24#ifndef LATTICE_PHYS_PERMEABILITY_2D_HH
25#define LATTICE_PHYS_PERMEABILITY_2D_HH
44template<
typename T,
typename DESCRIPTOR>
49 _superGeometry(superGeometry), _material(material)
51 this->
getName() =
"permeability";
52 int maxC = this->
_sLattice.getLoadBalancer().size();
54 for (
int iC = 0; iC < maxC; iC++) {
57 this->_superGeometry.getBlockGeometry(iC),
59 this->getConverter() ) );
63template<
typename T,
typename DESCRIPTOR>
65 T output[],
const int input[])
82template <
typename T,
typename DESCRIPTOR>
86 :
BlockLatticePhysF2D<T,DESCRIPTOR>(blockLattice,converter,1), _blockGeometry(blockGeometry), _material(material)
88 this->
getName() =
"permeability";
91template <
typename T,
typename DESCRIPTOR>
Representation of a block geometry.
represents all functors that operate on a DESCRIPTOR with output in Phys, e.g. physVelocity(),...
BlockLatticePhysPermeability2D returns pointwise mesh-independent permeability values in (0,...
bool operator()(T output[], const int input[]) override
has to be implemented for 'every' derived class
BlockLatticePhysPermeability2D(BlockLattice< T, DESCRIPTOR > &blockLattice, BlockGeometry< T, 2 > &blockGeometry, int material, const UnitConverter< T, DESCRIPTOR > &converter)
Platform-abstracted block lattice for external access and inter-block interaction.
std::string & getName()
read and write access to name
std::vector< std::unique_ptr< BlockF2D< T > > > _blockF
Super functors may consist of several BlockF2D<W> derived functors.
Representation of a statistic for a parallel 2D geometry.
SuperLattice< T, DESCRIPTOR > & _sLattice
represents all functors that operate on a DESCRIPTOR with output in Phys, e.g. physVelocity(),...
bool operator()(T output[], const int input[]) override
SuperLatticePhysPermeability2D(SuperLattice< T, DESCRIPTOR > &sLattice, SuperGeometry< T, 2 > &superGeometry, const int material, const UnitConverter< T, DESCRIPTOR > &converter)
Super class maintaining block lattices for a cuboid decomposition.
Conversion between physical and lattice units, as well as discretization.
The description of a generic interface for all functor classes – header file.
This file contains indicator functions.
Wrapper functions that simplify the use of MPI.
Top level namespace for all of OpenLB.
Representation of a parallel 2D geometry – header file.