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Thyra::DefaultInverseLinearOp< Scalar > Class Template Reference

Concrete LinearOpBase subclass that creates an implicit LinearOpBase object using the inverse action of a LinearOpWithSolveBase object. More...

#include <Thyra_DefaultInverseLinearOp_decl.hpp>

Inheritance diagram for Thyra::DefaultInverseLinearOp< Scalar >:
Inheritance graph
[legend]

Related Functions

(Note that these are not member functions.)

template<class Scalar >
RCP< LinearOpBase< Scalar > > nonconstInverse (const RCP< LinearOpWithSolveBase< Scalar > > &A, const Ptr< const SolveCriteria< Scalar > > &fwdSolveCriteria=Teuchos::null, const EThrowOnSolveFailure throwOnFwdSolveFailure=THROW_ON_SOLVE_FAILURE, const Ptr< const SolveCriteria< Scalar > > &adjSolveCriteria=Teuchos::null, const EThrowOnSolveFailure throwOnAdjSolveFailure=THROW_ON_SOLVE_FAILURE)
 Form a non-const implicit inverse operator M = inv(A). More...
 
template<class Scalar >
RCP< LinearOpBase< Scalar > > inverse (const RCP< const LinearOpWithSolveBase< Scalar > > &A, const Ptr< const SolveCriteria< Scalar > > &fwdSolveCriteria=Teuchos::null, const EThrowOnSolveFailure throwOnFwdSolveFailure=THROW_ON_SOLVE_FAILURE, const Ptr< const SolveCriteria< Scalar > > &adjSolveCriteria=Teuchos::null, const EThrowOnSolveFailure throwOnAdjSolveFailure=THROW_ON_SOLVE_FAILURE)
 Form a const implicit inverse operator M = inv(A). More...
 

Constructors/initializers/accessors

 DefaultInverseLinearOp ()
 Constructs to uninitialized (see postconditions for uninitialize()). More...
 
 DefaultInverseLinearOp (const RCP< LinearOpWithSolveBase< Scalar > > &lows, const SolveCriteria< Scalar > *fwdSolveCriteria=NULL, const EThrowOnSolveFailure throwOnFwdSolveFailure=THROW_ON_SOLVE_FAILURE, const SolveCriteria< Scalar > *adjSolveCriteria=NULL, const EThrowOnSolveFailure throwOnAdjSolveFailure=THROW_ON_SOLVE_FAILURE)
 
 DefaultInverseLinearOp (const RCP< const LinearOpWithSolveBase< Scalar > > &lows, const SolveCriteria< Scalar > *fwdSolveCriteria=NULL, const EThrowOnSolveFailure throwOnFwdSolveFailure=THROW_ON_SOLVE_FAILURE, const SolveCriteria< Scalar > *adjSolveCriteria=NULL, const EThrowOnSolveFailure throwOnAdjSolveFailure=THROW_ON_SOLVE_FAILURE)
 
void initialize (const RCP< LinearOpWithSolveBase< Scalar > > &lows, const SolveCriteria< Scalar > *fwdSolveCriteria=NULL, const EThrowOnSolveFailure throwOnFwdSolveFailure=THROW_ON_SOLVE_FAILURE, const SolveCriteria< Scalar > *adjSolveCriteria=NULL, const EThrowOnSolveFailure throwOnAdjSolveFailure=THROW_ON_SOLVE_FAILURE)
 Initialize given a non-const LinearOpWithSolveBase object and an optional . More...
 
void initialize (const RCP< const LinearOpWithSolveBase< Scalar > > &lows, const SolveCriteria< Scalar > *fwdSolveCriteria=NULL, const EThrowOnSolveFailure throwOnFwdSolveFailure=THROW_ON_SOLVE_FAILURE, const SolveCriteria< Scalar > *adjSolveCriteria=NULL, const EThrowOnSolveFailure throwOnAdjSolveFailure=THROW_ON_SOLVE_FAILURE)
 Initialize given a non-const LinearOpWithSolveBase object and an optional . More...
 
void uninitialize ()
 Set to uninitialized. More...
 

