olb::SuperLatticeTimeAveragedF2D< T > Class Template Reference

#include <superLatticeTimeAveraged2D.h>

Inheritance diagram for olb::SuperLatticeTimeAveragedF2D< T >:

Collaboration diagram for olb::SuperLatticeTimeAveragedF2D< T >:

Public Member Functions
	SuperLatticeTimeAveragedF2D (SuperF2D< T, T > &sFunctor)
bool	operator() (T output[], const int input[])
void	addEnsemble ()
int	getEnsembles ()
int	getBlockFSize () const
Public Member Functions inherited from olb::SuperF2D< T, T >
SuperF2D< T, T > &	operator- (SuperF2D< T, T > &rhs)
SuperF2D< T, T > &	operator+ (SuperF2D< T, T > &rhs)
SuperF2D< T, T > &	operator* (SuperF2D< T, T > &rhs)
SuperF2D< T, T > &	operator/ (SuperF2D< T, T > &rhs)
SuperStructure< T, 2 > &	getSuperStructure ()
int	getBlockFSize () const
BlockF2D< T > &	getBlockF (int iCloc)
bool	operator() (T output[], const int input[]) override
Public Member Functions inherited from olb::GenericF< T, S >
virtual	~GenericF ()=default
int	getSourceDim () const
	read only access to member variable _m
int	getTargetDim () const
	read only access to member variable _n
std::string &	getName ()
	read and write access to name
std::string const &	getName () const
	read only access to name
virtual bool	operator() (T output[], const S input[])=0
	has to be implemented for 'every' derived class
bool	operator() (T output[])
	wrapper that call the pure virtual operator() (T output[], const S input[]) from above
bool	operator() (T output[], S input0)
bool	operator() (T output[], S input0, S input1)
bool	operator() (T output[], S input0, S input1, S input2)
bool	operator() (T output[], S input0, S input1, S input2, S input3)

Additional Inherited Members
Public Types inherited from olb::SuperF2D< T, T >
using	identity_functor_type
Public Types inherited from olb::GenericF< T, S >
using	targetType = T
using	sourceType = S
Public Attributes inherited from olb::GenericF< T, S >
std::shared_ptr< GenericF< T, S > >	_ptrCalcC
	memory management, frees resouces (calcClass)
Protected Member Functions inherited from olb::SuperF2D< T, T >
	SuperF2D (SuperStructure< T, 2 > &superStructure, int targetDim)
Protected Member Functions inherited from olb::GenericF< T, S >
	GenericF (int targetDim, int sourceDim)
Protected Attributes inherited from olb::SuperF2D< T, T >
SuperStructure< T, 2 > &	_superStructure
std::vector< std::unique_ptr< BlockF2D< T > > >	_blockF
	Super functors may consist of several BlockF2D<W> derived functors.

Detailed Description

template<typename T>
class olb::SuperLatticeTimeAveragedF2D< T >

Definition at line 39 of file superLatticeTimeAveraged2D.h.

Constructor & Destructor Documentation

SuperLatticeTimeAveragedF2D()

template<typename T >

olb::SuperLatticeTimeAveragedF2D< T >::SuperLatticeTimeAveragedF2D

(

SuperF2D< T, T > &

sFunctor

)

Definition at line 35 of file superLatticeTimeAveraged2D.hh.

  : SuperF2D<T,T>(sFunctor.getSuperStructure(),sFunctor.getTargetDim()*2), _ensembles(0), _sFunctor(sFunctor),
    _sData(_sFunctor.getSuperStructure().getCuboidGeometry(),
           _sFunctor.getSuperStructure().getLoadBalancer(),
           _sFunctor.getSuperStructure().getOverlap(),
           _sFunctor.getTargetDim()),
    _sDataP2(_sFunctor.getSuperStructure().getCuboidGeometry(),
             _sFunctor.getSuperStructure().getLoadBalancer(),
             _sFunctor.getSuperStructure().getOverlap(),
             _sFunctor.getTargetDim())
{
  this->getName() = "Time Averaged " + _sFunctor.getName();
};

References olb::GenericF< T, S >::getName().

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Member Function Documentation

addEnsemble()

template<typename T >

void olb::SuperLatticeTimeAveragedF2D< T >::addEnsemble

(

)

Definition at line 70 of file superLatticeTimeAveraged2D.hh.

{
  int i[3];
  for (int iCloc=0; iCloc < _sData.getLoadBalancer().size(); ++iCloc) {
    i[0] = _sData.getLoadBalancer().glob(iCloc);
    _sData.getBlock(iCloc).forSpatialLocations([&](auto iX, auto iY) {
      i[1] = iX;
      i[2] = iY;
      std::vector<BaseType<T>> tmp(_sFunctor.getTargetDim(), 0);
      _sFunctor(tmp.data(), i);
      for (int iDim=0; iDim<_sFunctor.getTargetDim(); iDim++) {
        _sData.getBlock(iCloc).get({iX, iY}, iDim) += (BaseType<T>)(tmp[iDim]) ;
        _sDataP2.getBlock(iCloc).get({iX, iY}, iDim) += (BaseType<T>)(tmp[iDim]) *(BaseType<T>)(tmp[iDim]) ;
      }
    });
  }
  _ensembles++;
};

getBlockFSize()

template<typename T >

int olb::SuperLatticeTimeAveragedF2D< T >::getBlockFSize

(

)

const

Definition at line 89 of file superLatticeTimeAveraged2D.hh.

{
  return 0;
};

getEnsembles()

template<typename T >

int olb::SuperLatticeTimeAveragedF2D< T >::getEnsembles

(

)

Definition at line 65 of file superLatticeTimeAveraged2D.hh.

{
  return _ensembles;
};

operator()()

template<typename T >

bool olb::SuperLatticeTimeAveragedF2D< T >::operator()	(	T	output[],
		const int	input[] )

Definition at line 49 of file superLatticeTimeAveraged2D.hh.

{
  T iCloc = _sData.getLoadBalancer().loc(input[0]);
  for ( int iDim = 0; iDim < _sData.getDataSize(); iDim++) {
    output[iDim] = _sData.getBlock(iCloc).get(input+1,iDim) / _ensembles;
  }
  for (int iDim = _sData.getDataSize(); iDim < _sData.getDataSize()*2; iDim++)
    if (_sDataP2.getBlock(iCloc).get(input+1,(int) iDim-_sDataP2.getDataSize())/_ensembles - _sData.getBlock(iCloc).get(input+1,(int) iDim-_sDataP2.getDataSize())*_sData.getBlock(iCloc).get(input+1,(int) iDim-_sDataP2.getDataSize())/_ensembles/_ensembles<0) {
      output[iDim]=0;
    }
    else {
      output[iDim] = util::sqrt(_sDataP2.getBlock(iCloc).get(input+1,(int) iDim-_sDataP2.getDataSize())/_ensembles - _sData.getBlock(iCloc).get(input+1,(int) iDim-_sDataP2.getDataSize())*_sData.getBlock(iCloc).get(input+1,(int) iDim-_sDataP2.getDataSize())/_ensembles/_ensembles);
    }
  return true;
};

References olb::util::sqrt().

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

• src/functors/lattice/timeAveraged/superLatticeTimeAveraged2D.h
• src/functors/lattice/timeAveraged/superLatticeTimeAveraged2D.hh