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Epetra_SerialDenseMatrix Class Reference

Epetra_SerialDenseMatrix: A class for constructing and using real double precision general dense matrices. More...

#include <Epetra_SerialDenseMatrix.h>

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Public Member Functions

Constructor/Destructor Methods
 Epetra_SerialDenseMatrix (bool set_object_label=true)
 Default constructor; defines a zero size object. More...
 
 Epetra_SerialDenseMatrix (int NumRows, int NumCols, bool set_object_label=true)
 Shaped constructor; defines a variable-sized object. More...
 
 Epetra_SerialDenseMatrix (Epetra_DataAccess CV, double *A_in, int LDA_in, int NumRows, int NumCols, bool set_object_label=true)
 Set object values from two-dimensional array. More...
 
 Epetra_SerialDenseMatrix (const Epetra_SerialDenseMatrix &Source)
 Epetra_SerialDenseMatrix copy constructor.
 
virtual ~Epetra_SerialDenseMatrix ()
 Epetra_SerialDenseMatrix destructor.
 
Shaping/sizing Methods
int Shape (int NumRows, int NumCols)
 Set dimensions of a Epetra_SerialDenseMatrix object; init values to zero. More...
 
int Reshape (int NumRows, int NumCols)
 Reshape a Epetra_SerialDenseMatrix object. More...
 
Mathematical methods
int Multiply (char TransA, char TransB, double ScalarAB, const Epetra_SerialDenseMatrix &A, const Epetra_SerialDenseMatrix &B, double ScalarThis)
 Matrix-Matrix multiplication, this = ScalarThis*this + ScalarAB*A*B. More...
 
int Multiply (bool transA, const Epetra_SerialDenseMatrix &x, Epetra_SerialDenseMatrix &y)
 Matrix-Vector multiplication, y = A*x, where 'this' == A.
 
int Multiply (char SideA, double ScalarAB, const Epetra_SerialSymDenseMatrix &A, const Epetra_SerialDenseMatrix &B, double ScalarThis)
 Matrix-Matrix multiplication with a symmetric matrix A. More...
 
int Scale (double ScalarA)
 Inplace scalar-matrix product A = a A. More...
 
virtual double NormOne () const
 Computes the 1-Norm of the this matrix. More...
 
virtual double NormInf () const
 Computes the Infinity-Norm of the this matrix.
 
Data Accessor methods
Epetra_SerialDenseMatrixoperator= (const Epetra_SerialDenseMatrix &Source)
 Value copy from one matrix to another. More...
 
bool operator== (const Epetra_SerialDenseMatrix &rhs) const
 Comparison operator. More...
 
bool operator!= (const Epetra_SerialDenseMatrix &rhs) const
 Inequality operator. More...
 
Epetra_SerialDenseMatrixoperator+= (const Epetra_SerialDenseMatrix &Source)
 Add one matrix to another. More...
 
double & operator() (int RowIndex, int ColIndex)
 Element access function. More...
 
const double & operator() (int RowIndex, int ColIndex) const
 Element access function. More...
 
double * operator[] (int ColIndex)
 Column access function. More...
 
const double * operator[] (int ColIndex) const
 Column access function. More...
 
int Random ()
 Set matrix values to random numbers. More...
 
int M () const
 Returns row dimension of system.
 
int N () const
 Returns column dimension of system.
 
double * A () const
 Returns pointer to the this matrix.
 
double * A ()
 Returns pointer to the this matrix.
 
int LDA () const
 Returns the leading dimension of the this matrix.
 
Epetra_DataAccess CV () const
 Returns the data access mode of the this matrix.
 
I/O methods
virtual void Print (std::ostream &os) const
 Print service methods; defines behavior of ostream << operator.
 
Deprecated methods (will be removed in later versions of this class)
virtual double OneNorm () const
 Computes the 1-Norm of the this matrix (identical to NormOne() method). More...
 
virtual double InfNorm () const
 Computes the Infinity-Norm of the this matrix (identical to NormInf() method).
 
