dune-pdelab  2.4.1
Public Types | Public Member Functions | List of all members
Dune::PDELab::ConvectionDiffusionTemporalResidualEstimator1< T > Class Template Reference

#include <dune/pdelab/localoperator/convectiondiffusionfem.hh>

Inheritance diagram for Dune::PDELab::ConvectionDiffusionTemporalResidualEstimator1< T >:
Inheritance graph

Public Types

enum  { doPatternVolume = false }
 
enum  { doPatternSkeleton = false }
 
enum  { doAlphaVolume = true }
 
typedef double RealType
 
Flags for the sparsity pattern
enum  { doPatternVolume }
 Whether to assemble the pattern on the elements, i.e. whether or not pattern_volume() should be called. More...
 
enum  { doPatternVolumePostSkeleton }
 Whether to assemble the pattern on the elements after the skeleton has been handled, i.e. whether or not pattern_volume_post_skeleton() should be called. More...
 
enum  { doPatternSkeleton }
 Whether to assemble the pattern on the interior intersections, i.e. whether or not pattern_skeleton() should be called. More...
 
enum  { doPatternBoundary }
 Whether to assemble the pattern on the boundary intersections, i.e. whether or not pattern_boundary() should be called. More...
 
Flags for the non-constant part of the residual and the jacobian
enum  { doAlphaVolume }
 Whether to call the local operator's alpha_volume(), jacobian_apply_volume() and jacobian_volume(). More...
 
enum  { doAlphaVolumePostSkeleton }
 Whether to call the local operator's alpha_volume_post_skeleton(), jacobian_apply_volume_post_skeleton() and jacobian_volume_post_skeleton(). More...
 
enum  { doAlphaSkeleton }
 Whether to call the local operator's alpha_skeleton(), jacobian_apply_skeleton() and jacobian_skeleton(). More...
 
enum  { doAlphaBoundary }
 Whether to call the local operator's alpha_boundary(), jacobian_apply_boundary() and jacobian_boundary(). More...
 
Flags for the constant part of the residual
enum  { doLambdaVolume }
 Whether to call the local operator's lambda_volume(). More...
 
enum  { doLambdaVolumePostSkeleton }
 Whether to call the local operator's lambda_volume_post_skeleton(). More...
 
enum  { doLambdaSkeleton }
 Whether to call the local operator's lambda_skeleton(). More...
 
enum  { doLambdaBoundary }
 Whether to call the local operator's lambda_boundary(). More...
 
Special flags
enum  { doSkeletonTwoSided }
 Whether to visit the skeleton methods from both sides. More...
 

Public Member Functions

 ConvectionDiffusionTemporalResidualEstimator1 (T &param_, double time_, double dt_)
 constructor: pass parameter object More...
 
template<typename EG , typename LFSU , typename X , typename LFSV , typename R >
void alpha_volume (const EG &eg, const LFSU &lfsu, const X &x, const LFSV &lfsv, R &r) const
 
void clearCmax ()
 
double getCmax () const
 
void setTime (doublet_)
 set time for subsequent evaluation More...
 
double getTime () const
 get current time More...
 
void preStep (RealType time, RealType dt, int stages)
 to be called once before each time step More...
 
void postStep ()
 to be called once at the end of each time step More...
 
void preStage (RealType time, int r)
 to be called once before each stage More...
 
int getStage () const
 get current stage More...
 
void postStage ()
 to be called once at the end of each stage More...
 
RealType suggestTimestep (RealType dt) const
 to be called after stage 1 More...
 

Detailed Description

template<typename T>
class Dune::PDELab::ConvectionDiffusionTemporalResidualEstimator1< T >

a local operator for evaluating the temporal part of error estimator

A call to residual() of a grid operator space will assemble the quantity $\eta_T^2$ for each cell. Note that the squares of the cell indicator $\eta_T$ is stored. To compute the global error estimate sum up all values and take the square root.

Assumptions and limitations:

Template Parameters
Tmodel of ConvectionDiffusionParameterInterface

Member Typedef Documentation

Member Enumeration Documentation

template<typename T >
anonymous enum
Enumerator
doPatternVolume 
template<typename T >
anonymous enum
Enumerator
doPatternSkeleton 
template<typename T >
anonymous enum
Enumerator
doAlphaVolume 
anonymous enum
inherited

Whether to assemble the pattern on the elements, i.e. whether or not pattern_volume() should be called.

Enumerator
doPatternVolume 
anonymous enum
inherited

Whether to assemble the pattern on the elements after the skeleton has been handled, i.e. whether or not pattern_volume_post_skeleton() should be called.

Enumerator
doPatternVolumePostSkeleton 
anonymous enum
inherited

Whether to assemble the pattern on the interior intersections, i.e. whether or not pattern_skeleton() should be called.

Enumerator
doPatternSkeleton 
anonymous enum
inherited

Whether to assemble the pattern on the boundary intersections, i.e. whether or not pattern_boundary() should be called.

Enumerator
doPatternBoundary 
anonymous enum
inherited

Whether to call the local operator's alpha_volume(), jacobian_apply_volume() and jacobian_volume().

