self_advection_diffusion_1d Module


Uses

  • module~~self_advection_diffusion_1d~~UsesGraph module~self_advection_diffusion_1d self_advection_diffusion_1d module~self_advection_diffusion_1d_t self_advection_diffusion_1d_t module~self_advection_diffusion_1d->module~self_advection_diffusion_1d_t module~self_dgmodel1d~2 SELF_DGModel1D module~self_advection_diffusion_1d->module~self_dgmodel1d~2 module~self_gpu~2 SELF_GPU module~self_advection_diffusion_1d->module~self_gpu~2 module~self_advection_diffusion_1d_t->module~self_dgmodel1d~2 module~self_model SELF_Model module~self_advection_diffusion_1d_t->module~self_model module~self_mesh SELF_Mesh module~self_advection_diffusion_1d_t->module~self_mesh module~self_dgmodel1d_t SELF_DGModel1D_t module~self_dgmodel1d~2->module~self_dgmodel1d_t iso_c_binding iso_c_binding module~self_gpu~2->iso_c_binding module~self_gpu_enums~2 SELF_GPU_enums module~self_gpu~2->module~self_gpu_enums~2 module~self_supportroutines SELF_SupportRoutines module~self_model->module~self_supportroutines FEQParse FEQParse module~self_model->FEQParse module~self_hdf5 SELF_HDF5 module~self_model->module~self_hdf5 module~self_metadata SELF_Metadata module~self_model->module~self_metadata HDF5 HDF5 module~self_model->HDF5 module~self_mesh->iso_c_binding module~self_constants SELF_Constants module~self_mesh->module~self_constants module~self_domaindecomposition SELF_DomainDecomposition module~self_mesh->module~self_domaindecomposition module~self_gpu_enums~2->iso_c_binding module~self_dgmodel1d_t->module~self_model module~self_dgmodel1d_t->module~self_supportroutines module~self_dgmodel1d_t->FEQParse module~self_mappedscalar_1d SELF_MappedScalar_1D module~self_dgmodel1d_t->module~self_mappedscalar_1d module~self_dgmodel1d_t->module~self_hdf5 module~self_dgmodel1d_t->module~self_metadata module~self_dgmodel1d_t->HDF5 module~self_mesh_1d SELF_Mesh_1D module~self_dgmodel1d_t->module~self_mesh_1d module~self_supportroutines->module~self_constants iso_fortran_env iso_fortran_env module~self_supportroutines->iso_fortran_env module~self_constants->iso_c_binding module~self_constants->iso_fortran_env module~self_mappedscalar_1d_t SELF_MappedScalar_1D_t module~self_mappedscalar_1d->module~self_mappedscalar_1d_t module~self_hdf5->module~self_constants module~self_hdf5->HDF5 module~self_hdf5->iso_fortran_env mpi mpi module~self_hdf5->mpi module~self_metadata->module~self_hdf5 module~self_metadata->HDF5 module~self_domaindecomposition_t SELF_DomainDecomposition_t module~self_domaindecomposition->module~self_domaindecomposition_t module~self_mesh_1d->iso_c_binding module~self_mesh_1d->module~self_mesh module~self_mesh_1d->module~self_supportroutines module~self_mesh_1d->module~self_constants module~self_mesh_1d->module~self_hdf5 module~self_mesh_1d->HDF5 module~self_lagrange~3 SELF_Lagrange module~self_mesh_1d->module~self_lagrange~3 module~self_data SELF_Data module~self_mesh_1d->module~self_data module~self_scalar_1d~3 SELF_Scalar_1D module~self_mesh_1d->module~self_scalar_1d~3 module~self_domaindecomposition_t->iso_c_binding module~self_domaindecomposition_t->module~self_supportroutines module~self_domaindecomposition_t->module~self_constants module~self_domaindecomposition_t->module~self_lagrange~3 module~self_domaindecomposition_t->mpi module~self_lagrange~3->iso_c_binding module~self_lagrange~3->module~self_constants module~self_lagrange~3->iso_fortran_env module~self_lagrange_t SELF_Lagrange_t module~self_lagrange~3->module~self_lagrange_t module~self_mappedscalar_1d_t->iso_c_binding module~self_mappedscalar_1d_t->FEQParse module~self_mappedscalar_1d_t->module~self_constants module~self_mappedscalar_1d_t->module~self_hdf5 module~self_mappedscalar_1d_t->HDF5 module~self_mappedscalar_1d_t->module~self_mesh_1d module~self_mappedscalar_1d_t->module~self_lagrange~3 module~self_mappedscalar_1d_t->module~self_scalar_1d~3 module~self_geometry_1d SELF_Geometry_1D module~self_mappedscalar_1d_t->module~self_geometry_1d module~self_data->iso_c_binding module~self_data->FEQParse module~self_data->module~self_constants module~self_data->module~self_hdf5 module~self_data->module~self_metadata module~self_data->HDF5 module~self_data->module~self_lagrange~3 module~self_scalar_1d_t SELF_Scalar_1D_t module~self_scalar_1d~3->module~self_scalar_1d_t module~self_lagrange_t->iso_c_binding module~self_lagrange_t->module~self_supportroutines module~self_lagrange_t->module~self_constants module~self_lagrange_t->module~self_hdf5 module~self_lagrange_t->HDF5 module~self_lagrange_t->iso_fortran_env module~self_quadrature SELF_Quadrature module~self_lagrange_t->module~self_quadrature module~self_geometry_1d->module~self_supportroutines module~self_geometry_1d->module~self_constants module~self_geometry_1d->module~self_mesh_1d module~self_geometry_1d->module~self_lagrange~3 module~self_geometry_1d->module~self_data module~self_geometry_1d->module~self_scalar_1d~3 module~self_scalar_1d_t->iso_c_binding module~self_scalar_1d_t->FEQParse module~self_scalar_1d_t->module~self_constants module~self_scalar_1d_t->module~self_hdf5 module~self_scalar_1d_t->module~self_metadata module~self_scalar_1d_t->HDF5 module~self_scalar_1d_t->module~self_lagrange~3 module~self_scalar_1d_t->module~self_data module~self_quadrature->module~self_constants module~self_quadrature->iso_fortran_env