Additional methods to support Epetra_SerialDenseOperator interface
virtual int SetUseTranspose (bool UseTranspose_in)
 If set true, transpose of this operator will be applied. More...
 
virtual int Apply (const Epetra_SerialDenseMatrix &X, Epetra_SerialDenseMatrix &Y)
 Returns the result of a Epetra_SerialDenseOperator applied to a Epetra_SerialDenseMatrix X in Y. More...
 
virtual int ApplyInverse (const Epetra_SerialDenseMatrix &X, Epetra_SerialDenseMatrix &Y)
 Returns the result of a Epetra_SerialDenseOperator inverse applied to an Epetra_SerialDenseMatrix X in Y. More...
 
virtual const char * Label () const
 Returns a character string describing the operator.
 
virtual bool UseTranspose () const
 Returns the current UseTranspose setting.
 
virtual bool HasNormInf () const
 Returns true if the this object can provide an approximate Inf-norm, false otherwise.
 
virtual int RowDim () const
 Returns the row dimension of operator.
 
virtual int ColDim () const
 Returns the column dimension of operator.
 
- Public Member Functions inherited from Epetra_CompObject
Epetra_CompObjectoperator= (const Epetra_CompObject &src)
 
 Epetra_CompObject ()
 Basic Epetra_CompObject constuctor.
 
 Epetra_CompObject (const Epetra_CompObject &Source)
 Epetra_CompObject copy constructor.
 
virtual ~Epetra_CompObject ()
 Epetra_CompObject destructor.
 
void SetFlopCounter (const Epetra_Flops &FlopCounter_in)
 Set the internal Epetra_Flops() pointer.
 
void SetFlopCounter (const Epetra_CompObject &CompObject)
 Set the internal Epetra_Flops() pointer to the flop counter of another Epetra_CompObject.
 
void UnsetFlopCounter ()
 Set the internal Epetra_Flops() pointer to 0 (no flops counted).
 
Epetra_FlopsGetFlopCounter () const
 Get the pointer to the Epetra_Flops() object associated with this object, returns 0 if none.
 
void ResetFlops () const
 Resets the number of floating point operations to zero for this multi-vector.
 
double Flops () const
 Returns the number of floating point operations with this multi-vector.
 
void UpdateFlops (int Flops_in) const
 Increment Flop count for this object.
 
void UpdateFlops (long int Flops_in) const
 Increment Flop count for this object.
 
void UpdateFlops (long long Flops_in) const
 Increment Flop count for this object.
 
void UpdateFlops (double Flops_in) const
 Increment Flop count for this object.
 
void UpdateFlops (float Flops_in) const
 Increment Flop count for this object.
 
- Public Member Functions inherited from Epetra_Object
 Epetra_Object (int TracebackModeIn=-1, bool set_label=true)
 Epetra_Object Constructor. More...
 
 Epetra_Object (const char *const Label, int TracebackModeIn=-1)
 Epetra_Object Constructor. More...
 
 Epetra_Object (const Epetra_Object &Object)
 Epetra_Object Copy Constructor. More...
 
virtual ~Epetra_Object ()
 Epetra_Object Destructor. More...
 
virtual int ReportError (const std::string Message, int ErrorCode) const
 Error reporting method.
 
virtual void SetLabel (const char *const Label)
 Epetra_Object Label definition using char *. More...
 
- Public Member Functions inherited from Epetra_SerialDenseOperator
virtual ~Epetra_SerialDenseOperator ()
 Destructor.
 
- Public Member Functions inherited from Epetra_BLAS
 Epetra_BLAS (void)
 Epetra_BLAS Constructor. More...
 
 Epetra_BLAS (const Epetra_BLAS &BLAS)
 Epetra_BLAS Copy Constructor. More...
 
virtual ~Epetra_BLAS (void)
 Epetra_BLAS Destructor.
 
float ASUM (const int N, const float *X, const int INCX=1) const
 Epetra_BLAS one norm function (SASUM).
 
double ASUM (const int N, const double *X, const int INCX=1) const
 Epetra_BLAS one norm function (DASUM).
 
float DOT (const int N, const float *X, const float *Y, const int INCX=1, const int INCY=1) const
 Epetra_BLAS dot product function (SDOT).
 
double DOT (const int N, const double *X, const double *Y, const int INCX=1, const int INCY=1) const
 Epetra_BLAS dot product function (DDOT).
 
float NRM2 (const int N, const float *X, const int INCX=1) const
 Epetra_BLAS norm function (SNRM2).
 
double NRM2 (const int N, const double *X, const int INCX=1) const
 Epetra_BLAS norm function (DNRM2).
 
