/usr/include/trilinos/Epetra_JadMatrix.h is in libtrilinos-epetra-dev 12.10.1-3.
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// Epetra: Linear Algebra Services Package
// Copyright 2011 Sandia Corporation
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#ifndef EPETRA_JADMATRIX_H
#define EPETRA_JADMATRIX_H
#include "Epetra_BasicRowMatrix.h"
#include "Epetra_Map.h"
#include "Epetra_Comm.h"
#include "Epetra_SerialDenseVector.h"
#include "Epetra_IntSerialDenseVector.h"
class Epetra_Vector;
class Epetra_MultiVector;
class Epetra_Import;
class Epetra_Export;
//! Epetra_JadMatrix: A class for constructing matrix objects optimized for common kernels.
/*! The Epetra_JadMatrix class takes an existing Epetra_RowMatrix ojbect, analyzes it and
builds a jagged diagonal equivalent of it. Once constructed, it is also possible to
update the values of the matrix with values from another Epetra_RowMatrix that has
the identical structure.
*/
class EPETRA_LIB_DLL_EXPORT Epetra_JadMatrix: public Epetra_BasicRowMatrix {
public:
//! @name Constructors/Destructor
//@{
//! Epetra_JadMatrix constuctor.
/* The constructor for this class requires a fully constructed instance of an Epetra_RowMatrix
object.
\param Matrix (In) An existing Epetra_RowMatrix.
\pre Matrix must have Matrix.Filled()==true.
*/
Epetra_JadMatrix(const Epetra_RowMatrix & Matrix);
//! Epetra_JadMatrix Destructor
virtual ~Epetra_JadMatrix();
//@}
//! @name Post-construction modifications
//@{
//! Update values using a matrix with identical structure.
/* Updates the values only using a matrix that has exactly the same structure as
the matrix used to construct this Epetra_JadMatrix object. Once the constructor
is called, the Matrix argument is no longer needed.
\param Matrix (In) An existing Epetra_RowMatrix with \e identical structure to
the matrix used to create this Epetra_JadMatrix.
\param CheckStructure (In) Optional argument, by default is false. If set to true,
the method will check to see if the structure of Matrix is compatible with
the structure of matrix used to create this Epetra_JadMatrix. Performing
this check has signficant overhead, so it should only be turned on for debugging.
\pre Matrix must have Matrix.Filled()==true.
*/
int UpdateValues(const Epetra_RowMatrix & Matrix, bool CheckStructure = false);
//@}
//! @name Methods required for implementing Epetra_BasicRowMatrix
//@{
//! Returns a copy of the specified local row in user-provided arrays.
/*!
\param MyRow (In) - Local row to extract.
\param Length (In) - Length of Values and Indices.
\param NumEntries (Out) - Number of nonzero entries extracted.
\param Values (Out) - Extracted values for this row.
\param Indices (Out) - Extracted global column indices for the corresponding values.
\return Integer error code, set to 0 if successful, set to -1 if MyRow not valid, -2 if Length is too short (NumEntries will have required length).
*/
int ExtractMyRowCopy(int MyRow, int Length, int & NumEntries, double *Values, int * Indices) const;
//! Returns a reference to the ith entry in the matrix, along with its row and column index.
/*!
\param CurEntry (In) - Local entry to extract.
\param Value (Out) - Extracted reference to current values.
\param RowIndex (Out) - Row index for current entry.
\param ColIndex (Out) - Column index for current entry.
\return Integer error code, set to 0 if successful, set to -1 if CurEntry not valid.
*/
int ExtractMyEntryView(int CurEntry, double * &Value, int & RowIndex, int & ColIndex) {
if (CurEntry>=NumMyNonzeros_) EPETRA_CHK_ERR(-1);
Value = &Values_[CurEntry];
ColIndex = Indices_[CurEntry];
for (int j=0; j<NumJaggedDiagonals_; j++) if (CurEntry<IndexOffset_[j+1]) {RowIndex = RowPerm_[CurEntry-IndexOffset_[j]]; break;}
return(0);
}
//! Returns a const reference to the ith entry in the matrix, along with its row and column index.
/*!
\param CurEntry (In) - Local entry to extract.
\param Value (Out) - Extracted reference to current values.
\param RowIndex (Out) - Row index for current entry.
\param ColIndex (Out) - Column index for current entry.
\return Integer error code, set to 0 if successful, set to -1 if CurEntry not valid.
*/
int ExtractMyEntryView(int CurEntry, double const * & Value, int & RowIndex, int & ColIndex) const {
if (CurEntry>=NumMyNonzeros_) EPETRA_CHK_ERR(-1);
Value = &Values_[CurEntry];
ColIndex = Indices_[CurEntry];
for (int j=0; j<NumJaggedDiagonals_; j++) if (CurEntry<IndexOffset_[j+1]) {RowIndex = RowPerm_[CurEntry-IndexOffset_[j]]; break;}
return(0);
}
//! Return the current number of values stored for the specified local row.
/*! Similar to NumMyEntries() except NumEntries is returned as an argument
and error checking is done on the input value MyRow.
\param MyRow - (In) Local row.
\param NumEntries - (Out) Number of nonzero values.
\return Integer error code, set to 0 if successful, set to -1 if MyRow not valid.
\pre None.
\post Unchanged.
*/
int NumMyRowEntries(int MyRow, int & NumEntries) const;
//@}
//! @name Computational methods
//@{
//! Returns the result of a Epetra_JadMatrix multiplied by a Epetra_MultiVector X in Y.
/*!
\param In
TransA -If true, multiply by the transpose of matrix, otherwise just use matrix.
\param In
X - A Epetra_MultiVector of dimension NumVectors to multiply with matrix.
\param Out
Y -A Epetra_MultiVector of dimension NumVectorscontaining result.
\return Integer error code, set to 0 if successful.
*/
int Multiply(bool TransA, const Epetra_MultiVector& X, Epetra_MultiVector& Y) const;
//! Returns the result of a Epetra_JadMatrix solve with a Epetra_MultiVector X in Y (not implemented).
/*!
\param In
Upper -If true, solve Ux = y, otherwise solve Lx = y.
\param In
Trans -If true, solve transpose problem.
\param In
UnitDiagonal -If true, assume diagonal is unit (whether it's stored or not).
\param In
X - A Epetra_MultiVector of dimension NumVectors to solve for.
\param Out
Y -A Epetra_MultiVector of dimension NumVectors containing result.
\return Integer error code, set to 0 if successful.
*/
int Solve(bool Upper, bool Trans, bool UnitDiagonal,
const Epetra_MultiVector& X,
Epetra_MultiVector& Y) const
{
(void)Upper;
(void)Trans;
(void)UnitDiagonal;
(void)X;
(void)Y;
return(-1);
}
//@}
protected:
void GeneralMV(bool TransA, double * x, double * y) const;
void GeneralMM(bool TransA, double ** X, int LDX, double ** Y, int LDY, int NumVectors) const;
void GeneralMM3RHS(bool TransA, double ** X, int LDX, double ** Y, int LDY, int NumVectors) const;
void GeneralMM2RHS(bool TransA, double * x, int ldx, double * y, int ldy) const;
void Allocate(const Epetra_RowMatrix & Matrix);
Epetra_SerialDenseVector Values_;
Epetra_IntSerialDenseVector Indices_;
Epetra_IntSerialDenseVector IndexOffset_;
Epetra_IntSerialDenseVector Profile_;
Epetra_IntSerialDenseVector RowPerm_;
Epetra_IntSerialDenseVector InvRowPerm_;
int NumJaggedDiagonals_;
};
#endif /* EPETRA_JADMATRIX_H */
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