mfem::ComplexUMFPackSolver Class Reference

Interface with UMFPack solver specialized for ComplexSparseMatrix This approach avoids forming a monolithic SparseMatrix which leads to increased memory and flops. More...

#include <complex_operator.hpp>

Inheritance diagram for mfem::ComplexUMFPackSolver:

Collaboration diagram for mfem::ComplexUMFPackSolver:

Public Member Functions
	ComplexUMFPackSolver (bool use_long_ints_=false, bool transa_=false)
	For larger matrices, if the solver fails, set the parameter use_long_ints_ = true. More...
	ComplexUMFPackSolver (ComplexSparseMatrix &A, bool use_long_ints_=false, bool transa_=false)
	Factorize the given ComplexSparseMatrix using the defaults. For larger matrices, if the solver fails, set the parameter use_long_ints_ = true. More...
virtual void	SetOperator (const Operator &op)
	Factorize the given Operator op which must be a ComplexSparseMatrix. More...
void	SetPrintLevel (int print_lvl)
void	SetTransposeSolve (bool transa_)
virtual void	Mult (const Vector &b, Vector &x) const
	This is solving the system A x = b. More...
virtual void	MultTranspose (const Vector &b, Vector &x) const
	This is solving the system: A^H x = b (when transa = false) This is equivalent to solving the transpose block system for the case of Convention = HERMITIAN A^T x = b (when transa = true) This is equivalent to solving the transpose block system for the case of Convention = BLOCK_SYMMETRIC. More...
virtual	~ComplexUMFPackSolver ()
Public Member Functions inherited from mfem::Solver
	Solver (int s=0, bool iter_mode=false)
	Initialize a square Solver with size s. More...
	Solver (int h, int w, bool iter_mode=false)
	Initialize a Solver with height h and width w. More...
Public Member Functions inherited from mfem::Operator
void	InitTVectors (const Operator *Po, const Operator *Ri, const Operator *Pi, Vector &x, Vector &b, Vector &X, Vector &B) const
	Initializes memory for true vectors of linear system. More...
	Operator (int s=0)
	Construct a square Operator with given size s (default 0). More...
	Operator (int h, int w)
	Construct an Operator with the given height (output size) and width (input size). More...
int	Height () const
	Get the height (size of output) of the Operator. Synonym with NumRows(). More...
int	NumRows () const
	Get the number of rows (size of output) of the Operator. Synonym with Height(). More...
int	Width () const
	Get the width (size of input) of the Operator. Synonym with NumCols(). More...
int	NumCols () const
	Get the number of columns (size of input) of the Operator. Synonym with Width(). More...
virtual MemoryClass	GetMemoryClass () const
	Return the MemoryClass preferred by the Operator. More...
virtual void	AddMult (const Vector &x, Vector &y, const double a=1.0) const
	Operator application: y+=A(x) (default) or y+=a*A(x). More...
virtual void	AddMultTranspose (const Vector &x, Vector &y, const double a=1.0) const
	Operator transpose application: y+=A^t(x) (default) or y+=a*A^t(x). More...
virtual void	ArrayMult (const Array< const Vector *> &X, Array< Vector *> &Y) const
	Operator application on a matrix: Y=A(X). More...
virtual void	ArrayMultTranspose (const Array< const Vector *> &X, Array< Vector *> &Y) const
	Action of the transpose operator on a matrix: Y=A^t(X). More...
virtual void	ArrayAddMult (const Array< const Vector *> &X, Array< Vector *> &Y, const double a=1.0) const
	Operator application on a matrix: Y+=A(X) (default) or Y+=a*A(X). More...
virtual void	ArrayAddMultTranspose (const Array< const Vector *> &X, Array< Vector *> &Y, const double a=1.0) const
	Operator transpose application on a matrix: Y+=A^t(X) (default) or Y+=a*A^t(X). More...
virtual Operator &	GetGradient (const Vector &x) const
	Evaluate the gradient operator at the point x. The default behavior in class Operator is to generate an error. More...
virtual void	AssembleDiagonal (Vector &diag) const
	Computes the diagonal entries into diag. Typically, this operation only makes sense for linear Operators. In some cases, only an approximation of the diagonal is computed. More...
virtual const Operator *	GetProlongation () const
	Prolongation operator from linear algebra (linear system) vectors, to input vectors for the operator. NULL means identity. More...
virtual const Operator *	GetRestriction () const
	Restriction operator from input vectors for the operator to linear algebra (linear system) vectors. NULL means identity. More...
virtual const Operator *	GetOutputProlongation () const
	Prolongation operator from linear algebra (linear system) vectors, to output vectors for the operator. NULL means identity. More...
virtual const Operator *	GetOutputRestrictionTranspose () const
	Transpose of GetOutputRestriction, directly available in this form to facilitate matrix-free RAP-type operators. More...
virtual const Operator *	GetOutputRestriction () const
	Restriction operator from output vectors for the operator to linear algebra (linear system) vectors. NULL means identity. More...
void	FormLinearSystem (const Array< int > &ess_tdof_list, Vector &x, Vector &b, Operator *&A, Vector &X, Vector &B, int copy_interior=0)
	Form a constrained linear system using a matrix-free approach. More...
void	FormRectangularLinearSystem (const Array< int > &trial_tdof_list, const Array< int > &test_tdof_list, Vector &x, Vector &b, Operator *&A, Vector &X, Vector &B)
	Form a column-constrained linear system using a matrix-free approach. More...
virtual void	RecoverFEMSolution (const Vector &X, const Vector &b, Vector &x)
	Reconstruct a solution vector x (e.g. a GridFunction) from the solution X of a constrained linear system obtained from Operator::FormLinearSystem() or Operator::FormRectangularLinearSystem(). More...
void	FormSystemOperator (const Array< int > &ess_tdof_list, Operator *&A)
	Return in A a parallel (on truedofs) version of this square operator. More...
void	FormRectangularSystemOperator (const Array< int > &trial_tdof_list, const Array< int > &test_tdof_list, Operator *&A)
	Return in A a parallel (on truedofs) version of this rectangular operator (including constraints). More...
void	FormDiscreteOperator (Operator *&A)
	Return in A a parallel (on truedofs) version of this rectangular operator. More...
void	PrintMatlab (std::ostream &out, int n, int m=0) const
	Prints operator with input size n and output size m in Matlab format. More...
virtual void	PrintMatlab (std::ostream &out) const
	Prints operator in Matlab format. More...
virtual	~Operator ()
	Virtual destructor. More...
Type	GetType () const
	Return the type ID of the Operator class. More...