void SCAL (const int N, const float ALPHA, float *X, const int INCX=1) const
 Epetra_BLAS vector scale function (SSCAL)
 
void SCAL (const int N, const double ALPHA, double *X, const int INCX=1) const
 Epetra_BLAS vector scale function (DSCAL)
 
void COPY (const int N, const float *X, float *Y, const int INCX=1, const int INCY=1) const
 Epetra_BLAS vector copy function (SCOPY)
 
void COPY (const int N, const double *X, double *Y, const int INCX=1, const int INCY=1) const
 Epetra_BLAS vector scale function (DCOPY)
 
int IAMAX (const int N, const float *X, const int INCX=1) const
 Epetra_BLAS arg maximum of absolute value function (ISAMAX)
 
int IAMAX (const int N, const double *X, const int INCX=1) const
 Epetra_BLAS arg maximum of absolute value function (IDAMAX)
 
void AXPY (const int N, const float ALPHA, const float *X, float *Y, const int INCX=1, const int INCY=1) const
 Epetra_BLAS vector update function (SAXPY)
 
void AXPY (const int N, const double ALPHA, const double *X, double *Y, const int INCX=1, const int INCY=1) const
 Epetra_BLAS vector update function (DAXPY)
 
void GEMV (const char TRANS, const int M, const int N, const float ALPHA, const float *A, const int LDA, const float *X, const float BETA, float *Y, const int INCX=1, const int INCY=1) const
 Epetra_BLAS matrix-vector multiply function (SGEMV)
 
void GEMV (const char TRANS, const int M, const int N, const double ALPHA, const double *A, const int LDA, const double *X, const double BETA, double *Y, const int INCX=1, const int INCY=1) const
 Epetra_BLAS matrix-vector multiply function (DGEMV)
 
void GEMM (const char TRANSA, const char TRANSB, const int M, const int N, const int K, const float ALPHA, const float *A, const int LDA, const float *B, const int LDB, const float BETA, float *C, const int LDC) const
 Epetra_BLAS matrix-matrix multiply function (SGEMM)
 
void GEMM (const char TRANSA, const char TRANSB, const int M, const int N, const int K, const double ALPHA, const double *A, const int LDA, const double *B, const int LDB, const double BETA, double *C, const int LDC) const
 Epetra_BLAS matrix-matrix multiply function (DGEMM)
 
void SYMM (const char SIDE, const char UPLO, const int M, const int N, const float ALPHA, const float *A, const int LDA, const float *B, const int LDB, const float BETA, float *C, const int LDC) const
 Epetra_BLAS symmetric matrix-matrix multiply function (SSYMM)
 
void SYMM (const char SIDE, const char UPLO, const int M, const int N, const double ALPHA, const double *A, const int LDA, const double *B, const int LDB, const double BETA, double *C, const int LDC) const
 Epetra_BLAS matrix-matrix multiply function (DSYMM)
 
void TRMM (const char SIDE, const char UPLO, const char TRANSA, const char DIAG, const int M, const int N, const float ALPHA, const float *A, const int LDA, float *B, const int LDB) const
 Epetra_BLAS triangular matrix-matrix multiply function (STRMM)
 
void TRMM (const char SIDE, const char UPLO, const char TRANSA, const char DIAG, const int M, const int N, const double ALPHA, const double *A, const int LDA, double *B, const int LDB) const
 Epetra_BLAS triangular matrix-matrix multiply function (DTRMM)
 
void SYRK (const char UPLO, const char TRANS, const int N, const int K, const float ALPHA, const float *A, const int LDA, const float BETA, float *C, const int LDC) const
 Eperta_BLAS symetric rank k funtion (ssyrk)
 
void SYRK (const char UPLO, const char TRANS, const int N, const int K, const double ALPHA, const double *A, const int LDA, const double BETA, double *C, const int LDC) const
 Eperta_BLAS symetric rank k funtion (dsyrk)
 

Protected Member Functions

void CopyMat (const double *Source, int Source_LDA, int NumRows, int NumCols, double *Target, int Target_LDA, bool add=false)
 
void CleanupData ()
 
- Protected Member Functions inherited from Epetra_Object
std::string toString (const int &x) const
 
std::string toString (const long long &x) const
 
std::string toString (const double &x) const
 

Protected Attributes

int M_
 
int N_
 
bool A_Copied_
 
Epetra_DataAccess CV_
 
int LDA_
 
double * A_
 
bool UseTranspose_
 
- Protected Attributes inherited from Epetra_CompObject
Epetra_FlopsFlopCounter_
 

Friends

class Epetra_VbrMatrix
 

Additional Inherited Members

- Static Public Member Functions inherited from Epetra_Object
static void SetTracebackMode (int TracebackModeValue)
 Set the value of the Epetra_Object error traceback report mode. More...
 
static int GetTracebackMode ()
 Get the value of the Epetra_Object error report mode.
 
static std::ostream & GetTracebackStream ()
 Get the output stream for error reporting.
 
