olb::SuperPlaneIntegralFluxF3D< T, F > Class Template Reference

Template class for building flux integrals based on SuperLatticePhysF3D functors. More...

#include <superPlaneIntegralFluxF3D.h>

Inheritance diagram for olb::SuperPlaneIntegralFluxF3D< T, F >:

Collaboration diagram for olb::SuperPlaneIntegralFluxF3D< T, F >:

Public Member Functions
template<typename DESCRIPTOR >
	SuperPlaneIntegralFluxF3D (SuperLattice< T, DESCRIPTOR > &sLattice, const UnitConverter< T, DESCRIPTOR > &converter, SuperGeometry< T, 3 > &geometry, const HyperplaneLattice3D< T > &hyperplaneLattice, FunctorPtr< SuperIndicatorF3D< T > > &&integrationIndicator, FunctorPtr< IndicatorF2D< T > > &&subplaneIndicator, BlockDataReductionMode mode=BlockDataReductionMode::Analytical)
template<typename DESCRIPTOR >
	SuperPlaneIntegralFluxF3D (SuperLattice< T, DESCRIPTOR > &sLattice, const UnitConverter< T, DESCRIPTOR > &converter, SuperGeometry< T, 3 > &geometry, const Hyperplane3D< T > &hyperplane, FunctorPtr< SuperIndicatorF3D< T > > &&integrationIndicator, FunctorPtr< IndicatorF2D< T > > &&subplaneIndicator, BlockDataReductionMode mode=BlockDataReductionMode::Analytical)
template<typename DESCRIPTOR >
	SuperPlaneIntegralFluxF3D (SuperLattice< T, DESCRIPTOR > &sLattice, const UnitConverter< T, DESCRIPTOR > &converter, SuperGeometry< T, 3 > &geometry, const Hyperplane3D< T > &hyperplane, FunctorPtr< SuperIndicatorF3D< T > > &&integrationIndicator, BlockDataReductionMode mode=BlockDataReductionMode::Analytical)
template<typename DESCRIPTOR >
	SuperPlaneIntegralFluxF3D (SuperLattice< T, DESCRIPTOR > &sLattice, const UnitConverter< T, DESCRIPTOR > &converter, SuperGeometry< T, 3 > &geometry, const Vector< T, 3 > &origin, const Vector< T, 3 > &u, const Vector< T, 3 > &v, std::vector< int > materials, BlockDataReductionMode mode=BlockDataReductionMode::Analytical)
template<typename DESCRIPTOR >
	SuperPlaneIntegralFluxF3D (SuperLattice< T, DESCRIPTOR > &sLattice, const UnitConverter< T, DESCRIPTOR > &converter, SuperGeometry< T, 3 > &geometry, const Vector< T, 3 > &origin, const Vector< T, 3 > &u, const Vector< T, 3 > &v, BlockDataReductionMode mode=BlockDataReductionMode::Analytical)
template<typename DESCRIPTOR >
	SuperPlaneIntegralFluxF3D (SuperLattice< T, DESCRIPTOR > &sLattice, const UnitConverter< T, DESCRIPTOR > &converter, SuperGeometry< T, 3 > &geometry, const Vector< T, 3 > &origin, const Vector< T, 3 > &normal, std::vector< int > materials, BlockDataReductionMode mode=BlockDataReductionMode::Analytical)
template<typename DESCRIPTOR >
	SuperPlaneIntegralFluxF3D (SuperLattice< T, DESCRIPTOR > &sLattice, const UnitConverter< T, DESCRIPTOR > &converter, SuperGeometry< T, 3 > &geometry, const Vector< T, 3 > &origin, const Vector< T, 3 > &normal, BlockDataReductionMode mode=BlockDataReductionMode::Analytical)
template<typename DESCRIPTOR >
	SuperPlaneIntegralFluxF3D (SuperLattice< T, DESCRIPTOR > &sLattice, const UnitConverter< T, DESCRIPTOR > &converter, SuperGeometry< T, 3 > &geometry, const Vector< T, 3 > &normal, std::vector< int > materials, BlockDataReductionMode mode=BlockDataReductionMode::Analytical)
template<typename DESCRIPTOR >
	SuperPlaneIntegralFluxF3D (SuperLattice< T, DESCRIPTOR > &sLattice, const UnitConverter< T, DESCRIPTOR > &converter, SuperGeometry< T, 3 > &geometry, const Vector< T, 3 > &normal, BlockDataReductionMode mode=BlockDataReductionMode::Analytical)