Public Attributes
double	Control [UMFPACK_CONTROL]
double	Info [UMFPACK_INFO]
Public Attributes inherited from mfem::Solver
bool	iterative_mode
	If true, use the second argument of Mult() as an initial guess. More...

Protected Member Functions
void	Init ()
Protected Member Functions inherited from mfem::Operator
void	FormConstrainedSystemOperator (const Array< int > &ess_tdof_list, ConstrainedOperator *&Aout)
	see FormSystemOperator() More...
void	FormRectangularConstrainedSystemOperator (const Array< int > &trial_tdof_list, const Array< int > &test_tdof_list, RectangularConstrainedOperator *&Aout)
	see FormRectangularSystemOperator() More...
Operator *	SetupRAP (const Operator *Pi, const Operator *Po)
	Returns RAP Operator of this, using input/output Prolongation matrices Pi corresponds to "P", Po corresponds to "Rt". More...

Protected Attributes
bool	use_long_ints
bool	transa
ComplexSparseMatrix *	mat
void *	Numeric
SuiteSparse_long *	AI
SuiteSparse_long *	AJ
Protected Attributes inherited from mfem::Operator
int	height
	Dimension of the output / number of rows in the matrix. More...
int	width
	Dimension of the input / number of columns in the matrix. More...

Additional Inherited Members
Public Types inherited from mfem::Operator
enum	DiagonalPolicy { DIAG_ZERO, DIAG_ONE, DIAG_KEEP }
	Defines operator diagonal policy upon elimination of rows and/or columns. More...
enum	Type {   ANY_TYPE, MFEM_SPARSEMAT, Hypre_ParCSR, PETSC_MATAIJ,   PETSC_MATIS, PETSC_MATSHELL, PETSC_MATNEST, PETSC_MATHYPRE,   PETSC_MATGENERIC, Complex_Operator, MFEM_ComplexSparseMat, Complex_Hypre_ParCSR,   Complex_DenseMat, MFEM_Block_Matrix, MFEM_Block_Operator }
	Enumeration defining IDs for some classes derived from Operator. More...

