ; ++i) {
      NumMyRowEntries(i, res_i);
      if (res_i > res)
        res = res_i;
    }

    return(res);
  }

  virtual int ExtractMyRowCopy(int MyRow, int Length, int & NumEntries,
                               double *Values, int * Indices) const
  {
    NumMyRowEntries(MyRow, NumEntries);
    if (Length < NumEntries) ML_CHK_ERR(-1);
    if (MyRow < 0 || MyRow >= NumMyRows())
      ML_CHK_ERR(-2);

    int count = 0;
    for (where_ = ptr_[MyRow].begin() ; where_ != ptr_[MyRow].end() ; ++where_) {
      Indices[count] = where_->first;
      Values[count] = where_->second;
      ++count;
    }
    return(0);
  }

  virtual int ExtractDiagonalCopy(Epetra_Vector & Diagonal) const
  {
#ifdef MLAPI_CHECK
    if (!Diagonal.Map().SameAs(RowMatrixRowMap()))
      ML_CHK_ERR(-1);
#endif

    Diagonal.PutScalar(0.0);

    for (int i = 0 ; i < NumMyRows() ; ++i) {
      for (where_ = ptr_[i].begin() ; where_ != ptr_[i].end() ; ++where_) {
        if (where_->first == i) {
          Diagonal[i] = where_->second;
          break;
        }
      }
    }
    return(0);
  }

  virtual int Multiply(bool TransA, const Epetra_MultiVector& X,
                       Epetra_MultiVector& Y) const
  {

    Y.PutScalar(0.0);

    if (!TransA) {
      for (int v = 0 ; v < X.NumVectors() ; ++v) {
        for (int i = 0 ; i < NumMyRows() ; ++i) {
          for (where_ = ptr_[i].begin() ; where_ != ptr_[i].end() ; ++where_) {
            Y[v][i] += (where_->second) * X[v][where_->first];
          }
        }
      }
    }
    else {
      for (int v = 0 ; v < X.NumVectors() ; ++v) {
        for (int i = 0 ; i < NumMyRows() ; ++i) {
          for (where_ = ptr_[i].begin() ; where_ != ptr_[i].end() ; ++where_) {
            Y[v][where_->first] += (where_->second) * X[v][i];
          }
        }
      }
    }

    return(0);
  }

  virtual int Solve(bool Upper, bool Trans, bool UnitDiagonal, const Epetra_MultiVector& X,
                    Epetra_MultiVector& Y) const
  {
    ML_CHK_ERR(-1);
  }

  virtual int InvRowSums(Epetra_Vector& x) const
  {
    ML_CHK_ERR(-1);
  }

  virtual int LeftScale(const Epetra_Vector& x)
  {
    ML_CHK_ERR(-1);
  }

  virtual int InvColSums(Epetra_Vector& x) const
  {
    ML_CHK_ERR(-1);
  }

  virtual int RightScale(const Epetra_Vector& x)
  {
    ML_CHK_ERR(-1);
  }

  virtual bool Filled() const
  {
    return(true);
  }

  virtual double NormInf() const
  {
    ML_CHK_ERR(-1);
  }

  virtual double NormOne() const
  {
    ML_CHK_ERR(-1);
  }

#ifndef EPETRA_NO_32BIT_GLOBAL_INDICES
  virtual int NumGlobalNonzeros() const
  {
    return(NumMyNonzeros_);
  }

  virtual int NumGlobalRows() const
  {
     return(NumMyRows_);
  }

  virtual int NumGlobalCols() const
  {
    return(NumMyCols_);
  }

  virtual int NumGlobalDiagonals() const
  {
    return(NumMyDiagonals_);
  }
#endif

  virtual long long NumGlobalNonzeros64() const
  {
    return(NumMyNonzeros_);
  }

  virtual long long NumGlobalRows64() const
  {
     return(NumMyRows_);
  }

  virtual long long NumGlobalCols64() const
  {
    return(NumMyCols_);
  }

  virtual long long NumGlobalDiagonals64() const
  {
    return(NumMyDiagonals_);
  }

  virtual int NumMyNonzeros() const
  {
    return(NumMyNonzeros_);
  }

  virtual int NumMyRows() const
  {
    return(NumMyRows_);
  }

  virtual int NumMyCols() const
  {
    return(NumMyCols_);
  }

  virtual int NumMyDiagonals() const
  {
    return(NumMyDiagonals_);
  }

  virtual bool LowerTriangular() const
  {
    return(false);
  }

  virtual bool UpperTriangular() const
  {
    return(false);
  }

  virtual const Epetra_Map & RowMatrixRowMap() const
  {
    return(*(RowMap_.get()));
  }