template<typename DESCRIPTOR >
	SuperPlaneIntegralFluxF3D (SuperLattice< T, DESCRIPTOR > &sLattice, const UnitConverter< T, DESCRIPTOR > &converter, SuperGeometry< T, 3 > &geometry, IndicatorCircle3D< T > &circle, std::vector< int > materials, BlockDataReductionMode mode=BlockDataReductionMode::Analytical)
template<typename DESCRIPTOR >
	SuperPlaneIntegralFluxF3D (SuperLattice< T, DESCRIPTOR > &sLattice, const UnitConverter< T, DESCRIPTOR > &converter, SuperGeometry< T, 3 > &geometry, IndicatorCircle3D< T > &circle, BlockDataReductionMode mode=BlockDataReductionMode::Analytical)
Public Member Functions inherited from olb::SuperPlaneIntegralF3D< T >
	SuperPlaneIntegralF3D (FunctorPtr< SuperF3D< T > > &&f, SuperGeometry< T, 3 > &geometry, const HyperplaneLattice3D< T > &hyperplaneLattice, FunctorPtr< SuperIndicatorF3D< T > > &&integrationIndicator, FunctorPtr< IndicatorF2D< T > > &&subplaneIndicator, BlockDataReductionMode mode=BlockDataReductionMode::Analytical)
	Primary constructor.
	SuperPlaneIntegralF3D (FunctorPtr< SuperF3D< T > > &&f, SuperGeometry< T, 3 > &geometry, const Hyperplane3D< T > &hyperplane, FunctorPtr< SuperIndicatorF3D< T > > &&integrationIndicator, FunctorPtr< IndicatorF2D< T > > &&subplaneIndicator, BlockDataReductionMode mode=BlockDataReductionMode::Analytical)
	Constructor providing automatic lattice generation.
	SuperPlaneIntegralF3D (FunctorPtr< SuperF3D< T > > &&f, SuperGeometry< T, 3 > &geometry, const Hyperplane3D< T > &hyperplane, FunctorPtr< SuperIndicatorF3D< T > > &&integrationIndicator, BlockDataReductionMode mode=BlockDataReductionMode::Analytical)
	Constructor providing automatic lattice generation and omitting subplane restriction.
	SuperPlaneIntegralF3D (FunctorPtr< SuperF3D< T > > &&f, SuperGeometry< T, 3 > &geometry, const Vector< T, 3 > &origin, const Vector< T, 3 > &u, const Vector< T, 3 > &v, std::vector< int > materials, BlockDataReductionMode mode=BlockDataReductionMode::Analytical)
	Constructor providing automatic lattice and material indicator instantiation.
	SuperPlaneIntegralF3D (FunctorPtr< SuperF3D< T > > &&f, SuperGeometry< T, 3 > &geometry, const Vector< T, 3 > &origin, const Vector< T, 3 > &u, const Vector< T, 3 > &v, BlockDataReductionMode mode=BlockDataReductionMode::Analytical)
	Constructor providing automatic lattice parametrization, only interpolating material 1.
	SuperPlaneIntegralF3D (FunctorPtr< SuperF3D< T > > &&f, SuperGeometry< T, 3 > &geometry, const Vector< T, 3 > &origin, const Vector< T, 3 > &normal, std::vector< int > materials, BlockDataReductionMode mode=BlockDataReductionMode::Analytical)
	Constructor providing automatic lattice and material indicator instantiation.
	SuperPlaneIntegralF3D (FunctorPtr< SuperF3D< T > > &&f, SuperGeometry< T, 3 > &geometry, const Vector< T, 3 > &origin, const Vector< T, 3 > &normal, BlockDataReductionMode mode=BlockDataReductionMode::Analytical)
	Constructor providing automatic lattice parametrization, only interpolating material 1.
	SuperPlaneIntegralF3D (FunctorPtr< SuperF3D< T > > &&f, SuperGeometry< T, 3 > &geometry, const Vector< T, 3 > &normal, std::vector< int > materials, BlockDataReductionMode mode=BlockDataReductionMode::Analytical)
	Constructor providing automatic lattice and material indicator instantiation.
