/usr/include/trilinos/Teko_LSCPreconditionerFactory.hpp is in libtrilinos-teko-dev 12.4.2-2.
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// Teko: A package for block and physics based preconditioning
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#ifndef __Teko_LSCPreconditionerFactory_hpp__
#define __Teko_LSCPreconditionerFactory_hpp__
#include "Teko_BlockPreconditionerFactory.hpp"
#include "Teko_LSCStrategy.hpp"
namespace Teko {
namespace NS { // Navier-Stokes specialization
/** \brief Preconditioner state for the LSC factory.
*
* Preconditioner state for the LSC factory. This is based
* on the notation and concepts found in
*
* Elman, Howle, Shadid, Silvester, and Tuminaro, "Least Squares Preconditioners
* for Stabilized Discretizations of the Navier-Stokes Euqations," SISC-2007.
*/
class LSCPrecondState : public BlockPreconditionerState {
public:
LSCPrecondState() {}
//! Inverse mass operator (\f$Q_u^{-1}\f$)
LinearOp invMass_;
/** \f$B Q_u^{-1} B^T\f$
*/
ModifiableLinearOp BQBt_;
/** \f$B H B^T\f$
*/
ModifiableLinearOp BHBt_;
/** \f$B Q_u^{-1} B^T-\gamma C\f$
*/
LinearOp BQBtmC_;
InverseLinearOp invBQBtmC_;
/** \f$B H B^T-\gamma C\f$
*/
LinearOp BHBtmC_;
InverseLinearOp invBHBtmC_;
//! \f$\alpha D^{-1}\f$ where
LinearOp aiD_;
//! \f$\gamma = \rho(Q_u^{-1} F / 3)\f$
double gamma_;
/** \f$\alpha = 1/\rho(B \; diag(F)^{-1} B^T D^{-1})\f$ where
* \f$D = diag(B \; diag(F)^{-1} B^T + C)\f$.
*/
double alpha_;
};
class LSCPreconditionerFactory
: public BlockPreconditionerFactory {
public:
//! \name Constructors
//@{
//! Staiblized constructor
LSCPreconditionerFactory(const LinearOp & invF,const LinearOp & invBQBtmC,
const LinearOp & invD,const LinearOp & invMass);
//! Stable constructor
LSCPreconditionerFactory(const LinearOp & invF,
const LinearOp & invBQBtmC,
const LinearOp & invMass);
//! fully generic constructor
LSCPreconditionerFactory(const Teuchos::RCP<LSCStrategy> & strategy);
//! Default constructor
LSCPreconditionerFactory();
//@}
//! for PreconditionerFactoryBase
virtual LinearOp buildPreconditionerOperator(BlockedLinearOp & blo,BlockPreconditionerState & state) const;
//! Build the LSCPrecondState object
virtual RCP<PreconditionerState> buildPreconditionerState() const
{ return rcp(new LSCPrecondState()); }
//! For assiting in construction of the preconditioner
virtual Teuchos::RCP<Teuchos::ParameterList> getRequestedParameters() const;
//! For assiting in construction of the preconditioner
virtual bool updateRequestedParameters(const Teuchos::ParameterList & pl);
protected:
// Gimmie object
Teuchos::RCP<LSCStrategy> invOpsStrategy_;
bool isSymmetric_;
//! Initialize from a parameter list
virtual void initializeFromParameterList(const Teuchos::ParameterList & pl);
public:
/** \brief Builder function for creating strategies.
*
* Builder function for creating strategies.
*
* \param[in] name String name of strategy to build
* \param[in] settings Parameter list describing the parameters for the
* strategy to build
* \param[in] invLib Inverse library for the strategy to use.
*
* \returns If the name is associated with a strategy
* a pointer is returned, otherwise Teuchos::null is returned.
*/
static RCP<LSCStrategy>
buildStrategy(const std::string & name,
const Teuchos::ParameterList & settings,
const RCP<const InverseLibrary> & invLib,
const RCP<RequestHandler> & rh);
/** \brief Add a strategy to the builder. This is done using the
* clone pattern.
*
* Add a strategy to the builder. This is done using the
* clone pattern. If your class does not support the Cloneable interface then
* you can use the AutoClone class to construct your object.
*
* \note If this method is called twice with the same string, the latter clone pointer
* will be used.
*
* \param[in] name String to associate with this object
* \param[in] clone Pointer to Cloneable object
*/
static void addStrategy(const std::string & name,const RCP<Cloneable> & clone);
private:
//! for creating the strategy objects
static CloneFactory<LSCStrategy> strategyBuilder_;
//! This is where the default objects are put into the strategyBuilder_
static void initializeStrategyBuilder();
};
} // end namespace NS
} // end namespace Teko
#endif
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