Enumerator
doAlphaVolume 
anonymous enum
inherited

Whether to call the local operator's alpha_volume_post_skeleton(), jacobian_apply_volume_post_skeleton() and jacobian_volume_post_skeleton().

Enumerator
doAlphaVolumePostSkeleton 
anonymous enum
inherited

Whether to call the local operator's alpha_skeleton(), jacobian_apply_skeleton() and jacobian_skeleton().

Enumerator
doAlphaSkeleton 
anonymous enum
inherited

Whether to call the local operator's alpha_boundary(), jacobian_apply_boundary() and jacobian_boundary().

Enumerator
doAlphaBoundary 
anonymous enum
inherited

Whether to call the local operator's lambda_volume().

Enumerator
doLambdaVolume 
anonymous enum
inherited

Whether to call the local operator's lambda_volume_post_skeleton().

Enumerator
doLambdaVolumePostSkeleton 
anonymous enum
inherited

Whether to call the local operator's lambda_skeleton().

Enumerator
doLambdaSkeleton 
anonymous enum
inherited

Whether to call the local operator's lambda_boundary().

Enumerator
doLambdaBoundary 
anonymous enum
inherited

Whether to visit the skeleton methods from both sides.

Enumerator
doSkeletonTwoSided 

Constructor & Destructor Documentation

template<typename T >
Dune::PDELab::ConvectionDiffusionTemporalResidualEstimator1< T >::ConvectionDiffusionTemporalResidualEstimator1 ( T &  param_,
double  time_,
double  dt_ 
)
inline

constructor: pass parameter object

Member Function Documentation

template<typename T >
template<typename EG , typename LFSU , typename X , typename LFSV , typename R >
void Dune::PDELab::ConvectionDiffusionTemporalResidualEstimator1< T >::alpha_volume ( const EG &  eg,
const LFSU &  lfsu,
const X &  x,
const LFSV &  lfsv,
R &  r 
) const
inline
template<typename T >
void Dune::PDELab::ConvectionDiffusionTemporalResidualEstimator1< T >::clearCmax ( )
inline
template<typename T >
double Dune::PDELab::ConvectionDiffusionTemporalResidualEstimator1< T >::getCmax ( ) const
inline

References dim.

int Dune::PDELab::InstationaryLocalOperatorDefaultMethods< double >::getStage ( ) const
inlineinherited

get current stage

Returns
The current stage number previously set by preStage().
double Dune::PDELab::InstationaryLocalOperatorDefaultMethods< double >::getTime ( ) const
inlineinherited

get current time

Returns
The time previously set by setTime().
void Dune::PDELab::InstationaryLocalOperatorDefaultMethods< double >::postStage ( )
inlineinherited

to be called once at the end of each stage

void Dune::PDELab::InstationaryLocalOperatorDefaultMethods< double >::postStep ( )
inlineinherited

to be called once at the end of each time step

Note
With the OneStepMethod and the ExplicitOneStepMetod, for reasons unknown this is only called for temporal but not for spatial local operators. With the MultiStepMethod this is called for all local operators.
void Dune::PDELab::InstationaryLocalOperatorDefaultMethods< double >::preStage ( RealType  time,
int  r 
)
inlineinherited

to be called once before each stage

Parameters
timeTime of the stage
rNumber of the stage, r ∈ [1, nstages] inclusive, where nstages is the number of stage in the step given in the previous call to preStep()
Note
For ExplicitOneStepMethod the time given here for stage 1 may be incorrect, since the time step size is only finally determined after the first stage has been assembled.
For the MultiStepMethod, this is called once after preStep() with r=1.
void Dune::PDELab::InstationaryLocalOperatorDefaultMethods< double >::preStep ( RealType  time,
RealType  dt,
int  stages 
)
inlineinherited

to be called once before each time step

Parameters
timeTime at beginning of the step.
dtSize of time step.
stagesNumber of stages to do in the step. For the MultiStepMethod this is always 1.
Note
For ExplicitOneStepMethod the dt given here may be incorrect, since the time step size is only finally determined after the first stage has been assembled.
For the MultiStepMethod the number of stages is given as
  1. Since there are no times of evaluation in the middle of the step, a multi-step method is similar to a one step method with one stage.
void Dune::PDELab::InstationaryLocalOperatorDefaultMethods< double >::setTime ( double  t_)
inlineinherited

set time for subsequent evaluation

This method set the time for subsequent calls to the alpha_*(), lambda_*(), jacobian_*() and jacobian_apply_*() methods.

Note
For ExplicitOneStepMethod the time given here in the first stage may be incorrect, since the time step size is only finally determined after the first stage has been assembled.

Referenced by Dune::PDELab::DGNavierStokes< PRM >::setTime().

RealType Dune::PDELab::InstationaryLocalOperatorDefaultMethods< double >::suggestTimestep ( RealType  dt) const
inlineinherited

to be called after stage 1

Note
Only used by the ExplicitOneStepMethod.

This may be called on the spatial local operator in the case of an explicit one step scheme. It is called after stage 1 has been assembled (so the time given to preStep() may not apply anymore in this case). All the alpha_*() and lambda_*() methods should have been called, so they are a good place to generate the information returned here.


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