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# File produced by Kranc
shares: GenericFD
shares: MethodOfLines
USES CCTK_INT MoL_Num_Evolved_Vars
USES CCTK_INT MoL_Num_ArrayEvolved_Vars
restricted:
CCTK_INT verbose "verbose" STEERABLE=ALWAYS
{
*:* :: ""
} 0
restricted:
CCTK_REAL sigma "sigma"
{
"*:*" :: ""
} 0
restricted:
CCTK_REAL v0 "v0"
{
"*:*" :: ""
} 0
restricted:
CCTK_REAL amp "amp"
{
"*:*" :: ""
} 0
restricted:
CCTK_REAL rhoR0 "rhoR0"
{
"*:*" :: ""
} 0
restricted:
CCTK_REAL rhoL0 "rhoL0"
{
"*:*" :: ""
} 0
restricted:
CCTK_REAL vR0 "vR0"
{
"*:*" :: ""
} 0
restricted:
CCTK_REAL vL0 "vL0"
{
"*:*" :: ""
} 0
restricted:
CCTK_REAL pR0 "pR0"
{
"*:*" :: ""
} 0
restricted:
CCTK_REAL pL0 "pL0"
{
"*:*" :: ""
} 0
restricted:
CCTK_REAL gamma "gamma"
{
"*:*" :: ""
} 0
restricted:
CCTK_REAL alpha "alpha"
{
"*:*" :: ""
} 0
private:
KEYWORD initial_data "initial_data"
{
"shock" :: "shock"
} "shock"
restricted:
CCTK_INT Euler_MaxNumEvolvedVars "Number of evolved variables used by this thorn" ACCUMULATOR-BASE=MethodofLines::MoL_Num_Evolved_Vars STEERABLE=RECOVER
{
5:5 :: "Number of evolved variables used by this thorn"
} 5
restricted:
CCTK_INT Euler_MaxNumArrayEvolvedVars "Number of Array evolved variables used by this thorn" ACCUMULATOR-BASE=MethodofLines::MoL_Num_ArrayEvolved_Vars STEERABLE=RECOVER
{
0:0 :: "Number of Array evolved variables used by this thorn"
} 0
restricted:
CCTK_INT timelevels "Number of active timelevels" STEERABLE=RECOVER
{
0:3 :: ""
} 3
restricted:
CCTK_INT rhs_timelevels "Number of active RHS timelevels" STEERABLE=RECOVER
{
0:3 :: ""
} 1
restricted:
CCTK_INT other_timelevels "Number of active timelevels for non-evolved grid functions" STEERABLE=RECOVER
{
0:3 :: ""
} 1
restricted:
CCTK_INT euler_initial_shock_calc_every "euler_initial_shock_calc_every" STEERABLE=ALWAYS
{
*:* :: ""
} 1
restricted:
CCTK_INT euler_primitives_calc_every "euler_primitives_calc_every" STEERABLE=ALWAYS
{
*:* :: ""
} 1
restricted:
CCTK_INT euler_conserved_calc_every "euler_conserved_calc_every" STEERABLE=ALWAYS
{
*:* :: ""
} 1
restricted:
CCTK_INT euler_zero_rhs_calc_every "euler_zero_rhs_calc_every" STEERABLE=ALWAYS
{
*:* :: ""
} 1
restricted:
CCTK_INT euler_reconstruct_1_calc_every "euler_reconstruct_1_calc_every" STEERABLE=ALWAYS
{
*:* :: ""
} 1
restricted:
CCTK_INT euler_conserved_flux_1_calc_every "euler_conserved_flux_1_calc_every" STEERABLE=ALWAYS
{
*:* :: ""
} 1
restricted:
CCTK_INT euler_flux_1_calc_every "euler_flux_1_calc_every" STEERABLE=ALWAYS
{
*:* :: ""
} 1
restricted:
CCTK_INT euler_rhs_1_calc_every "euler_rhs_1_calc_every" STEERABLE=ALWAYS
{
*:* :: ""
} 1
restricted:
CCTK_INT euler_initial_shock_calc_offset "euler_initial_shock_calc_offset" STEERABLE=ALWAYS
{
*:* :: ""
} 0
restricted:
CCTK_INT euler_primitives_calc_offset "euler_primitives_calc_offset" STEERABLE=ALWAYS
{
*:* :: ""
} 0
restricted:
CCTK_INT euler_conserved_calc_offset "euler_conserved_calc_offset" STEERABLE=ALWAYS
{
*:* :: ""
} 0
restricted:
CCTK_INT euler_zero_rhs_calc_offset "euler_zero_rhs_calc_offset" STEERABLE=ALWAYS
{
*:* :: ""
} 0
restricted:
CCTK_INT euler_reconstruct_1_calc_offset "euler_reconstruct_1_calc_offset" STEERABLE=ALWAYS
{
*:* :: ""
} 0
restricted:
CCTK_INT euler_conserved_flux_1_calc_offset "euler_conserved_flux_1_calc_offset" STEERABLE=ALWAYS
{
*:* :: ""
} 0
restricted:
CCTK_INT euler_flux_1_calc_offset "euler_flux_1_calc_offset" STEERABLE=ALWAYS
{
*:* :: ""
} 0
restricted:
CCTK_INT euler_rhs_1_calc_offset "euler_rhs_1_calc_offset" STEERABLE=ALWAYS
{
*:* :: ""
} 0
private:
KEYWORD Den_bound "Boundary condition to implement" STEERABLE=ALWAYS
{
"flat" :: "Flat boundary condition"
"none" :: "No boundary condition"
"static" :: "Boundaries held fixed"
"radiative" :: "Radiation boundary condition"
"scalar" :: "Dirichlet boundary condition"
"newrad" :: "Improved radiative boundary condition"
"skip" :: "skip boundary condition code"
} "skip"
private:
KEYWORD En_bound "Boundary condition to implement" STEERABLE=ALWAYS
{
"flat" :: "Flat boundary condition"
"none" :: "No boundary condition"
"static" :: "Boundaries held fixed"
"radiative" :: "Radiation boundary condition"
"scalar" :: "Dirichlet boundary condition"
"newrad" :: "Improved radiative boundary condition"
"skip" :: "skip boundary condition code"
} "skip"
private:
KEYWORD S1_bound "Boundary condition to implement" STEERABLE=ALWAYS
{
"flat" :: "Flat boundary condition"
"none" :: "No boundary condition"
"static" :: "Boundaries held fixed"
"radiative" :: "Radiation boundary condition"
"scalar" :: "Dirichlet boundary condition"
"newrad" :: "Improved radiative boundary condition"
"skip" :: "skip boundary condition code"
} "skip"
private:
KEYWORD S2_bound "Boundary condition to implement" STEERABLE=ALWAYS
{
"flat" :: "Flat boundary condition"
"none" :: "No boundary condition"
"static" :: "Boundaries held fixed"
"radiative" :: "Radiation boundary condition"
"scalar" :: "Dirichlet boundary condition"
"newrad" :: "Improved radiative boundary condition"
"skip" :: "skip boundary condition code"
} "skip"
private:
KEYWORD S3_bound "Boundary condition to implement" STEERABLE=ALWAYS
{
"flat" :: "Flat boundary condition"
"none" :: "No boundary condition"
"static" :: "Boundaries held fixed"
"radiative" :: "Radiation boundary condition"
"scalar" :: "Dirichlet boundary condition"
"newrad" :: "Improved radiative boundary condition"
"skip" :: "skip boundary condition code"
} "skip"
private:
KEYWORD Den_group_bound "Boundary condition to implement" STEERABLE=ALWAYS
{
"flat" :: "Flat boundary condition"
"none" :: "No boundary condition"
"static" :: "Boundaries held fixed"
"radiative" :: "Radiation boundary condition"
"scalar" :: "Dirichlet boundary condition"
"newrad" :: "Improved radiative boundary condition"
"skip" :: "skip boundary condition code"
} "none"
private:
KEYWORD En_group_bound "Boundary condition to implement" STEERABLE=ALWAYS
{
"flat" :: "Flat boundary condition"
"none" :: "No boundary condition"
"static" :: "Boundaries held fixed"
"radiative" :: "Radiation boundary condition"
"scalar" :: "Dirichlet boundary condition"
"newrad" :: "Improved radiative boundary condition"
"skip" :: "skip boundary condition code"
} "none"
private:
KEYWORD S_group_bound "Boundary condition to implement" STEERABLE=ALWAYS
{
"flat" :: "Flat boundary condition"
"none" :: "No boundary condition"
"static" :: "Boundaries held fixed"
"radiative" :: "Radiation boundary condition"
"scalar" :: "Dirichlet boundary condition"
"newrad" :: "Improved radiative boundary condition"
"skip" :: "skip boundary condition code"
} "none"
private:
CCTK_REAL Den_bound_speed "characteristic speed at boundary" STEERABLE=ALWAYS
{
"0:*" :: "outgoing characteristic speed > 0"
} 1.