  virtual const Epetra_Map & RowMatrixColMap() const
  {
    return(*(ColMap_.get()));
  }

  virtual const Epetra_Import * RowMatrixImporter() const
  {
    return(0);
  }

  virtual const Epetra_Map& OperatorDomainMap() const
  {
    return(*(ColMap_.get()));
  }

  virtual const Epetra_Map& OperatorRangeMap() const
  {
    return(*(RowMap_.get()));
  }

  virtual const Epetra_Map& Map() const
  {
    return(*(ColMap_.get()));
  }

  //@}

  virtual int SetUseTranspose(bool)
  {
    ML_CHK_ERR(-1);
  }

  virtual int Apply(const Epetra_MultiVector& X, Epetra_MultiVector& Y) const
  {
    return(Multiply(false, X, Y));
  }

  virtual int ApplyInverse(const Epetra_MultiVector& X,
                           Epetra_MultiVector& Y) const
  {
    ML_CHK_ERR(-1);
  }

  virtual const char* Label() const
  {
    return("Epetra_SerialMatrix");
  }

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

  virtual bool HasNormInf() const
  {
    return(false);
  }

  virtual const Epetra_Comm& Comm() const
  {
    return(GetEpetra_Comm());
  }

  inline double& operator()(const int row, const int col)
  {
#ifdef MLAPI_CHECK
    if (row < 0 || row >= NumMyRows())
      ML_THROW("Requested not valid row (" + GetString(row) +").", -1);
    if (col < 0 || row >= NumMyCols())
      ML_THROW("Requested not valid column (" + GetString(col) +").", -1);
#endif
    where_ = ptr_[row].find(col);

    if (where_ != ptr_[row].end())
      // return a reference to this guy
      return(where_->second);
    else {
      ptr_[row][col] = 0.0;
      // track number of stored elements
      ++NumMyNonzeros_;
      // track number of diagonals
      if (row == col)
        ++NumMyDiagonals_;
      // return a reference to this guy
      return(ptr_[row][col]);
    }
  }

private:

  Epetra_SerialMatrix(const Epetra_SerialMatrix& rhs)
  {
  }

  Epetra_SerialMatrix& operator=(const Epetra_SerialMatrix& rhs)
  {
    return(*this);
  }

  int NumMyRows_;
  int NumMyCols_;
  int NumMyDiagonals_;
  int NumMyNonzeros_;

  mutable std::map<int,double>::iterator where_;
  mutable std::vector<std::map<int,double> > ptr_;

  Teuchos::RefCountPtr<Epetra_Map> RowMap_;
  Teuchos::RefCountPtr<Epetra_Map> ColMap_;

}; // class Epetra_SerialMatrix

class SerialMatrix : public Operator
{
public:
  SerialMatrix()
  {
    Matrix_ = 0;
  }

  SerialMatrix& operator()(const SerialMatrix& rhs)
  {
    Matrix_ = rhs.Matrix_;
    Operator::operator=(rhs);
    return(*this);
  }

  SerialMatrix(const Space& RowSpace, const Space& ColSpace)
  {
    Matrix_ = new Epetra_SerialMatrix(RowSpace, ColSpace);

    Reshape(RowSpace, ColSpace, Matrix_, true);
  }

  inline double& operator()(const int row, const int col)
  {
    return((*Matrix_)(row, col));
  }

  std::ostream& Print(std::ostream& os, const bool verbose = true) const
  {
    int Length = Matrix_->MaxNumEntries();
    std::vector<double> Values(Length);
    std::vector<int>    Indices(Length);

    os << std::endl;
    os << "*** MLAPI::SerialMatrix ***" << std::endl;
    os << "Label = " << GetLabel() << std::endl;
    os << "Number of rows = " << Matrix_->NumMyRows() << std::endl;
    os << "Number of columns = " << Matrix_->NumMyCols() << std::endl;
    os << std::endl;
    os.width(10); os << "row ID";
    os.width(10); os << "col ID";
    os.width(30); os << "value";
    os << std::endl;
    os << std::endl;

    for (int i = 0 ; i < Matrix_->NumMyRows() ; ++i) {
      int NnzRow = 0;
      Matrix_->ExtractMyRowCopy(i, Length, NnzRow, &Values[0], &Indices[0]);
      for (int j = 0 ; j < NnzRow ; ++j) {
        os.width(10); os << i;
        os.width(10); os << Indices[j];
        os.width(30); os << Values[j];
        os << std::endl;
      }
    }
    return(os);
  }

private:
  Epetra_SerialMatrix* Matrix_;
};

} // namespace MLAPI

#endif // ifndef MLAPI_SERIALMATRIX_H