Contents


Interfaces

interface

  • public subroutine boundaryflux_advection_diffusion_1d_gpu(fb, fextb, dfavg, flux, u, nu, ndof) bind(c,name="0")

    Arguments

    TypeIntentOptionalAttributesName
    type(c_ptr), value:: fb
    type(c_ptr), value:: fextb
    type(c_ptr), value:: dfavg
    type(c_ptr), value:: flux
    real(kind=c_prec), value:: u
    real(kind=c_prec), value:: nu
    integer(kind=c_int), value:: ndof

interface

  • public subroutine fluxmethod_advection_diffusion_1d_gpu(solution, solutiongradient, flux, u, nu, ndof) bind(c,name="0")

    Arguments

    TypeIntentOptionalAttributesName
    type(c_ptr), value:: solution
    type(c_ptr), value:: solutiongradient
    type(c_ptr), value:: flux
    real(kind=c_prec), value:: u
    real(kind=c_prec), value:: nu
    integer(kind=c_int), value:: ndof

interface

  • public subroutine setboundarycondition_advection_diffusion_1d_gpu(extboundary, boundary, nel, nvar) bind(c,name="0")

    Arguments

    TypeIntentOptionalAttributesName
    type(c_ptr), value:: extboundary
    type(c_ptr), value:: boundary
    integer(kind=c_int), value:: nel
    integer(kind=c_int), value:: nvar

Derived Types

Components

TypeVisibilityAttributesNameInitial
type(MappedScalar1D), public :: dSdt
real(kind=prec), public :: dt
real(kind=prec), public :: entropy
type(MappedScalar1D), public :: flux
type(MappedScalar1D), public :: fluxDivergence
type(Geometry1D), public, pointer:: geometry
logical, public :: gradient_enabled =.false.
integer, public :: ioIterate =0
type(Mesh1D), public, pointer:: mesh
real(kind=prec), public :: nu
integer, public :: nvar
logical, public :: prescribed_bcs_enabled =.true.
type(MappedScalar1D), public :: solution
type(MappedScalar1D), public :: solutionGradient
type(MappedScalar1D), public :: source
real(kind=prec), public :: t
logical, public :: tecplot_enabled =.true.
procedure(SELF_timeIntegrator), public, pointer:: timeIntegrator=> Euler_timeIntegrator
real(kind=prec), public :: u
type(MappedScalar1D), public :: workSol

