atl_modg_maxwellDivCor_physFlux_NonConst Subroutine

public subroutine atl_modg_maxwellDivCor_physFlux_NonConst(equation, res, state, iElem, iDir, penalizationData, poly_proj, material, nodal_data, nodal_GradData, nodal_res, ElemLength, scheme_min, scheme_current)

Calculate the physical flux for the MODG scheme and Maxwell equation with hyperbolic divergenc cleaning.

Arguments

TypeIntentOptionalAttributesName
type(atl_Equations_type), intent(in) :: equation

The equation you solve.

real(kind=rk), intent(inout) :: res(:,:)

To store the resulting phy flux in modal form

real(kind=rk), intent(in), optional :: state(:,:)

The state of the equation

integer, intent(in) :: iElem

The current Element

integer, intent(in) :: iDir

The current Direction

type(atl_penalizationData_type), intent(inout) :: penalizationData

The penalization data

type(ply_poly_project_type), intent(inout) :: poly_proj

Poly project

type(atl_material_type), intent(inout) :: material

Material description for the faces on the current level

real(kind=rk), intent(in), optional :: nodal_data(:,:)

The state in nodal form

real(kind=rk), intent(in), optional :: nodal_GradData(:,:,:)
real(kind=rk), intent(inout) :: nodal_res(:,:)
real(kind=rk), intent(in) :: ElemLength

Length of the element

type(atl_scheme_type), intent(inout) :: scheme_min

The scheme information

type(atl_scheme_type), intent(inout) :: scheme_current

Calls

proc~~atl_modg_maxwelldivcor_physflux_nonconst~~CallsGraph proc~atl_modg_maxwelldivcor_physflux_nonconst atl_modg_maxwellDivCor_physFlux_NonConst proc~tem_abort tem_abort proc~atl_modg_maxwelldivcor_physflux_nonconst->proc~tem_abort proc~compute_physfluxdivcor_nonconst compute_physFluxDivCor_nonConst proc~atl_modg_maxwelldivcor_physflux_nonconst->proc~compute_physfluxdivcor_nonconst interface~ply_poly_project_n2m ply_poly_project_n2m proc~compute_physfluxdivcor_nonconst->interface~ply_poly_project_n2m interface~ply_poly_project_m2n ply_poly_project_m2n proc~compute_physfluxdivcor_nonconst->interface~ply_poly_project_m2n proc~ply_convert2oversample ply_convert2oversample proc~compute_physfluxdivcor_nonconst->proc~ply_convert2oversample proc~atl_physfluxmaxwelldivcor atl_physFluxMaxwellDivCor proc~compute_physfluxdivcor_nonconst->proc~atl_physfluxmaxwelldivcor proc~ply_convertfromoversample ply_convertFromOversample proc~compute_physfluxdivcor_nonconst->proc~ply_convertfromoversample proc~ply_poly_project_n2m_multivar ply_poly_project_n2m_multiVar interface~ply_poly_project_n2m->proc~ply_poly_project_n2m_multivar proc~ply_poly_project_m2n_multivar ply_poly_project_m2n_multiVar interface~ply_poly_project_m2n->proc~ply_poly_project_m2n_multivar proc~ply_convert2oversample_2d ply_convert2oversample_2d proc~ply_convert2oversample->proc~ply_convert2oversample_2d proc~ply_convert2oversample_3d ply_convert2oversample_3d proc~ply_convert2oversample->proc~ply_convert2oversample_3d proc~ply_convert2oversample_1d ply_convert2oversample_1d proc~ply_convert2oversample->proc~ply_convert2oversample_1d proc~ply_convertfromoversample_3d ply_convertFromOversample_3d proc~ply_convertfromoversample->proc~ply_convertfromoversample_3d proc~ply_convertfromoversample_1d ply_convertFromOversample_1d proc~ply_convertfromoversample->proc~ply_convertfromoversample_1d proc~ply_convertfromoversample_2d ply_convertFromOversample_2d proc~ply_convertfromoversample->proc~ply_convertfromoversample_2d proc~ply_fxt_n2m_1d ply_fxt_n2m_1D proc~ply_poly_project_n2m_multivar->proc~ply_fxt_n2m_1d interface~ply_pnttoleg_2d ply_pntToLeg_2D proc~ply_poly_project_n2m_multivar->interface~ply_pnttoleg_2d proc~ply_l2p_trafo_2d ply_l2p_trafo_2D proc~ply_poly_project_n2m_multivar->proc~ply_l2p_trafo_2d proc~ply_fxt_n2m_3d ply_fxt_n2m_3D proc~ply_poly_project_n2m_multivar->proc~ply_fxt_n2m_3d proc~ply_fxt_n2m_2d ply_fxt_n2m_2D proc~ply_poly_project_n2m_multivar->proc~ply_fxt_n2m_2d proc~ply_l2p_trafo_1d ply_l2p_trafo_1D proc~ply_poly_project_n2m_multivar->proc~ply_l2p_trafo_1d proc~ply_l2p_trafo_3d ply_l2p_trafo_3D proc~ply_poly_project_n2m_multivar->proc~ply_l2p_trafo_3d interface~ply_pnttoleg_3d ply_pntToLeg_3D proc~ply_poly_project_n2m_multivar->interface~ply_pnttoleg_3d proc~ply_fxt_m2n_3d ply_fxt_m2n_3D proc~ply_poly_project_m2n_multivar->proc~ply_fxt_m2n_3d interface~ply_legtopnt_2d ply_legToPnt_2D proc~ply_poly_project_m2n_multivar->interface~ply_legtopnt_2d proc~ply_fxt_m2n_1d ply_fxt_m2n_1D proc~ply_poly_project_m2n_multivar->proc~ply_fxt_m2n_1d proc~ply_poly_project_m2n_multivar->proc~ply_l2p_trafo_2d proc~ply_fxt_m2n_2d ply_fxt_m2n_2D proc~ply_poly_project_m2n_multivar->proc~ply_fxt_m2n_2d proc~ply_poly_project_m2n_multivar->proc~ply_l2p_trafo_1d proc~ply_poly_project_m2n_multivar->proc~ply_l2p_trafo_3d interface~ply_legtopnt_3d ply_LegTopnt_3D proc~ply_poly_project_m2n_multivar->interface~ply_legtopnt_3d

Contents


Variables

TypeVisibilityAttributesNameInitial
integer, private :: rot(8)
integer, private :: nDofs
integer, private :: nScalars
integer, private :: nquadpoints
integer, private :: oversamp_dofs