Overridden from InverseLinearOpBase

bool isLowsConst () const
 
RCP< LinearOpWithSolveBase
< Scalar > > 
getNonconstLows ()
 
RCP< const
LinearOpWithSolveBase< Scalar > > 
getLows () const
 

Overridden from LinearOpBase

RCP< const VectorSpaceBase
< Scalar > > 
range () const
 Returns this->getLows()->domain() if <t>this->getLows().get()!=NULL and returns Teuchos::null otherwise. More...
 
RCP< const VectorSpaceBase
< Scalar > > 
domain () const
 Returns this->getLows()->range() if <t>this->getLows().get()!=NULL and returns Teuchos::null otherwise. More...
 
RCP< const LinearOpBase< Scalar > > clone () const
 
bool opSupportedImpl (EOpTransp M_trans) const
 Returns true only if all constituent operators support M_trans. More...
 
void applyImpl (const EOpTransp M_trans, const MultiVectorBase< Scalar > &X, const Ptr< MultiVectorBase< Scalar > > &Y, const Scalar alpha, const Scalar beta) const
 

Overridden from Teuchos::Describable

std::string description () const
 
void describe (FancyOStream &out, const Teuchos::EVerbosityLevel verbLevel) const
 

Additional Inherited Members

- Public Member Functions inherited from Thyra::LinearOpBase< Scalar >
bool opSupported (EOpTransp M_trans) const
 Return if the M_trans operation of apply() is supported or not. More...
 
void apply (const EOpTransp M_trans, const MultiVectorBase< Scalar > &X, const Ptr< MultiVectorBase< Scalar > > &Y, const Scalar alpha, const Scalar beta) const
 Apply the linear operator to a multi-vector : Y = alpha*op(M)*X + beta*Y. More...
 
- Protected Member Functions inherited from Thyra::LinearOpBase< Scalar >

Detailed Description

template<class Scalar>
class Thyra::DefaultInverseLinearOp< Scalar >

Concrete LinearOpBase subclass that creates an implicit LinearOpBase object using the inverse action of a LinearOpWithSolveBase object.

This class represents an implicit inverse linear operator:

M = inv(A)

where A is any LinearOpWithSolveBase object. Specifically, the solve(...) function A is used to implement this->apply() and the solveTranspose(...) function A is used to implement this->applyTranspose().

SolveCriteria objects can be associated with A to define the solve criterion for calling the A.solve(...,fwdSolveCriteria) and A.solveTranspose(...,adjSolveCriteria).

Definition at line 86 of file Thyra_DefaultInverseLinearOp_decl.hpp.

Constructor & Destructor Documentation

template<class Scalar >
Thyra::DefaultInverseLinearOp< Scalar >::DefaultInverseLinearOp ( )

Constructs to uninitialized (see postconditions for uninitialize()).

Definition at line 59 of file Thyra_DefaultInverseLinearOp_def.hpp.

template<class Scalar >
Thyra::DefaultInverseLinearOp< Scalar >::DefaultInverseLinearOp ( const RCP< LinearOpWithSolveBase< Scalar > > &  lows,
const SolveCriteria< Scalar > *  fwdSolveCriteria = NULL,
const EThrowOnSolveFailure  throwOnFwdSolveFailure = THROW_ON_SOLVE_FAILURE,
const SolveCriteria< Scalar > *  adjSolveCriteria = NULL,
const EThrowOnSolveFailure  throwOnAdjSolveFailure = THROW_ON_SOLVE_FAILURE 
)

Calls initialize().

Definition at line 64 of file Thyra_DefaultInverseLinearOp_def.hpp.

template<class Scalar >
Thyra::DefaultInverseLinearOp< Scalar >::DefaultInverseLinearOp ( const RCP< const LinearOpWithSolveBase< Scalar > > &  lows,
const SolveCriteria< Scalar > *  fwdSolveCriteria = NULL,
const EThrowOnSolveFailure  throwOnFwdSolveFailure = THROW_ON_SOLVE_FAILURE,
const SolveCriteria< Scalar > *  adjSolveCriteria = NULL,
const EThrowOnSolveFailure  throwOnAdjSolveFailure = THROW_ON_SOLVE_FAILURE 
)

Calls initialize().