Type-Bound Procedures

procedure, public :: AdditionalFree => AdditionalFree_Model
procedure, public :: AdditionalInit => AdditionalInit_Model
procedure, public :: AdditionalOutput => AdditionalOutput_Model
procedure, public :: CalculateEntropy => CalculateEntropy_DGModel1D_t
procedure, public :: CalculateSolutionGradient => CalculateSolutionGradient_DGModel1D_t
procedure, public :: CalculateTendency => CalculateTendency_DGModel1D_t
procedure, public :: Euler_timeIntegrator
procedure, public :: ForwardStep => ForwardStep_Model
procedure, public :: Free => Free_DGModel1D_t
procedure, public :: GetSimulationTime
procedure, public :: IncrementIOCounter
procedure, public :: Init => Init_DGModel1D_t
procedure, public :: LowStorageRK2_timeIntegrator
procedure, public :: LowStorageRK3_timeIntegrator
procedure, public :: LowStorageRK4_timeIntegrator
procedure, public :: PreTendency => PreTendency_Model
procedure, public :: PrintType => PrintType_Model
procedure, public :: ReadModel => Read_DGModel1D_t
procedure, public :: ReportEntropy => ReportEntropy_Model
procedure, public :: ReportMetrics => ReportMetrics_Model
procedure, public :: ReportUserMetrics => ReportUserMetrics_Model
procedure, public :: SetMetadata => SetMetadata_DGModel1D_t
procedure, public :: SetNumberOfVariables => SetNumberOfVariables_Model
procedure, public :: SetSimulationTime
generic, public :: SetSolution => SetSolutionFromChar_DGModel1D_t, SetSolutionFromEqn_DGModel1D_t
generic, public :: SetTimeIntegrator => SetTimeIntegrator_withChar
procedure, public :: SourceMethod => sourcemethod_DGModel1D_t
procedure, public :: UpdateGRK2 => UpdateGRK2_DGModel1D_t
procedure, public :: UpdateGRK3 => UpdateGRK3_DGModel1D_t
procedure, public :: UpdateGRK4 => UpdateGRK4_DGModel1D_t
procedure, public :: UpdateSolution => UpdateSolution_DGModel1D_t
procedure, public :: WriteModel => Write_DGModel1D_t
procedure, public :: WriteTecplot => WriteTecplot_DGModel1D_t
procedure, public :: boundaryflux => boundaryflux_advection_diffusion_1d
procedure, public :: entropy_func => entropy_func_advection_diffusion_1d_t
procedure, public :: flux1d => flux1d_advection_diffusion_1d_t
procedure, public :: flux2D => flux2d_Model
procedure, public :: flux3D => flux3d_Model
procedure, public :: fluxmethod => fluxmethod_advection_diffusion_1d
procedure, public :: hbc1d_NoNormalFlow => hbc1d_Generic_Model
procedure, public :: hbc1d_Prescribed => hbc1d_Prescribed_Model
procedure, public :: hbc1d_Radiation => hbc1d_Generic_Model
procedure, public :: hbc2d_NoNormalFlow => hbc2d_Generic_Model
procedure, public :: hbc2d_Prescribed => hbc2d_Prescribed_Model
procedure, public :: hbc2d_Radiation => hbc2d_Generic_Model
procedure, public :: hbc3d_NoNormalFlow => hbc3d_Generic_Model
procedure, public :: hbc3d_Prescribed => hbc3d_Prescribed_Model
procedure, public :: hbc3d_Radiation => hbc3d_Generic_Model
procedure, public :: pbc1d_NoNormalFlow => pbc1d_Generic_Model
procedure, public :: pbc1d_Prescribed => pbc1d_Prescribed_Model
procedure, public :: pbc1d_Radiation => pbc1d_Generic_Model
procedure, public :: pbc2d_NoNormalFlow => pbc2d_Generic_Model
procedure, public :: pbc2d_Prescribed => pbc2d_Prescribed_Model
procedure, public :: pbc2d_Radiation => pbc2d_Generic_Model
procedure, public :: pbc3d_NoNormalFlow => pbc3d_Generic_Model
procedure, public :: pbc3d_Prescribed => pbc3d_Prescribed_Model
procedure, public :: pbc3d_Radiation => pbc3d_Generic_Model
procedure, public :: riemannflux1d => riemannflux1d_advection_diffusion_1d_t
procedure, public :: riemannflux2d => riemannflux2d_Model
procedure, public :: riemannflux3d => riemannflux3d_Model
procedure, public :: setboundarycondition => setboundarycondition_advection_diffusion_1d
procedure, public :: setgradientboundarycondition => setgradientboundarycondition_advection_diffusion_1d
procedure, public :: source1d => source1d_Model
procedure, public :: source2d => source2d_Model
procedure, public :: source3d => source3d_Model

Subroutines

public subroutine boundaryflux_advection_diffusion_1d(this)

Arguments

TypeIntentOptionalAttributesName
class(advection_diffusion_1d), intent(inout) :: this

public subroutine fluxmethod_advection_diffusion_1d(this)

Arguments

TypeIntentOptionalAttributesName
class(advection_diffusion_1d), intent(inout) :: this

Boundary conditions are set to periodic boundary conditions

Arguments

TypeIntentOptionalAttributesName
class(advection_diffusion_1d), intent(inout) :: this

Gradient boundary conditions are set to periodic boundary conditions

Arguments

TypeIntentOptionalAttributesName
class(advection_diffusion_1d), intent(inout) :: this