/usr/include/trilinos/MueLu_IfpackSmoother.hpp is in libtrilinos-muelu-dev 12.4.2-2.
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//
// ***********************************************************************
//
// MueLu: A package for multigrid based preconditioning
// Copyright 2012 Sandia Corporation
//
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// @HEADER
#ifndef MUELU_IFPACKSMOOTHER_HPP
#define MUELU_IFPACKSMOOTHER_HPP
#include "MueLu_ConfigDefs.hpp"
#if defined(HAVE_MUELU_EPETRA) && defined(HAVE_MUELU_IFPACK)
#include <Teuchos_ParameterList.hpp>
#include <Xpetra_Matrix.hpp>
#include "Xpetra_MultiVectorFactory_fwd.hpp"
class Ifpack_Preconditioner;
#include "MueLu_SmootherPrototype.hpp"
#include "MueLu_Exceptions.hpp"
#include "MueLu_Level_fwd.hpp"
#include "MueLu_FactoryBase_fwd.hpp"
#include "MueLu_Utilities_fwd.hpp"
namespace MueLu {
/*!
@class IfpackSmoother
@ingroup MueLuSmootherClasses
@brief Class that encapsulates Ifpack smoothers.
This class creates an Ifpack preconditioner factory. The factory creates a smoother based on the
type and ParameterList passed into the constructor. See the constructor for more information.
*/
class IfpackSmoother : public SmootherPrototype<double,int,int> {
typedef double Scalar;
typedef int LocalOrdinal;
typedef int GlobalOrdinal;
typedef KokkosClassic::DefaultNode::DefaultNodeType Node;
#undef MUELU_IFPACKSMOOTHER_SHORT
#include "MueLu_UseShortNames.hpp"
public:
//! @name Constructors / destructors
//@{
/*! @brief Constructor
The options passed into IfpackSmoother are those given in the Ifpack user's manual.
@param type smoother type
@param list options for the particular smoother (e.g., fill factor or damping parameter)
Here is how to select some of the most common smoothers.
- Gauss-Seidel
- <tt>type</tt> = <tt>point relaxation stand-alone</tt>
- parameter list options
- <tt>relaxation: type</tt> = <tt>Gauss-Seidel</tt>
- <tt>relaxation: damping factor</tt>
- symmetric Gauss-Seidel
- <tt>type</tt> = <tt>point relaxation stand-alone</tt>
- parameter list options
- <tt>relaxation: type</tt> = <tt>symmetric Gauss-Seidel</tt>
- <tt>relaxation: damping factor</tt>
- Chebyshev
- <tt>type</tt> = <tt>Chebyshev</tt>
- parameter list options
- <tt>chebyshev: ratio eigenvalue</tt>
- <tt>chebyshev: min eigenvalue</tt>
- <tt>chebyshev: max eigenvalue</tt>
- <tt>chebyshev: degree</tt>
- <tt>chebyshev: zero starting solution</tt> (defaults to <tt>true</tt>)
- ILU
- <tt>type</tt> = <tt>ILU</tt>
- parameter list options
- <tt>fact: level-of-fill</tt>
See also Ifpack_PointRelaxation, Ifpack_Chebyshev, Ifpack_ILU.
*/
IfpackSmoother(std::string const & type, Teuchos::ParameterList const & paramList = Teuchos::ParameterList(), LO const &overlap=0); //TODO: empty paramList valid for Ifpack??
//! Destructor
virtual ~IfpackSmoother() { }
//@}
void SetParameterList(const Teuchos::ParameterList& paramList);
//! Input
//@{
void DeclareInput(Level ¤tLevel) const;
//@}
//! @name Computational methods.
//@{
/*! @brief Set up the smoother.
This creates the underlying Ifpack smoother object, copies any parameter list options
supplied to the constructor to the Ifpack object, and computes the preconditioner.
*/
void Setup(Level ¤tLevel);
/*! @brief Apply the preconditioner.
Solves the linear system <tt>AX=B</tt> using the constructed smoother.
@param X initial guess
@param B right-hand side
@param InitialGuessIsZero (optional) If false, some work can be avoided. Whether this actually saves any work depends on the underlying Ifpack implementation.
*/
void Apply(MultiVector& X, const MultiVector& B, bool InitialGuessIsZero = false) const;
//@}
//! @name Utilities
//@{
RCP<SmootherPrototype> Copy() const;
//@}
//! @name Overridden from Teuchos::Describable
//@{
//! Return a simple one-line description of this object.
std::string description() const;
//! Print the object with some verbosity level to an FancyOStream object.
//using MueLu::Describable::describe; // overloading, not hiding
//void describe(Teuchos::FancyOStream &out, const VerbLevel verbLevel = Default) const
void print(Teuchos::FancyOStream &out, const VerbLevel verbLevel = Default) const;
//@}
private:
void SetPrecParameters(const Teuchos::ParameterList& list = Teuchos::ParameterList()) const;
private:
//! ifpack-specific key phrase that denote smoother type
std::string type_;
//! overlap when using the smoother in additive Schwarz mode
LO overlap_;
//! Matrix. Not used directly, but held inside of prec_. So we have to keep an RCP pointer to it!
RCP<Matrix> A_;
//! pointer to Ifpack solver object
// Note: prec_ must be destroyed before A_, so declaration of prec_ appears after declaration of A_
RCP<Ifpack_Preconditioner> prec_;
}; // class IfpackSmoother
//! Non-member templated function GetIfpackSmoother() returns a new IfpackSmoother object when <Scalar, LocalOrdinal, GlobalOrdinal> == <double, int, int>. Otherwise, an exception is thrown.
//! This function simplifies the usage of IfpackSmoother objects inside of templates as templates do not have to be specialized for <double, int, int> (see DirectSolver for an example).
template <class Scalar, class LocalOrdinal, class GlobalOrdinal, class Node>
RCP<MueLu::SmootherPrototype<Scalar, LocalOrdinal, GlobalOrdinal, Node> >
GetIfpackSmoother (const std::string& type = "",
const Teuchos::ParameterList& paramList = Teuchos::ParameterList (),
const LocalOrdinal& overlap = 0)
{
TEUCHOS_TEST_FOR_EXCEPTION(true, Exceptions::RuntimeError, "IfpackSmoother cannot be used with Scalar != double, LocalOrdinal != int, GlobalOrdinal != int");
return Teuchos::null;
}
template <>
inline RCP<MueLu::SmootherPrototype<double, int, int> >
GetIfpackSmoother<double, int, int> (const std::string& type,
const Teuchos::ParameterList& paramList,
const int& overlap)
{
return rcp (new IfpackSmoother (type, paramList, overlap));
}
} // namespace MueLu
#define MUELU_IFPACKSMOOTHER_SHORT
#endif // HAVE_MUELU_EPETRA && HAVE_MUELU_IFPACK
#endif // MUELU_IFPACKSMOOTHER_HPP
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