- Static Public Attributes inherited from Epetra_Object
static int TracebackMode
 

Detailed Description

Epetra_SerialDenseMatrix: A class for constructing and using real double precision general dense matrices.

The Epetra_SerialDenseMatrix class enables the construction and use of real-valued, general,
double-precision dense matrices.  It is built on the BLAS, and derives from the Epetra_BLAS.

The Epetra_SerialDenseMatrix class is intended to provide very basic support for dense rectangular matrices.

Constructing Epetra_SerialDenseMatrix Objects

There are four Epetra_SerialDenseMatrix constructors. The first constructs a zero-sized object which should be made to appropriate length using the Shape() or Reshape() functions and then filled with the [] or () operators. The second constructs an object sized to the dimensions specified, which should be filled with the [] or () operators. The third is a constructor that accepts user data as a 2D array, and the fourth is a copy constructor. The third constructor has two data access modes (specified by the Epetra_DataAccess argument):

  1. Copy mode - Allocates memory and makes a copy of the user-provided data. In this case, the user data is not needed after construction.
  2. View mode - Creates a "view" of the user data. In this case, the user data is required to remain intact for the life of the object.
Warning
View mode is extremely dangerous from a data hiding perspective. Therefore, we strongly encourage users to develop code using Copy mode first and only use the View mode in a secondary optimization phase.

Extracting Data from Epetra_SerialDenseMatrix Objects

Once a Epetra_SerialDenseMatrix is constructed, it is possible to view the data via access functions.

Warning
Use of these access functions cam be extremely dangerous from a data hiding perspective.

Vector and Utility Functions

Once a Epetra_SerialDenseMatrix is constructed, several mathematical functions can be applied to the object. Specifically:

Counting floating point operations The Epetra_SerialDenseMatrix class has Epetra_CompObject as a base class. Thus, floating point operations are counted and accumulated in the Epetra_Flop object (if any) that was set using the SetFlopCounter() method in the Epetra_CompObject base class.

Constructor & Destructor Documentation

Epetra_SerialDenseMatrix::Epetra_SerialDenseMatrix ( bool  set_object_label = true)

Default constructor; defines a zero size object.

Epetra_SerialDenseMatrix objects defined by the default constructor should be sized with the Shape() or Reshape functions. Values should be defined by using the [] or () operators.

Epetra_SerialDenseMatrix::Epetra_SerialDenseMatrix ( int  NumRows,
int  NumCols,
bool  set_object_label = true 
)

Shaped constructor; defines a variable-sized object.

Parameters
InNumRows - Number of rows in object.
InNumCols - Number of columns in object.

Epetra_SerialDenseMatrix objects defined by the shaped constructor are already shaped to the dimensions given as a parameters. All values are initialized to 0. Calling this constructor is equivalent to using the default constructor, and then calling the Shape function on it. Values should be defined by using the [] or () operators.

Epetra_SerialDenseMatrix::Epetra_SerialDenseMatrix ( Epetra_DataAccess  CV,
double *  A_in,
int  LDA_in,
int  NumRows,
int  NumCols,
bool  set_object_label = true 
)

Set object values from two-dimensional array.

Parameters
InEpetra_DataAccess - Enumerated type set to Copy or View.
InA - Pointer to an array of double precision numbers. The first vector starts at A. The second vector starts at A+LDA, the third at A+2*LDA, and so on.
InLDA - The "Leading Dimension", or stride between vectors in memory.
InNumRows - Number of rows in object.
InNumCols - Number of columns in object.

See Detailed Description section for further discussion.

Member Function Documentation

virtual int Epetra_SerialDenseMatrix::Apply ( const Epetra_SerialDenseMatrix X,
Epetra_SerialDenseMatrix Y 
)
virtual

Returns the result of a Epetra_SerialDenseOperator applied to a Epetra_SerialDenseMatrix X in Y.

Parameters
InX - A Epetra_SerialDenseMatrix to multiply with operator.
OutY -A Epetra_SerialDenseMatrix containing result.
Returns
Integer error code, set to 0 if successful.