	SuperPlaneIntegralF3D (FunctorPtr< SuperF3D< T > > &&f, SuperGeometry< T, 3 > &geometry, const Vector< T, 3 > &normal, BlockDataReductionMode mode=BlockDataReductionMode::Analytical)
	Constructor providing automatic lattice parametrization, only interpolating material 1.
	SuperPlaneIntegralF3D (FunctorPtr< SuperF3D< T > > &&f, SuperGeometry< T, 3 > &geometry, const IndicatorCircle3D< T > &circle, std::vector< int > materials, BlockDataReductionMode mode=BlockDataReductionMode::Analytical)
	Constructor providing automatic lattice parametrization to fit a given circle.
	SuperPlaneIntegralF3D (FunctorPtr< SuperF3D< T > > &&f, SuperGeometry< T, 3 > &geometry, const IndicatorCircle3D< T > &circle, BlockDataReductionMode mode=BlockDataReductionMode::Analytical)
	Constructor providing automatic lattice parametrization to fit a given circle and only interpolating material 1.
bool	operator() (T output[], const int input[]) override
	Returns the plane integral in the following structure:
Public Member Functions inherited from olb::SuperF3D< T, W >
SuperF3D< T, W > &	operator- (SuperF3D< T, W > &rhs)
SuperF3D< T, W > &	operator+ (SuperF3D< T, W > &rhs)
SuperF3D< T, W > &	operator* (SuperF3D< T, W > &rhs)
SuperF3D< T, W > &	operator/ (SuperF3D< T, W > &rhs)
SuperStructure< T, 3 > &	getSuperStructure ()
int	getBlockFSize () const
BlockF3D< W > &	getBlockF (int iCloc)
bool	operator() (W output[], const int input[])
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::SuperF3D< T, W >
using	identity_functor_type = SuperIdentity3D<T,W>
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)
Static Public Attributes inherited from olb::SuperF3D< T, W >
static constexpr bool	isSuper = true
static constexpr unsigned	d = 3
Protected Member Functions inherited from olb::SuperPlaneIntegralF3D< T >
bool	isToBeIntegrated (const Vector< T, 3 > &physR, int iC)
	This is determined using the _integrationIndicatorF indicated subset of the 2d plane reduced by _reductionF.
Protected Member Functions inherited from olb::SuperF3D< T, W >
	SuperF3D (SuperStructure< T, 3 > &superStructure, int targetDim)
Protected Member Functions inherited from olb::GenericF< T, S >
	GenericF (int targetDim, int sourceDim)
Protected Attributes inherited from olb::SuperPlaneIntegralF3D< T >
SuperGeometry< T, 3 > &	_geometry
FunctorPtr< SuperF3D< T > >	_f
	Functor to be integrated on the plane.
FunctorPtr< SuperIndicatorF3D< T > >	_integrationIndicatorF
	Indicator describing relevant discrete integration points.
FunctorPtr< IndicatorF2D< T > >	_subplaneIndicatorF
	Indicator describing the relevant subset of the interpolated hyperplane.
BlockReduction3D2D< T >	_reductionF
	Functor describing plane to be interpolated and integrated.
Vector< T, 3 >	_origin
	Origin vector as given by hyperplane definition, (0,0) in respect to the subplane indicator _subplaneIndicatorF.
Vector< T, 3 >	_u
	Span vector u as given by hyperplane definition, normalized to h.
Vector< T, 3 >	_v
	Span vector v as given by hyperplane definition, normalized to h.
Vector< T, 3 >	_normal
	Orthogonal vector to _u and _v.
std::vector< std::tuple< int, int > >	_rankLocalSubplane
	Subset of the discrete plane points given by _reductionF as indicated by _integrationIndicatorF.
Protected Attributes inherited from olb::SuperF3D< T, W >
SuperStructure< T, 3 > &	_superStructure
std::vector< std::unique_ptr< BlockF3D< W > > >	_blockF
	Super functors may consist of several BlockF3D<W> derived functors.

