/usr/include/trilinos/Teko_PCDStrategy.hpp is in libtrilinos-teko-dev 12.4.2-2.
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// Teko: A package for block and physics based preconditioning
// Copyright 2010 Sandia Corporation
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#ifndef __Teko_PCDStrategy_hpp__
#define __Teko_PCDStrategy_hpp__
#include "Teko_LU2x2Strategy.hpp"
// Teuchos includes
#include "Teuchos_Time.hpp"
namespace Teko {
namespace NS {
/** @brief Strategy for computing implementation of the
* Pressure convection diffusion preconditioner.
*
* This requires the user to add a "PCD Operator",
* "Pressure Laplace Operator" and "Press Mass Operators"
* into the preconditioner state. The user is notified by
* boolean fields returned from the requested paramters list.
*/
class PCDStrategy : public LU2x2Strategy {
public:
//! default Constructor
PCDStrategy();
//! Constructor to set the inverse factories.
PCDStrategy(const Teuchos::RCP<InverseFactory> & invFA,
const Teuchos::RCP<InverseFactory> & invS);
//! Destructor (does nothing)
virtual ~PCDStrategy() {}
/** returns the first (approximate) inverse of \f$A_{00}\f$ */
virtual const Teko::LinearOp
getHatInvA00(const Teko::BlockedLinearOp & A,BlockPreconditionerState & state) const;
/** returns the second (approximate) inverse of \f$A_{00}\f$ */
virtual const Teko::LinearOp
getTildeInvA00(const Teko::BlockedLinearOp & A,BlockPreconditionerState & state) const;
/** returns an (approximate) inverse of \f$S = -A_{11} + A_{10} \mbox{diag}(A_{00})^{-1} A_{01}\f$ */
virtual const Teko::LinearOp
getInvS(const Teko::BlockedLinearOp & A,BlockPreconditionerState & state) const;
/** \brief This function builds the internals of the state from a parameter list.
*
* \param[in] settings Parameter list to use as the internal settings
* \param[in] invLib Inverse library to use for building inverse factory objects
*
* \note The default implementation does nothing.
*/
virtual void initializeFromParameterList(const Teuchos::ParameterList & settings,
const InverseLibrary & invLib);
/** \brief Request the additional parameters this preconditioner factory
* needs.
*
* Request the additonal parameters needed by this preconditioner factory.
* The parameter list will have a set of fields that can be filled with
* the requested values. These fields include all requirements, even those
* of the sub-solvers if there are any. Once correctly filled the object
* can be updated by calling the updateRequestedParameters with the filled
* parameter list.
*
* For the PCD strategy the following fields are required to be set to
* true, they are passed to the user as false. The user acknowledges that
* the operators are required by updating the parameters to true.
* <ul>
* <li><ParameterList name="PCD Operator" type="bool" value="false"/></li>
* <li><ParameterList name="Pressure Laplace Operator" type="bool" value="false"/></li>
* <li><ParameterList name="Pressure Mass Operator" type="bool" value="false"/></li>
* </ul>
*
* \returns A parameter list with the requested parameters.
*
* \note The default implementation returns Teuchos::null.
*/
virtual Teuchos::RCP<Teuchos::ParameterList> getRequestedParameters() const;
/** \brief Update this object with the fields from a parameter list.
*
* Update the requested fields using a parameter list. This method is
* expected to pair with the getRequestedParameters method (i.e. the fields
* requested are going to be update using this method).
*
* For the PCD strategy the following fields are required to be set to
* true. Essentially, the user is acknowledging that the operators are
* required.
* <ul>
* <li><ParameterList name="PCD Operator" type="bool" value="true"/></li>
* <li><ParameterList name="Pressure Laplace Operator" type="bool" value="true"/></li>
* <li><ParameterList name="Pressure Mass Operator" type="bool" value="true"/></li>
* </ul>
*
* \param[in] pl Parameter list containing the requested parameters.
*
* \returns If the method succeeded (found all its required parameters) this
* method returns true, otherwise it returns false.
*
* \note The default implementation returns true (it does nothing!).
*/
virtual bool updateRequestedParameters(const Teuchos::ParameterList & pl);
protected:
/** Build timers for this type of object.
*/
static void buildTimers();
/** Initialize the operator's state. This builds the Schur complement and the inverse
* operators. If the state has already been initialized this method does nothing.
*
* \param[in] A Operator to intialize with.
* \param[in] state Storage object for this operator.
*/
void initializeState(const Teko::BlockedLinearOp & A,BlockPreconditionerState & state) const;
// how to invert the matrices
Teuchos::RCP<InverseFactory> invFactoryF_; // for \tilde{A_00}\f$
Teuchos::RCP<InverseFactory> invFactoryS_;
DiagonalType massInverseType_;
//! Passed to application for construction of laplace operator
Teuchos::RCP<Teuchos::ParameterList> lapParams_;
//! Passed to application for construction of PCD operator
Teuchos::RCP<Teuchos::ParameterList> pcdParams_;
bool schurCompOrdering_;
static Teuchos::RCP<Teuchos::Time> initTimer_;
static Teuchos::RCP<Teuchos::Time> invSTimer_;
static Teuchos::RCP<Teuchos::Time> invFTimer_;
static Teuchos::RCP<Teuchos::Time> opsTimer_;
public:
// some static functions for determining strings
static std::string getPCDString() { return "PCD Operator"; }
static std::string getPressureLaplaceString() { return "Pressure Laplace Operator"; }
static std::string getPressureMassString() { return "Pressure Mass Matrix"; }
};
} // end namespace NS
} // end namespace Teko
#endif
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