Implements Epetra_SerialDenseOperator.

virtual int Epetra_SerialDenseMatrix::ApplyInverse ( const Epetra_SerialDenseMatrix X,
Epetra_SerialDenseMatrix Y 
)
inlinevirtual

Returns the result of a Epetra_SerialDenseOperator inverse applied to an Epetra_SerialDenseMatrix X in Y.

Parameters
InX - A Epetra_SerialDenseMatrix to solve for.
OutY -A Epetra_SerialDenseMatrix containing result.
Returns
Integer error code, set to 0 if successful.

Implements Epetra_SerialDenseOperator.

int Epetra_SerialDenseMatrix::Multiply ( char  TransA,
char  TransB,
double  ScalarAB,
const Epetra_SerialDenseMatrix A,
const Epetra_SerialDenseMatrix B,
double  ScalarThis 
)

Matrix-Matrix multiplication, this = ScalarThis*this + ScalarAB*A*B.

This function performs a variety of matrix-matrix multiply operations.
Parameters
InTransA - Operate with the transpose of A if = 'T', else no transpose if = 'N'.
InTransB - Operate with the transpose of B if = 'T', else no transpose if = 'N'.
InScalarAB - Scalar to multiply with A*B.
InA - Dense Matrix.
InB - Dense Matrix.
InScalarThis - Scalar to multiply with this.
Returns
Integer error code, set to 0 if successful.

Referenced by Epetra_SerialDenseSVD::Apply().

int Epetra_SerialDenseMatrix::Multiply ( char  SideA,
double  ScalarAB,
const Epetra_SerialSymDenseMatrix A,
const Epetra_SerialDenseMatrix B,
double  ScalarThis 
)

Matrix-Matrix multiplication with a symmetric matrix A.

  If SideA = 'L', compute \e this = ScalarThis*\e this + ScalarAB*A*B.
  If SideA = 'R', compute \e this = ScalarThis*\e this + ScalarAB*B*A.

This function performs a variety of matrix-matrix multiply operations.

Parameters
InSideA - Specifies order of A relative to B.
InScalarAB - Scalar to multiply with A*B.
InA - Symmetric Dense Matrix, either upper or lower triangle will be used depending on value of A.Upper().
InB - Dense Matrix.
InScalarThis - Scalar to multiply with this.
Returns
Integer error code, set to 0 if successful.
virtual double Epetra_SerialDenseMatrix::NormOne ( ) const
virtual

Computes the 1-Norm of the this matrix.

Returns
Integer error code, set to 0 if successful.

Reimplemented in Epetra_SerialSymDenseMatrix.

virtual double Epetra_SerialDenseMatrix::OneNorm ( ) const
inlinevirtual

Computes the 1-Norm of the this matrix (identical to NormOne() method).

Returns
Integer error code, set to 0 if successful.

Reimplemented in Epetra_SerialSymDenseMatrix.

bool Epetra_SerialDenseMatrix::operator!= ( const Epetra_SerialDenseMatrix rhs) const
inline

Inequality operator.

operator!= simply returns the negation of operator==.

double & Epetra_SerialDenseMatrix::operator() ( int  RowIndex,
int  ColIndex 
)
inline

Element access function.

The parentheses operator returns the element in the ith row and jth column if A(i,j) is specified, the expression A[j][i] (note that i and j are reversed) will return the same element. Thus, A(i,j) = A[j][i] for all valid i and j.

Returns
Element from the specified row and column.
\warning No bounds checking is done unless Epetra is compiled with HAVE_EPETRA_ARRAY_BOUNDS_CHECK.

References Epetra_Object::ReportError().

const double & Epetra_SerialDenseMatrix::operator() ( int  RowIndex,
int  ColIndex 
) const
inline

Element access function.

The parentheses operator returns the element in the ith row and jth column if A(i,j) is specified, the expression A[j][i] (note that i and j are reversed) will return the same element. Thus, A(i,j) = A[j][i] for all valid i and j.

Returns
Element from the specified row and column.
\warning No bounds checking is done unless Epetra is compiled with HAVE_EPETRA_ARRAY_BOUNDS_CHECK.

References Epetra_Object::ReportError().

Epetra_SerialDenseMatrix& Epetra_SerialDenseMatrix::operator+= ( const Epetra_SerialDenseMatrix Source)

Add one matrix to another.

The operator+= allows one to add the values from one existin SerialDenseMatrix to another, as long as there is enough room in the target to hold the source.

