Dune::LoopSolver< X > Class Template Reference

Preconditioned loop solver. More...

#include <dune/istl/solvers.hh>

Public Types
typedef X	domain_type
	The domain type of the operator that we do the inverse for.
typedef X	range_type
	The range type of the operator that we do the inverse for.
typedef X::field_type	field_type
	The field type of the operator that we do the inverse for.

Public Member Functions
template<class L , class P >
	LoopSolver (L &op, P &prec, double reduction, int maxit, int verbose)
	Set up Loop solver. More...
template<class L , class S , class P >
	LoopSolver (L &op, S &sp, P &prec, double reduction, int maxit, int verbose)
	Set up loop solver. More...
virtual void	apply (X &x, X &b, InverseOperatorResult &res)
	Apply inverse operator,. More...
virtual void	apply (X &x, X &b, double reduction, InverseOperatorResult &res)
	apply inverse operator, with given convergence criteria. More...

Protected Member Functions
void	printHeader (std::ostream &s) const
	helper function for printing header of solver output
void	printOutput (std::ostream &s, const double iter, const DataType &norm, const DataType &norm_old) const
	helper function for printing solver output
void	printOutput (std::ostream &s, const double iter, const DataType &norm) const
	helper function for printing solver output

Detailed Description

template<class X>
class Dune::LoopSolver< X >

Preconditioned loop solver.

Implements a preconditioned loop. Using this class every Preconditioner can be turned into a solver. The solver will apply one preconditioner step in each iteration loop.

Constructor & Destructor Documentation

LoopSolver() [1/2]

template<class X >

template<class L , class P >

Dune::LoopSolver< X >::LoopSolver ( L &  op, P &  prec, double  reduction, int  maxit, int  verbose  )

inline

Set up Loop solver.

Parameters

op	The operator we solve.
prec	The preconditioner to apply in each iteration of the loop. Has to inherit from Preconditioner.
reduction	The relative defect reduction to achieve when applying the operator.
maxit	The maximum number of iteration steps allowed when applying the operator.
verbose	The verbosity level.

Verbose levels are:

• 0 : print nothing
• 1 : print initial and final defect and statistics
• 2 : print line for each iteration

References dune_static_assert, and Dune::SolverCategory::sequential.

LoopSolver() [2/2]

template<class X >

template<class L , class S , class P >

Dune::LoopSolver< X >::LoopSolver ( L &  op, S &  sp, P &  prec, double  reduction, int  maxit, int  verbose  )

inline

Set up loop solver.

Parameters

op	The operator we solve.
sp	The scalar product to use, e. g. SeqScalarproduct.
prec	The preconditioner to apply in each iteration of the loop. Has to inherit from Preconditioner.
reduction	The relative defect reduction to achieve when applying the operator.
maxit	The maximum number of iteration steps allowed when applying the operator.
verbose	The verbosity level.

Verbose levels are:

• 0 : print nothing
• 1 : print initial and final defect and statistics
• 2 : print line for each iteration

References dune_static_assert.

Member Function Documentation

apply() [1/2]

template<class X >

virtual void Dune::LoopSolver< X >::apply ( X &  x, X &  b, double  reduction, InverseOperatorResult &  res  )

inlinevirtual

apply inverse operator, with given convergence criteria.

Warning

Right hand side b may be overwritten!

Parameters

x	The left hand side to store the result in.
b	The right hand side
reduction	The minimum defect reduction to achieve.
res	Object to store the statistics about applying the operator.

Implements Dune::InverseOperator< X, X >.

apply() [2/2]

template<class X >

virtual void Dune::LoopSolver< X >::apply ( X &  x, X &  b, InverseOperatorResult &  res  )

inlinevirtual

Apply inverse operator,.

Warning

Note: right hand side b may be overwritten!

Parameters

x	The left hand side to store the result in.
b	The right hand side
res	Object to store the statistics about applying the operator.

Implements Dune::InverseOperator< X, X >.

References Dune::Preconditioner< X, Y >::apply(), Dune::LinearOperator< X, Y >::applyscaleadd(), Dune::InverseOperatorResult::clear(), Dune::InverseOperatorResult::conv_rate, Dune::InverseOperatorResult::converged, Dune::Timer::elapsed(), Dune::InverseOperatorResult::elapsed, Dune::InverseOperatorResult::iterations, Dune::Preconditioner< X, Y >::post(), Dune::Preconditioner< X, Y >::pre(), Dune::InverseOperator< X, X >::printHeader(), Dune::InverseOperator< X, X >::printOutput(), and Dune::InverseOperatorResult::reduction.

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

• dune/istl/solvers.hh