Detailed Description

Interface with UMFPack solver specialized for ComplexSparseMatrix This approach avoids forming a monolithic SparseMatrix which leads to increased memory and flops.

Definition at line 185 of file complex_operator.hpp.

Constructor & Destructor Documentation

ComplexUMFPackSolver() [1/2]

mfem::ComplexUMFPackSolver::ComplexUMFPackSolver ( bool  use_long_ints_ = false, bool  transa_ = false  )

inline

For larger matrices, if the solver fails, set the parameter use_long_ints_ = true.

Definition at line 203 of file complex_operator.hpp.

ComplexUMFPackSolver() [2/2]

mfem::ComplexUMFPackSolver::ComplexUMFPackSolver ( ComplexSparseMatrix &  A, bool  use_long_ints_ = false, bool  transa_ = false  )

inline

Factorize the given ComplexSparseMatrix using the defaults. For larger matrices, if the solver fails, set the parameter use_long_ints_ = true.

Definition at line 208 of file complex_operator.hpp.

~ComplexUMFPackSolver()

mfem::ComplexUMFPackSolver::~ComplexUMFPackSolver ( )

virtual

Definition at line 497 of file complex_operator.cpp.

Member Function Documentation

Init()

void mfem::ComplexUMFPackSolver::Init ( )

protected

Definition at line 259 of file complex_operator.cpp.

Mult()

void mfem::ComplexUMFPackSolver::Mult ( const Vector &  b, Vector &  x  ) const

virtual

This is solving the system A x = b.

Implements mfem::Operator.

Definition at line 377 of file complex_operator.cpp.

MultTranspose()

void mfem::ComplexUMFPackSolver::MultTranspose ( const Vector &  b, Vector &  x  ) const

virtual

This is solving the system: A^H x = b (when transa = false) This is equivalent to solving the transpose block system for the case of Convention = HERMITIAN A^T x = b (when transa = true) This is equivalent to solving the transpose block system for the case of Convention = BLOCK_SYMMETRIC.

Reimplemented from mfem::Operator.

Definition at line 434 of file complex_operator.cpp.

SetOperator()

void mfem::ComplexUMFPackSolver::SetOperator ( const Operator &  op )

virtual

Factorize the given Operator op which must be a ComplexSparseMatrix.

The factorization uses the parameters set in the Control data member.

Note

This method calls SparseMatrix::SortColumnIndices() for real and imag parts of the ComplexSparseMatrix, modifying the matrices if the column indices are not already sorted.

Implements mfem::Solver.

Definition at line 274 of file complex_operator.cpp.

SetPrintLevel()

void mfem::ComplexUMFPackSolver::SetPrintLevel ( int  print_lvl )

inline

Definition at line 222 of file complex_operator.hpp.

SetTransposeSolve()

void mfem::ComplexUMFPackSolver::SetTransposeSolve ( bool  transa_ )

inline

Definition at line 225 of file complex_operator.hpp.

Member Data Documentation

AI

SuiteSparse_long* mfem::ComplexUMFPackSolver::AI

protected

Definition at line 193 of file complex_operator.hpp.

AJ

SuiteSparse_long * mfem::ComplexUMFPackSolver::AJ

protected

Definition at line 193 of file complex_operator.hpp.

Control

double mfem::ComplexUMFPackSolver::Control[UMFPACK_CONTROL]

Definition at line 198 of file complex_operator.hpp.

Info

double mfem::ComplexUMFPackSolver::Info[UMFPACK_INFO]

mutable

Definition at line 199 of file complex_operator.hpp.

mat

ComplexSparseMatrix* mfem::ComplexUMFPackSolver::mat

protected

Definition at line 190 of file complex_operator.hpp.

Numeric

void* mfem::ComplexUMFPackSolver::Numeric

protected

Definition at line 192 of file complex_operator.hpp.

transa

bool mfem::ComplexUMFPackSolver::transa

protected

Definition at line 189 of file complex_operator.hpp.

use_long_ints

bool mfem::ComplexUMFPackSolver::use_long_ints

protected

Definition at line 188 of file complex_operator.hpp.

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

• linalg/complex_operator.hpp
• linalg/complex_operator.cpp