Rather than calling this constructor directly, consider using the non-member helper functions described here.

Definition at line 80 of file Thyra_DefaultInverseLinearOp_def.hpp.

Member Function Documentation

template<class Scalar >
void Thyra::DefaultInverseLinearOp< Scalar >::initialize ( const RCP< LinearOpWithSolveBase< Scalar > > &  lows,
const SolveCriteria< Scalar > *  fwdSolveCriteria = NULL,
const EThrowOnSolveFailure  throwOnFwdSolveFailure = THROW_ON_SOLVE_FAILURE,
const SolveCriteria< Scalar > *  adjSolveCriteria = NULL,
const EThrowOnSolveFailure  throwOnAdjSolveFailure = THROW_ON_SOLVE_FAILURE 
)

Initialize given a non-const LinearOpWithSolveBase object and an optional .

Parameters
lows[in] The LinearOpWithSolveBase object that will solve(...) and/or solveTranspose(...) will be called on. Note that *this may give up non-const views of *lows so that *lows may be changed through clients of this object.
fwdSolveCriteria[in] The criteria used to call lows->solve(...). If fwdSolveCriteria==NULL then the default solve criteria built into *lows will be used. If fwdSolveCriteria!=NULL then *fwdSolveCriteria will be copied internally. Warning! If shallow copy is used by any parameters in fwdSolveCriteria->extraParameter these these parameters will be "remembered" by *this.
adjSolveCriteria[in] The criteria used to call lows->solveTranspose(...). If adjSolveCriteria==NULL then the default solve criteria built into *lows will be used. If adjSolveCriteria!=NULL then *adjSolveCriteria will be copied internally. Warning! If shallow copy is used by any parameters in adjSolveCriteria->extraParameter these these parameters will be "remembered" by *this.

Preconditions:

  • lows.get() != NULL

Postconditions:

Definition at line 96 of file Thyra_DefaultInverseLinearOp_def.hpp.

template<class Scalar >
void Thyra::DefaultInverseLinearOp< Scalar >::initialize ( const RCP< const LinearOpWithSolveBase< Scalar > > &  lows,
const SolveCriteria< Scalar > *  fwdSolveCriteria = NULL,
const EThrowOnSolveFailure  throwOnFwdSolveFailure = THROW_ON_SOLVE_FAILURE,
const SolveCriteria< Scalar > *  adjSolveCriteria = NULL,
const EThrowOnSolveFailure  throwOnAdjSolveFailure = THROW_ON_SOLVE_FAILURE 
)

Initialize given a non-const LinearOpWithSolveBase object and an optional .

Parameters
lows[in] The LinearOpWithSolveBase object that will solve(...) and/or solveTranspose(...) will be called on. Note that *this may give up non-const views of *lows so that *lows may be changed through clients of this object.
fwdSolveCriteria[in] The criteria used to call lows->solve(...). If fwdSolveCriteria==NULL then the default solve criteria built into *lows will be used. If fwdSolveCriteria!=NULL then *fwdSolveCriteria will be copied internally. Warning! If shallow copy is used by any parameters in fwdSolveCriteria->extraParameter these these parameters will be "remembered" by *this.
adjSolveCriteria[in] The criteria used to call lows->solveTranspose(...). If adjSolveCriteria==NULL then the default solve criteria built into *lows will be used. If adjSolveCriteria!=NULL then *adjSolveCriteria will be copied internally. Warning! If shallow copy is used by any parameters in adjSolveCriteria->extraParameter these these parameters will be "remembered" by *this.

Preconditions:

  • lows.get() != NULL

Postconditions:

Definition at line 112 of file Thyra_DefaultInverseLinearOp_def.hpp.

template<class Scalar >
void Thyra::DefaultInverseLinearOp< Scalar >::uninitialize ( )

Set to uninitialized.