Detailed Description

template<typename T, template< typename, typename > class F>
class olb::SuperPlaneIntegralFluxF3D< T, F >

Template class for building flux integrals based on SuperLatticePhysF3D functors.

e.g. phys pressure flux is derived from SuperPlaneIntegralFluxF3D<T,SuperLatticePhysPressure3D> and only adds a print method. All required constructors are provided by this class and need only be inherited.

The constructors correspond to SuperPlaneIntegralF3D's with the difference that they accept a super lattice and a unit converter reference instead of a functor. The appropropriate SuperLatticePhysF3D derived functor is then instantiated internally as defined by the template argument F.

See SuperPlaneIntegralF3D for further documentation.

Definition at line 48 of file superPlaneIntegralFluxF3D.h.

Constructor & Destructor Documentation

SuperPlaneIntegralFluxF3D() [1/11]

template<typename T , template< typename, typename > class F>

template<typename DESCRIPTOR >

olb::SuperPlaneIntegralFluxF3D< T, F >::SuperPlaneIntegralFluxF3D	(	SuperLattice< T, DESCRIPTOR > &	sLattice,
		const UnitConverter< T, DESCRIPTOR > &	converter,
		SuperGeometry< T, 3 > &	geometry,
		const HyperplaneLattice3D< T > &	hyperplaneLattice,
		FunctorPtr< SuperIndicatorF3D< T > > &&	integrationIndicator,
		FunctorPtr< IndicatorF2D< T > > &&	subplaneIndicator,
		BlockDataReductionMode	mode = BlockDataReductionMode::Analytical )

Definition at line 39 of file superPlaneIntegralFluxF3D.hh.

  : SuperPlaneIntegralF3D<T>(
      std::unique_ptr<SuperF3D<T>>(new F<T, DESCRIPTOR>(sLattice, converter)),
      geometry,
      hyperplaneLattice,
      std::forward<decltype(integrationIndicator)>(integrationIndicator),
      std::forward<decltype(subplaneIndicator)>(subplaneIndicator),
      mode)
{
  this->getName() = "SuperPlaneIntegralFluxF3D";
}

SuperPlaneIntegralFluxF3D() [2/11]

template<typename T , template< typename, typename > class F>

template<typename DESCRIPTOR >

olb::SuperPlaneIntegralFluxF3D< T, F >::SuperPlaneIntegralFluxF3D	(	SuperLattice< T, DESCRIPTOR > &	sLattice,
		const UnitConverter< T, DESCRIPTOR > &	converter,
		SuperGeometry< T, 3 > &	geometry,
		const Hyperplane3D< T > &	hyperplane,
		FunctorPtr< SuperIndicatorF3D< T > > &&	integrationIndicator,
		FunctorPtr< IndicatorF2D< T > > &&	subplaneIndicator,
		BlockDataReductionMode	mode = BlockDataReductionMode::Analytical )

Definition at line 60 of file superPlaneIntegralFluxF3D.hh.

  : SuperPlaneIntegralF3D<T>(
      std::unique_ptr<SuperF3D<T>>(new F<T, DESCRIPTOR>(sLattice, converter)),
      geometry,
      hyperplane,
      std::forward<decltype(integrationIndicator)>(integrationIndicator),
      std::forward<decltype(subplaneIndicator)>(subplaneIndicator),
      mode)
{
  this->getName() = "SuperPlaneIntegralFluxF3D";
}

SuperPlaneIntegralFluxF3D() [3/11]

template<typename T , template< typename, typename > class F>

template<typename DESCRIPTOR >

olb::SuperPlaneIntegralFluxF3D< T, F >::SuperPlaneIntegralFluxF3D	(	SuperLattice< T, DESCRIPTOR > &	sLattice,
		const UnitConverter< T, DESCRIPTOR > &	converter,
		SuperGeometry< T, 3 > &	geometry,
		const Hyperplane3D< T > &	hyperplane,
		FunctorPtr< SuperIndicatorF3D< T > > &&	integrationIndicator,
		BlockDataReductionMode	mode = BlockDataReductionMode::Analytical )

Definition at line 81 of file superPlaneIntegralFluxF3D.hh.

