/usr/include/trilinos/Teko_MultPreconditionerFactory.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_MultiPreconditionerFactory_hpp__
#define __Teko_MultiPreconditionerFactory_hpp__
#include "Teko_BlockPreconditionerFactory.hpp"
#include "Teko_Utilities.hpp"
#include "Teko_BlockImplicitLinearOp.hpp"
namespace Teko {
/** Preconditioning factories must supply a 'State' class which
* is where data specific to the preconditioner construction
* is stored. The constructor will be invoked elsewhere.
*/
class MultPrecondState : public Teko::BlockPreconditionerState {
public:
MultPrecondState() {}
Teuchos::RCP<BlockPreconditionerState> StateOne_;
Teuchos::RCP<BlockPreconditionerState> StateTwo_;
};
/** Declaration of a Teko::BlockImplicitLinearOp.
* BlockImplicitLinearOp's are useful
* when there is no simple or cheap matrix representation
* of something like f(r). This particular class
* corresponds to
* f(r) = (M2 + M1 - M2 * A * M1) r
*
* which is an application of a multiplicative preconditioner.
* Notice that when M1 = inv(A) or when M2 = inv(A), we get
* f(r) = inv(A)*r.
*
* While the above matrix represenation could be used
* instead of writing an implicit function, it requires
* an additional matrix-vector product than an efficient
* implementation. It should be noted (see comments below)
* that there is an efficient matrix represenation of this
* f(r). Namely,
*
* f(r) = [M2 I] [I -A] [ I]
* [0 I] [ M1]
*
* so we didn't really need to create an implicit operator.
*/
class MultPrecsLinearOp : public Teko::BlockImplicitLinearOp {
public:
//! Constructor
MultPrecsLinearOp(const Teko::LinearOp &A, const Teko::LinearOp &M1,
const Teko::LinearOp &M2): A_(A), M1_(M1), M2_(M2) { }
virtual Teko::VectorSpace range() const { return M1_->range(); }
virtual Teko::VectorSpace domain() const { return M1_->domain();}
virtual void implicitApply(const Teko::BlockedMultiVector & r, Teko::BlockedMultiVector & y,
const double alpha = 1.0, const double beta = 0.0) const;
protected:
Teko::LinearOp A_, M1_, M2_;
private:
// hide me!
MultPrecsLinearOp();
MultPrecsLinearOp(const MultPrecsLinearOp &);
};
/** Declaration of preconditioner factory that creates
* a preconditioner which is the multiplicative combination
* of two other preconditioners.
*/
class MultPreconditionerFactory
: public Teko::BlockPreconditionerFactory {
public:
//! Constructor
MultPreconditionerFactory(const Teuchos::RCP<const Teko::BlockPreconditionerFactory> & FirstFactory,
const Teuchos::RCP<const Teko::BlockPreconditionerFactory> & SecondFactory);
MultPreconditionerFactory();
//! Function inherited from Teko::BlockPreconditionerFactory
Teko::LinearOp buildPreconditionerOperator(Teko::BlockedLinearOp & blo,
Teko::BlockPreconditionerState & state) const;
//! Build the MultPrecondState object
virtual Teuchos::RCP<Teko::PreconditionerState> buildPreconditionerState() const;
protected:
// class members
Teuchos::RCP<const Teko::BlockPreconditionerFactory> FirstFactory_;
Teuchos::RCP<const Teko::BlockPreconditionerFactory> SecondFactory_;
//! Initialize from a parameter list
virtual void initializeFromParameterList(const Teuchos::ParameterList & pl);
};
} // end namespace Teko
#endif
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