Postconditions:

Definition at line 128 of file Thyra_DefaultInverseLinearOp_def.hpp.

template<class Scalar >
bool Thyra::DefaultInverseLinearOp< Scalar >::isLowsConst ( ) const
virtual
template<class Scalar >
Teuchos::RCP< LinearOpWithSolveBase< Scalar > > Thyra::DefaultInverseLinearOp< Scalar >::getNonconstLows ( )
virtual
template<class Scalar >
Teuchos::RCP< const LinearOpWithSolveBase< Scalar > > Thyra::DefaultInverseLinearOp< Scalar >::getLows ( ) const
virtual
template<class Scalar >
Teuchos::RCP< const VectorSpaceBase< Scalar > > Thyra::DefaultInverseLinearOp< Scalar >::range ( ) const
virtual

Returns this->getLows()->domain() if <t>this->getLows().get()!=NULL and returns Teuchos::null otherwise.

Implements Thyra::LinearOpBase< Scalar >.

Definition at line 167 of file Thyra_DefaultInverseLinearOp_def.hpp.

template<class Scalar >
Teuchos::RCP< const VectorSpaceBase< Scalar > > Thyra::DefaultInverseLinearOp< Scalar >::domain ( ) const
virtual

Returns this->getLows()->range() if <t>this->getLows().get()!=NULL and returns Teuchos::null otherwise.

Implements Thyra::LinearOpBase< Scalar >.

Definition at line 176 of file Thyra_DefaultInverseLinearOp_def.hpp.

template<class Scalar >
Teuchos::RCP< const LinearOpBase< Scalar > > Thyra::DefaultInverseLinearOp< Scalar >::clone ( ) const
virtual

Reimplemented from Thyra::LinearOpBase< Scalar >.

Definition at line 185 of file Thyra_DefaultInverseLinearOp_def.hpp.

template<class Scalar >
std::string Thyra::DefaultInverseLinearOp< Scalar >::description ( ) const
virtual

Reimplemented from Teuchos::Describable.

Definition at line 195 of file Thyra_DefaultInverseLinearOp_def.hpp.

template<class Scalar >
void Thyra::DefaultInverseLinearOp< Scalar >::describe ( FancyOStream out,
const Teuchos::EVerbosityLevel  verbLevel 
) const

Definition at line 210 of file Thyra_DefaultInverseLinearOp_def.hpp.

template<class Scalar >
bool Thyra::DefaultInverseLinearOp< Scalar >::opSupportedImpl ( EOpTransp  M_trans) const
protectedvirtual

Returns true only if all constituent operators support M_trans.

Implements Thyra::LinearOpBase< Scalar >.

Definition at line 255 of file Thyra_DefaultInverseLinearOp_def.hpp.

template<class Scalar >
void Thyra::DefaultInverseLinearOp< Scalar >::applyImpl ( const EOpTransp  M_trans,
const MultiVectorBase< Scalar > &  X,
const Ptr< MultiVectorBase< Scalar > > &  Y,
const Scalar  alpha,
const Scalar  beta 
) const
protectedvirtual

Friends And Related Function Documentation

template<class Scalar >
RCP< LinearOpBase< Scalar > > nonconstInverse ( const RCP< LinearOpWithSolveBase< Scalar > > &  A,
const Ptr< const SolveCriteria< Scalar > > &  fwdSolveCriteria = Teuchos::null,
const EThrowOnSolveFailure  throwOnFwdSolveFailure = THROW_ON_SOLVE_FAILURE,
const Ptr< const SolveCriteria< Scalar > > &  adjSolveCriteria = Teuchos::null,
const EThrowOnSolveFailure  throwOnAdjSolveFailure = THROW_ON_SOLVE_FAILURE 
)
related

Form a non-const implicit inverse operator M = inv(A).

template<class Scalar >
RCP< LinearOpBase< Scalar > > inverse ( const RCP< const LinearOpWithSolveBase< Scalar > > &  A,
const Ptr< const SolveCriteria< Scalar > > &  fwdSolveCriteria = Teuchos::null,
const EThrowOnSolveFailure  throwOnFwdSolveFailure = THROW_ON_SOLVE_FAILURE,
const Ptr< const SolveCriteria< Scalar > > &  adjSolveCriteria = Teuchos::null,
const EThrowOnSolveFailure  throwOnAdjSolveFailure = THROW_ON_SOLVE_FAILURE 
)
related

Form a const implicit inverse operator M = inv(A).


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