  : SuperPlaneIntegralF3D<T>(
      std::unique_ptr<SuperF3D<T>>(new F<T, DESCRIPTOR>(sLattice, converter)),
      geometry,
      hyperplane,
      std::forward<decltype(integrationIndicator)>(integrationIndicator),
      mode)
{
  this->getName() = "SuperPlaneIntegralFluxF3D";
}

SuperPlaneIntegralFluxF3D() [4/11]

template<typename T , template< typename, typename > class F>

template<typename DESCRIPTOR >

olb::SuperPlaneIntegralFluxF3D< T, F >::SuperPlaneIntegralFluxF3D	(	SuperLattice< T, DESCRIPTOR > &	sLattice,
		const UnitConverter< T, DESCRIPTOR > &	converter,
		SuperGeometry< T, 3 > &	geometry,
		const Vector< T, 3 > &	origin,
		const Vector< T, 3 > &	u,
		const Vector< T, 3 > &	v,
		std::vector< int >	materials,
		BlockDataReductionMode	mode = BlockDataReductionMode::Analytical )

Definition at line 100 of file superPlaneIntegralFluxF3D.hh.

  : SuperPlaneIntegralF3D<T>(
      std::unique_ptr<SuperF3D<T>>(new F<T, DESCRIPTOR>(sLattice, converter)),
      geometry,
      origin, u, v,
      std::move(materials),
      mode)
{
  this->getName() = "SuperPlaneIntegralFluxF3D";
}

SuperPlaneIntegralFluxF3D() [5/11]

template<typename T , template< typename, typename > class F>

template<typename DESCRIPTOR >

olb::SuperPlaneIntegralFluxF3D< T, F >::SuperPlaneIntegralFluxF3D	(	SuperLattice< T, DESCRIPTOR > &	sLattice,
		const UnitConverter< T, DESCRIPTOR > &	converter,
		SuperGeometry< T, 3 > &	geometry,
		const Vector< T, 3 > &	origin,
		const Vector< T, 3 > &	u,
		const Vector< T, 3 > &	v,
		BlockDataReductionMode	mode = BlockDataReductionMode::Analytical )

Definition at line 119 of file superPlaneIntegralFluxF3D.hh.

  : SuperPlaneIntegralF3D<T>(
      std::unique_ptr<SuperF3D<T>>(new F<T, DESCRIPTOR>(sLattice, converter)),
      geometry,
      origin, u, v,
      mode)
{
  this->getName() = "SuperPlaneIntegralFluxF3D";
}

SuperPlaneIntegralFluxF3D() [6/11]

template<typename T , template< typename, typename > class F>

template<typename DESCRIPTOR >

olb::SuperPlaneIntegralFluxF3D< T, F >::SuperPlaneIntegralFluxF3D	(	SuperLattice< T, DESCRIPTOR > &	sLattice,
		const UnitConverter< T, DESCRIPTOR > &	converter,
		SuperGeometry< T, 3 > &	geometry,
		const Vector< T, 3 > &	origin,
		const Vector< T, 3 > &	normal,
		std::vector< int >	materials,
		BlockDataReductionMode	mode = BlockDataReductionMode::Analytical )

Definition at line 136 of file superPlaneIntegralFluxF3D.hh.

  : SuperPlaneIntegralF3D<T>(
      std::unique_ptr<SuperF3D<T>>(new F<T, DESCRIPTOR>(sLattice, converter)),
      geometry,
      origin, normal,
      std::move(materials),
      mode)
{
  this->getName() = "SuperPlaneIntegralFluxF3D";
}

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

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SuperPlaneIntegralFluxF3D() [7/11]

template<typename T , template< typename, typename > class F>

template<typename DESCRIPTOR >

olb::SuperPlaneIntegralFluxF3D< T, F >::SuperPlaneIntegralFluxF3D	(	SuperLattice< T, DESCRIPTOR > &	sLattice,
		const UnitConverter< T, DESCRIPTOR > &	converter,
		SuperGeometry< T, 3 > &	geometry,
		const Vector< T, 3 > &	origin,
		const Vector< T, 3 > &	normal,
		BlockDataReductionMode	mode = BlockDataReductionMode::Analytical )

Definition at line 155 of file superPlaneIntegralFluxF3D.hh.

