atl_modg_bnd Subroutine

public subroutine atl_modg_bnd(bc, faceOp, poly_proj, nDerivatives, equation, normalRot, isNodalScheme, time, currentFace, currentLevel, nQuadPoints, ndofs, oversamp_dofs, modalFace, faceMaterial)

Subroutine to create the modal representation for a ceratin boundary face.

Arguments

TypeIntentOptionalAttributesName
type(atl_boundary_type), intent(in) :: bc

The boundary condition to generate the modal representation for.

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

The modal representation on the face of the neighboring element.

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

Data for the projection methods

integer, intent(in) :: nDerivatives

The number of derivative boundaries to be set

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

The equation system you use.

type(coordRotation_type), intent(in) :: normalRot

Rotation indices to rotate global coordinate system into face normal coordinate system.

logical, intent(in) :: isNodalScheme

Does the solver require isNodalScheme information anyway?

type(tem_time_type), intent(in) :: time

The absolute time point.

integer, intent(in) :: currentFace

current face to compute on, used for index array

integer, intent(in) :: currentLevel

the level to compute on

integer, intent(in) :: nQuadPoints

Number of quadurature points on the face

integer, intent(in) :: ndofs

Number of quadurature points on the face

integer, intent(in) :: oversamp_dofs

Number of quadurature points on the face

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

The modal representation on the boundary face.

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

The material of the boundary face. First dimension is the number of points on the face. Second dimension is the number of material parameters.


Calls

proc~~atl_modg_bnd~~CallsGraph proc~atl_modg_bnd atl_modg_bnd proc~modg_modal_bnd modg_modal_bnd proc~atl_modg_bnd->proc~modg_modal_bnd proc~tem_abort tem_abort proc~atl_modg_bnd->proc~tem_abort proc~modg_nodal_bnd modg_nodal_bnd proc~atl_modg_bnd->proc~modg_nodal_bnd proc~modg_modal_bnd->proc~tem_abort interface~ply_poly_project_n2m ply_poly_project_n2m proc~modg_modal_bnd->interface~ply_poly_project_n2m proc~modg_bnd_mirrorpoint modg_bnd_mirrorPoint proc~modg_modal_bnd->proc~modg_bnd_mirrorpoint proc~modg_bnd_extrapolate modg_bnd_extrapolate proc~modg_modal_bnd->proc~modg_bnd_extrapolate proc~ply_convertfromoversample ply_convertFromOversample proc~modg_modal_bnd->proc~ply_convertfromoversample proc~modg_nodal_bnd->proc~tem_abort proc~modg_nodal_bnd->interface~ply_poly_project_n2m interface~ply_poly_project_m2n ply_poly_project_m2n proc~modg_nodal_bnd->interface~ply_poly_project_m2n proc~ply_convert2oversample ply_convert2oversample proc~modg_nodal_bnd->proc~ply_convert2oversample proc~modg_nodal_bnd->proc~modg_bnd_mirrorpoint proc~modg_nodal_bnd->proc~modg_bnd_extrapolate proc~modg_nodal_bnd->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~tem_stoptimer tem_stopTimer proc~modg_bnd_mirrorpoint->proc~tem_stoptimer proc~tem_starttimer tem_startTimer proc~modg_bnd_mirrorpoint->proc~tem_starttimer 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

Called by

proc~~atl_modg_bnd~~CalledByGraph proc~atl_modg_bnd atl_modg_bnd proc~atl_modg_set_bnd atl_modg_set_bnd proc~atl_modg_set_bnd->proc~atl_modg_bnd proc~atl_set_covolume_bnd atl_set_covolume_bnd proc~atl_set_covolume_bnd->proc~atl_modg_bnd proc~atl_interpolate_elemstate atl_interpolate_elemstate proc~atl_interpolate_elemstate->proc~atl_set_covolume_bnd proc~atl_interpolate_elemstate->proc~atl_interpolate_elemstate proc~preprocess_rhs_cubes preprocess_rhs_cubes proc~preprocess_rhs_cubes->proc~atl_modg_set_bnd proc~atl_covolume_tocovolume atl_covolume_tocovolume proc~atl_covolume_tocovolume->proc~atl_interpolate_elemstate proc~atl_covolume_tocovolume_1d atl_covolume_tocovolume_1d proc~atl_covolume_tocovolume_1d->proc~atl_interpolate_elemstate interface~atl_preprocess_rhs atl_preprocess_rhs interface~atl_preprocess_rhs->proc~preprocess_rhs_cubes proc~atl_covolume_tocovolume_2d atl_covolume_tocovolume_2d proc~atl_covolume_tocovolume_2d->proc~atl_interpolate_elemstate proc~rktaylor_substep rktaylor_substep proc~rktaylor_substep->interface~atl_preprocess_rhs proc~rk2_substep rk2_substep proc~rk2_substep->interface~atl_preprocess_rhs proc~mesh_timestep_euler mesh_timestep_euler proc~mesh_timestep_euler->interface~atl_preprocess_rhs proc~imexrk_substep imexrk_substep proc~imexrk_substep->interface~atl_preprocess_rhs proc~atl_covolume_1d atl_covolume_1d proc~atl_covolume_1d->proc~atl_covolume_tocovolume_1d proc~rk4_substep rk4_substep proc~rk4_substep->interface~atl_preprocess_rhs proc~atl_covolume atl_covolume proc~atl_covolume->proc~atl_covolume_tocovolume proc~global_corrector_substep global_corrector_substep proc~global_corrector_substep->interface~atl_preprocess_rhs proc~atl_covolume_2d atl_covolume_2d proc~atl_covolume_2d->proc~atl_covolume_tocovolume_2d

Contents

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