private:
CCTK_REAL En_bound_speed "characteristic speed at boundary" STEERABLE=ALWAYS
{
"0:*" :: "outgoing characteristic speed > 0"
} 1.
private:
CCTK_REAL S1_bound_speed "characteristic speed at boundary" STEERABLE=ALWAYS
{
"0:*" :: "outgoing characteristic speed > 0"
} 1.
private:
CCTK_REAL S2_bound_speed "characteristic speed at boundary" STEERABLE=ALWAYS
{
"0:*" :: "outgoing characteristic speed > 0"
} 1.
private:
CCTK_REAL S3_bound_speed "characteristic speed at boundary" STEERABLE=ALWAYS
{
"0:*" :: "outgoing characteristic speed > 0"
} 1.
private:
CCTK_REAL Den_group_bound_speed "characteristic speed at boundary" STEERABLE=ALWAYS
{
"0:*" :: "outgoing characteristic speed > 0"
} 1.
private:
CCTK_REAL En_group_bound_speed "characteristic speed at boundary" STEERABLE=ALWAYS
{
"0:*" :: "outgoing characteristic speed > 0"
} 1.
private:
CCTK_REAL S_group_bound_speed "characteristic speed at boundary" STEERABLE=ALWAYS
{
"0:*" :: "outgoing characteristic speed > 0"
} 1.
private:
CCTK_REAL Den_bound_limit "limit value for r -> infinity" STEERABLE=ALWAYS
{
"*:*" :: "value of limit value is unrestricted"
} 0.
private:
CCTK_REAL En_bound_limit "limit value for r -> infinity" STEERABLE=ALWAYS
{
"*:*" :: "value of limit value is unrestricted"
} 0.
private:
CCTK_REAL S1_bound_limit "limit value for r -> infinity" STEERABLE=ALWAYS
{
"*:*" :: "value of limit value is unrestricted"
} 0.
private:
CCTK_REAL S2_bound_limit "limit value for r -> infinity" STEERABLE=ALWAYS
{
"*:*" :: "value of limit value is unrestricted"
} 0.
private:
CCTK_REAL S3_bound_limit "limit value for r -> infinity" STEERABLE=ALWAYS
{
"*:*" :: "value of limit value is unrestricted"
} 0.
private:
CCTK_REAL Den_group_bound_limit "limit value for r -> infinity" STEERABLE=ALWAYS
{
"*:*" :: "value of limit value is unrestricted"
} 0.
private:
CCTK_REAL En_group_bound_limit "limit value for r -> infinity" STEERABLE=ALWAYS
{
"*:*" :: "value of limit value is unrestricted"
} 0.
private:
CCTK_REAL S_group_bound_limit "limit value for r -> infinity" STEERABLE=ALWAYS
{
"*:*" :: "value of limit value is unrestricted"
} 0.
private:
CCTK_REAL Den_bound_scalar "Dirichlet boundary value" STEERABLE=ALWAYS
{
"*:*" :: "unrestricted"
} 0.
private:
CCTK_REAL En_bound_scalar "Dirichlet boundary value" STEERABLE=ALWAYS
{
"*:*" :: "unrestricted"
} 0.
private:
CCTK_REAL S1_bound_scalar "Dirichlet boundary value" STEERABLE=ALWAYS
{
"*:*" :: "unrestricted"
} 0.
private:
CCTK_REAL S2_bound_scalar "Dirichlet boundary value" STEERABLE=ALWAYS
{
"*:*" :: "unrestricted"
} 0.
private:
CCTK_REAL S3_bound_scalar "Dirichlet boundary value" STEERABLE=ALWAYS
{
"*:*" :: "unrestricted"
} 0.
private:
CCTK_REAL Den_group_bound_scalar "Dirichlet boundary value" STEERABLE=ALWAYS
{
"*:*" :: "unrestricted"
} 0.
private:
CCTK_REAL En_group_bound_scalar "Dirichlet boundary value" STEERABLE=ALWAYS
{
"*:*" :: "unrestricted"
} 0.
private:
CCTK_REAL S_group_bound_scalar "Dirichlet boundary value" STEERABLE=ALWAYS
{
"*:*" :: "unrestricted"
} 0.
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