Returns
Values of the left hand side matrix are modified by the addition of the values of the right hand side matrix.
Epetra_SerialDenseMatrix& Epetra_SerialDenseMatrix::operator= ( const Epetra_SerialDenseMatrix Source)

Value copy from one matrix to another.

The operator= allows one to copy the values from one existing SerialDenseMatrix to another, as long as there is enough room in the target to hold the source.

Returns
Values of the left hand side matrix are modified by the values of the right hand side matrix.
bool Epetra_SerialDenseMatrix::operator== ( const Epetra_SerialDenseMatrix rhs) const

Comparison operator.

operator== compares two Epetra_SerialDenseMatrix objects, returns false if sizes are different, or if any coefficients differ by an amount greater than Epetra_MinDouble.

double * Epetra_SerialDenseMatrix::operator[] ( int  ColIndex)
inline

Column access function.

The parentheses operator returns the element in the ith row and jth column if A(i,j) is specified, the expression A[j][i] (note that i and j are reversed) will return the same element. Thus, A(i,j) = A[j][i] for all valid i and j.

Returns
Pointer to address of specified column.
Warning
No bounds checking can be done for the index i in the expression A[j][i].
No bounds checking is done unless Epetra is compiled with HAVE_EPETRA_ARRAY_BOUNDS_CHECK.

References Epetra_Object::ReportError().

const double * Epetra_SerialDenseMatrix::operator[] ( int  ColIndex) const
inline

Column access function.

The parentheses operator returns the element in the ith row and jth column if A(i,j) is specified, the expression A[j][i] (note that i and j are reversed) will return the same element. Thus, A(i,j) = A[j][i] for all valid i and j.

Returns
Pointer to address of specified column.
Warning
No bounds checking can be done for the index i in the expression A[j][i].
No bounds checking is done unless Epetra is compiled with HAVE_EPETRA_ARRAY_BOUNDS_CHECK.

References Epetra_Object::ReportError().

int Epetra_SerialDenseMatrix::Random ( )

Set matrix values to random numbers.

SerialDenseMatrix uses the random number generator provided by Epetra_Util. The matrix values will be set to random values on the interval (-1.0, 1.0).

Returns
Integer error code, set to 0 if successful.
int Epetra_SerialDenseMatrix::Reshape ( int  NumRows,
int  NumCols 
)

Reshape a Epetra_SerialDenseMatrix object.

Parameters
InNumRows - Number of rows in object.
InNumCols - Number of columns in object.

Allows user to define the dimensions of a Epetra_SerialDenseMatrix at any point. This function can be called at any point after construction. Any values that were previously in this object are copied into the new shape. If the new shape is smaller than the original, the upper left portion of the original matrix (the principal submatrix) is copied to the new matrix.

Returns
Integer error code, set to 0 if successful.

Referenced by Epetra_SerialSymDenseMatrix::Reshape(), and Epetra_SerialDenseVector::Resize().

int Epetra_SerialDenseMatrix::Scale ( double  ScalarA)

Inplace scalar-matrix product A = a A.

Scale a matrix, entry-by-entry using the value ScalarA.
Parameters
ScalarA(In) Scalar to multiply with A.
Returns
Integer error code, set to 0 if successful.
virtual int Epetra_SerialDenseMatrix::SetUseTranspose ( bool  UseTranspose_in)
inlinevirtual

If set true, transpose of this operator will be applied.

This flag allows the transpose of the given operator to be used implicitly.  Setting this flag
affects only the Apply() and ApplyInverse() methods.  If the implementation of this interface
does not support transpose use, this method should return a value of -1.
Parameters
InUseTranspose -If true, multiply by the transpose of operator, otherwise just use operator.
Returns
Integer error code, set to 0 if successful. Set to -1 if this implementation does not support transpose.

Implements Epetra_SerialDenseOperator.

int Epetra_SerialDenseMatrix::Shape ( int  NumRows,
int  NumCols 
)

Set dimensions of a Epetra_SerialDenseMatrix object; init values to zero.

Parameters
InNumRows - Number of rows in object.
InNumCols - Number of columns in object.

Allows user to define the dimensions of a Epetra_SerialDenseMatrix at any point. This function can be called at any point after construction. Any values that were previously in this object are destroyed and the resized matrix starts off with all zero values.

Returns
Integer error code, set to 0 if successful.

Referenced by Epetra_SerialSymDenseMatrix::Shape(), and Epetra_SerialDenseVector::Size().


The documentation for this class was generated from the following file: