EpetraExt Package Browser (Single Doxygen Collection)  Development
 All Classes Namespaces Files Functions Variables Typedefs Enumerations Enumerator Friends Macros Groups Pages
Public Member Functions | Static Public Member Functions | Static Private Member Functions | List of all members
EpetraExt::MatrixMatrix Class Reference

Collection of matrix-matrix operations. More...

#include <EpetraExt_MatrixMatrix.h>

Public Member Functions

virtual ~MatrixMatrix ()
 destructor More...
 

Static Public Member Functions

static int Multiply (const Epetra_CrsMatrix &A, bool transposeA, const Epetra_CrsMatrix &B, bool transposeB, Epetra_CrsMatrix &C, bool call_FillComplete_on_result=true, bool keep_all_hard_zeros=false)
 Given Epetra_CrsMatrix objects A, B and C, form the product C = A*B. More...
 
static int Add (const Epetra_CrsMatrix &A, bool transposeA, double scalarA, Epetra_CrsMatrix &B, double scalarB)
 Given Epetra_CrsMatrix objects A and B, form the sum B = a*A + b*B. More...
 
static int Add (const Epetra_CrsMatrix &A, bool transposeA, double scalarA, const Epetra_CrsMatrix &B, bool transposeB, double scalarB, Epetra_CrsMatrix *&C)
 Given Epetra_CrsMatrix objects A and B, form the sum C = a*A + b*B. More...
 
static int Jacobi (double omega, const Epetra_Vector &Dinv, const Epetra_CrsMatrix &A, const Epetra_CrsMatrix &B, Epetra_CrsMatrix &C, bool call_FillComplete_on_result=true)
 
Given Epetra_CrsMatrix objects A, B and C, and Epetra_Vector Dinv, form the product C = (I-omega * Dinv A)*B

In a parallel setting, A and B need not have matching distributions, but C needs to have the same row-map as A. More...

 

Static Private Member Functions

template<typename int_type >
static int Tmult_A_B (const Epetra_CrsMatrix &A, CrsMatrixStruct &Aview, const Epetra_CrsMatrix &B, CrsMatrixStruct &Bview, Epetra_CrsMatrix &C, bool call_FillComplete_on_result, bool keep_all_hard_zeros)
 
static int mult_A_B (const Epetra_CrsMatrix &A, CrsMatrixStruct &Aview, const Epetra_CrsMatrix &B, CrsMatrixStruct &Bview, Epetra_CrsMatrix &C, bool call_FillComplete_on_result, bool keep_all_hard_zeros)
 
template<typename int_type >
static int Tmult_AT_B_newmatrix (const CrsMatrixStruct &Atransview, const CrsMatrixStruct &Bview, Epetra_CrsMatrix &C, bool keep_all_hard_zeros)
 
static int mult_AT_B_newmatrix (const CrsMatrixStruct &Atransview, const CrsMatrixStruct &Bview, Epetra_CrsMatrix &C, bool keep_all_hard_zeros)
 
template<typename int_type >
static int TMultiply (const Epetra_CrsMatrix &A, bool transposeA, const Epetra_CrsMatrix &B, bool transposeB, Epetra_CrsMatrix &C, bool call_FillComplete_on_result, bool keep_all_hard_zeros)
 
template<typename int_type >
static int TAdd (const Epetra_CrsMatrix &A, bool transposeA, double scalarA, Epetra_CrsMatrix &B, double scalarB)
 
template<typename int_type >
static int TAdd (const Epetra_CrsMatrix &A, bool transposeA, double scalarA, const Epetra_CrsMatrix &B, bool transposeB, double scalarB, Epetra_CrsMatrix *&C)
 
template<typename int_type >
static int Tjacobi_A_B (double omega, const Epetra_Vector &Dinv, const Epetra_CrsMatrix &A, CrsMatrixStruct &Aview, const Epetra_CrsMatrix &B, CrsMatrixStruct &Bview, Epetra_CrsMatrix &C, bool call_FillComplete_on_result)
 
static int jacobi_A_B (double omega, const Epetra_Vector &Dinv, const Epetra_CrsMatrix &A, CrsMatrixStruct &Aview, const Epetra_CrsMatrix &B, CrsMatrixStruct &Bview, Epetra_CrsMatrix &C, bool call_FillComplete_on_result)
 
template<typename int_type >
static int TJacobi (double omega, const Epetra_Vector &Dinv, const Epetra_CrsMatrix &A, const Epetra_CrsMatrix &B, Epetra_CrsMatrix &C, bool call_FillComplete_on_result)
 

Detailed Description

Collection of matrix-matrix operations.

This class basically functions as a namespace, containing only static methods. See the program epetraext/test/MatrixMatrix/cxx_main.cpp for a usage example.

Definition at line 69 of file EpetraExt_MatrixMatrix.h.

Constructor & Destructor Documentation

virtual EpetraExt::MatrixMatrix::~MatrixMatrix ( )
inlinevirtual

destructor

Definition at line 73 of file EpetraExt_MatrixMatrix.h.

Member Function Documentation

int EpetraExt::MatrixMatrix::Multiply ( const Epetra_CrsMatrix A,
bool  transposeA,
const Epetra_CrsMatrix B,
bool  transposeB,
Epetra_CrsMatrix C,
bool  call_FillComplete_on_result = true,
bool  keep_all_hard_zeros = false 
)
static

Given Epetra_CrsMatrix objects A, B and C, form the product C = A*B.

In a parallel setting, A and B need not have matching distributions, but C needs to have the same row-map as A.

Parameters
AInput, must already have had 'FillComplete()' called.
transposeAInput, whether to use transpose of matrix A.
BInput, must already have had 'FillComplete()' called.
transposeBInput, whether to use transpose of matrix B.
CResult. On entry to this method, it doesn't matter whether FillComplete() has already been called on C or not. If it has, then C's graph must already contain all nonzero locations that will be produced when forming the product A*B. On exit, C.FillComplete() will have been called, unless the last argument to this function is specified to be false.
call_FillComplete_on_resultOptional argument, defaults to true. Power users may specify this argument to be false if they DON'T want this function to call C.FillComplete. (It is often useful to allow this function to call C.FillComplete, in cases where one or both of the input matrices are rectangular and it is not trivial to know which maps to use for the domain- and range-maps.)
keep_all_hard_zerosOptional argument, defaults to false. If true, Multiply, keeps all entries in C corresponding to hard zeros. If false, the following happens by case: A*B^T, A^T*B^T - Does not store entries caused by hard zeros in C. A^T*B (unoptimized) - Hard zeros are always stored (this option has no effect) A*B, A^T*B (optimized) - Hard zeros in corresponding to hard zeros in A are not stored, There are certain cases involving reuse of C, where this can be useful.
Returns
error-code, 0 if successful. non-zero returns may result if A or B are not already Filled, or if errors occur in putting values into C, etc.

Definition at line 1304 of file EpetraExt_MatrixMatrix.cpp.

int EpetraExt::MatrixMatrix::Add ( const Epetra_CrsMatrix A,
bool  transposeA,
double  scalarA,
Epetra_CrsMatrix B,
double  scalarB 
)
static

Given Epetra_CrsMatrix objects A and B, form the sum B = a*A + b*B.

Parameters
AInput, must already have had 'FillComplete()' called.
transposeAInput, whether to use transpose of matrix A.
scalarAInput, scalar multiplier for matrix A.
BResult. On entry to this method, it doesn't matter whether FillComplete() has already been called on B or not. If it has, then B's graph must already contain all nonzero locations that will be produced when forming the sum.
scalarBInput, scalar multiplier for matrix B.
Returns
error-code, 0 if successful. non-zero returns may result if A is not already Filled, or if errors occur in putting values into B, etc.

Definition at line 1423 of file EpetraExt_MatrixMatrix.cpp.

int EpetraExt::MatrixMatrix::Add ( const Epetra_CrsMatrix A,
bool  transposeA,
double  scalarA,
const Epetra_CrsMatrix B,
bool  transposeB,
double  scalarB,
Epetra_CrsMatrix *&  C 
)
static

Given Epetra_CrsMatrix objects A and B, form the sum C = a*A + b*B.

Parameters
AInput, must already have had 'FillComplete()' called.
transposeAInput, whether to use transpose of matrix A.
scalarAInput, scalar multiplier for matrix A.
BInput, must already have had 'FillComplete()' called.
transposeBInput, whether to use transpose of matrix B.
scalarBInput, scalar multiplier for matrix B.
CResult. On entry to this method, C can be NULL or a pointer to an unfilled or filled matrix. If C is NULL then a new object is allocated and must be deleted by the user. If C is not NULL and FillComplete has already been called then the sparsity pattern is assumed to be fixed and compatible with the sparsity of A+B. If FillComplete has not been called then the sum is completed and the function returns without calling FillComplete on C.
Returns
error-code, 0 if successful. non-zero returns may result if A or is not already Filled, or if errors occur in putting values into C, etc.

Definition at line 1532 of file EpetraExt_MatrixMatrix.cpp.

int EpetraExt::MatrixMatrix::Jacobi ( double  omega,
const Epetra_Vector Dinv,
const Epetra_CrsMatrix A,
const Epetra_CrsMatrix B,
Epetra_CrsMatrix C,
bool  call_FillComplete_on_result = true 
)
static

Given Epetra_CrsMatrix objects A, B and C, and Epetra_Vector Dinv, form the product C = (I-omega * Dinv A)*B

In a parallel setting, A and B need not have matching distributions, but C needs to have the same row-map as A.

Parameters
omegaInput, scalar multiplier for Dinverse A
DinvInput, Epetra_Vector representing a diagonal matrix, must match A's RowMap
AInput, must already have had 'FillComplete()' called.
BInput, must already have had 'FillComplete()' called.
CResult. On entry to this method, it doesn't matter whether FillComplete() has already been called on C or not. If it has, then C's graph must already contain all nonzero locations that will be produced when forming the product A*B. On exit, C.FillComplete() will have been called, unless the last argument to this function is specified to be false.
call_FillComplete_on_resultOptional argument, defaults to true. Power users may specify this argument to be false if they DON'T want this function to call C.FillComplete. (It is often useful to allow this function to call C.FillComplete, in cases where one or both of the input matrices are rectangular and it is not trivial to know which maps to use for the domain- and range-maps.)
Returns
error-code, 0 if successful. non-zero returns may result if A or B are not already Filled, or if errors occur in putting values into C, etc.

Definition at line 1695 of file EpetraExt_MatrixMatrix.cpp.

template<typename int_type >
int EpetraExt::MatrixMatrix::Tmult_A_B ( const Epetra_CrsMatrix A,
CrsMatrixStruct Aview,
const Epetra_CrsMatrix B,
CrsMatrixStruct Bview,
Epetra_CrsMatrix C,
bool  call_FillComplete_on_result,
bool  keep_all_hard_zeros 
)
staticprivate

Definition at line 914 of file EpetraExt_MatrixMatrix_mult_A_B.cpp.

int EpetraExt::MatrixMatrix::mult_A_B ( const Epetra_CrsMatrix A,
CrsMatrixStruct Aview,
const Epetra_CrsMatrix B,
CrsMatrixStruct Bview,
Epetra_CrsMatrix C,
bool  call_FillComplete_on_result,
bool  keep_all_hard_zeros 
)
staticprivate

Definition at line 1041 of file EpetraExt_MatrixMatrix_mult_A_B.cpp.

template<typename int_type >
int EpetraExt::MatrixMatrix::Tmult_AT_B_newmatrix ( const CrsMatrixStruct Atransview,
const CrsMatrixStruct Bview,
Epetra_CrsMatrix C,
bool  keep_all_hard_zeros 
)
staticprivate

Definition at line 1559 of file EpetraExt_MatrixMatrix_mult_A_B.cpp.

int EpetraExt::MatrixMatrix::mult_AT_B_newmatrix ( const CrsMatrixStruct Atransview,
const CrsMatrixStruct Bview,
Epetra_CrsMatrix C,
bool  keep_all_hard_zeros 
)
staticprivate

Definition at line 1616 of file EpetraExt_MatrixMatrix_mult_A_B.cpp.

template<typename int_type >
int EpetraExt::MatrixMatrix::TMultiply ( const Epetra_CrsMatrix A,
bool  transposeA,
const Epetra_CrsMatrix B,
bool  transposeB,
Epetra_CrsMatrix C,
bool  call_FillComplete_on_result,
bool  keep_all_hard_zeros 
)
staticprivate

Definition at line 1082 of file EpetraExt_MatrixMatrix.cpp.

template<typename int_type >
int EpetraExt::MatrixMatrix::TAdd ( const Epetra_CrsMatrix A,
bool  transposeA,
double  scalarA,
Epetra_CrsMatrix B,
double  scalarB 
)
staticprivate

Definition at line 1329 of file EpetraExt_MatrixMatrix.cpp.

template<typename int_type >
int EpetraExt::MatrixMatrix::TAdd ( const Epetra_CrsMatrix A,
bool  transposeA,
double  scalarA,
const Epetra_CrsMatrix B,
bool  transposeB,
double  scalarB,
Epetra_CrsMatrix *&  C 
)
staticprivate

Definition at line 1445 of file EpetraExt_MatrixMatrix.cpp.

template<typename int_type >
int EpetraExt::MatrixMatrix::Tjacobi_A_B ( double  omega,
const Epetra_Vector Dinv,
const Epetra_CrsMatrix A,
CrsMatrixStruct Aview,
const Epetra_CrsMatrix B,
CrsMatrixStruct Bview,
Epetra_CrsMatrix C,
bool  call_FillComplete_on_result 
)
staticprivate

Definition at line 1403 of file EpetraExt_MatrixMatrix_mult_A_B.cpp.

int EpetraExt::MatrixMatrix::jacobi_A_B ( double  omega,
const Epetra_Vector Dinv,
const Epetra_CrsMatrix A,
CrsMatrixStruct Aview,
const Epetra_CrsMatrix B,
CrsMatrixStruct Bview,
Epetra_CrsMatrix C,
bool  call_FillComplete_on_result 
)
staticprivate

Definition at line 1529 of file EpetraExt_MatrixMatrix_mult_A_B.cpp.

template<typename int_type >
int EpetraExt::MatrixMatrix::TJacobi ( double  omega,
const Epetra_Vector Dinv,
const Epetra_CrsMatrix A,
const Epetra_CrsMatrix B,
Epetra_CrsMatrix C,
bool  call_FillComplete_on_result 
)
staticprivate

Definition at line 1559 of file EpetraExt_MatrixMatrix.cpp.


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