  : SuperPlaneIntegralF3D<T>(
      std::unique_ptr<SuperF3D<T>>(new F<T, DESCRIPTOR>(sLattice, converter)),
      geometry,
      origin, normal,
      mode)
{
  this->getName() = "SuperPlaneIntegralFluxF3D";
}

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

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SuperPlaneIntegralFluxF3D() [8/11]

template<typename T , template< typename, typename > class F>

template<typename DESCRIPTOR >

olb::SuperPlaneIntegralFluxF3D< T, F >::SuperPlaneIntegralFluxF3D	(	SuperLattice< T, DESCRIPTOR > &	sLattice,
		const UnitConverter< T, DESCRIPTOR > &	converter,
		SuperGeometry< T, 3 > &	geometry,
		const Vector< T, 3 > &	normal,
		std::vector< int >	materials,
		BlockDataReductionMode	mode = BlockDataReductionMode::Analytical )

Definition at line 172 of file superPlaneIntegralFluxF3D.hh.

  : SuperPlaneIntegralF3D<T>(
      std::unique_ptr<SuperF3D<T>>(new F<T, DESCRIPTOR>(sLattice, converter)),
      geometry,
      normal,
      std::move(materials),
      mode)
{
  this->getName() = "SuperPlaneIntegralFluxF3D";
}

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

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SuperPlaneIntegralFluxF3D() [9/11]

template<typename T , template< typename, typename > class F>

template<typename DESCRIPTOR >

olb::SuperPlaneIntegralFluxF3D< T, F >::SuperPlaneIntegralFluxF3D	(	SuperLattice< T, DESCRIPTOR > &	sLattice,
		const UnitConverter< T, DESCRIPTOR > &	converter,
		SuperGeometry< T, 3 > &	geometry,
		const Vector< T, 3 > &	normal,
		BlockDataReductionMode	mode = BlockDataReductionMode::Analytical )

Definition at line 191 of file superPlaneIntegralFluxF3D.hh.

  : SuperPlaneIntegralF3D<T>(
      std::unique_ptr<SuperF3D<T>>(new F<T, DESCRIPTOR>(sLattice, converter)),
      geometry,
      normal,
      mode)
{
  this->getName() = "SuperPlaneIntegralFluxF3D";
}

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

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SuperPlaneIntegralFluxF3D() [10/11]

template<typename T , template< typename, typename > class F>

template<typename DESCRIPTOR >

olb::SuperPlaneIntegralFluxF3D< T, F >::SuperPlaneIntegralFluxF3D	(	SuperLattice< T, DESCRIPTOR > &	sLattice,
		const UnitConverter< T, DESCRIPTOR > &	converter,
		SuperGeometry< T, 3 > &	geometry,
		IndicatorCircle3D< T > &	circle,
		std::vector< int >	materials,
		BlockDataReductionMode	mode = BlockDataReductionMode::Analytical )

Definition at line 208 of file superPlaneIntegralFluxF3D.hh.

  : SuperPlaneIntegralF3D<T>(
      std::unique_ptr<SuperF3D<T>>(new F<T, DESCRIPTOR>(sLattice, converter)),
      geometry,
      circle,
      std::move(materials),
      mode)
{
  this->getName() = "SuperPlaneIntegralFluxF3D";
}

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

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SuperPlaneIntegralFluxF3D() [11/11]

template<typename T , template< typename, typename > class F>

template<typename DESCRIPTOR >

olb::SuperPlaneIntegralFluxF3D< T, F >::SuperPlaneIntegralFluxF3D	(	SuperLattice< T, DESCRIPTOR > &	sLattice,
		const UnitConverter< T, DESCRIPTOR > &	converter,
		SuperGeometry< T, 3 > &	geometry,
		IndicatorCircle3D< T > &	circle,
		BlockDataReductionMode	mode = BlockDataReductionMode::Analytical )

Definition at line 227 of file superPlaneIntegralFluxF3D.hh.

  : SuperPlaneIntegralF3D<T>(
      std::unique_ptr<SuperF3D<T>>(new F<T, DESCRIPTOR>(sLattice, converter)),
      geometry,
      circle,
      mode)
{
  this->getName() = "SuperPlaneIntegralFluxF3D";
}

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

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---

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

• src/functors/lattice/integral/superPlaneIntegralFluxF3D.h
• src/functors/lattice/integral/superPlaneIntegralFluxF3D.hh