PHiLiP::Physics::NavierStokes< dim, nstate, real > Member List

This is the complete list of members for PHiLiP::Physics::NavierStokes< dim, nstate, real >, including all inherited members.

all_parameters	PHiLiP::Physics::PhysicsBase< dim, nstate, real >
angle_of_attack	PHiLiP::Physics::Euler< dim, nstate, real >
artificial_source_term(const real viscosity_coefficient, const dealii::Point< dim, real > &pos, const std::array< real, nstate > &solution) const	PHiLiP::Physics::PhysicsBase< dim, nstate, real >	virtual
BIG_NUMBER	PHiLiP::Physics::PhysicsBase< dim, nstate, real >
boundary_face_values(const int, const dealii::Point< dim, real > &, const dealii::Tensor< 1, dim, real > &, const std::array< real, nstate > &, const std::array< dealii::Tensor< 1, dim, real >, nstate > &, std::array< real, nstate > &, std::array< dealii::Tensor< 1, dim, real >, nstate > &) const	PHiLiP::Physics::Euler< dim, nstate, real >	virtual
boundary_farfield(std::array< real, nstate > &soln_bc) const	PHiLiP::Physics::Euler< dim, nstate, real >	protected
boundary_inflow(const real total_inlet_pressure, const real total_inlet_temperature, const dealii::Tensor< 1, dim, real > &normal_int, const std::array< real, nstate > &soln_int, std::array< real, nstate > &soln_bc) const	PHiLiP::Physics::Euler< dim, nstate, real >	protected
boundary_manufactured_solution(const dealii::Point< dim, real > &pos, const dealii::Tensor< 1, dim, real > &normal_int, const std::array< real, nstate > &soln_int, const std::array< dealii::Tensor< 1, dim, real >, nstate > &soln_grad_int, std::array< real, nstate > &soln_bc, std::array< dealii::Tensor< 1, dim, real >, nstate > &soln_grad_bc) const override	PHiLiP::Physics::NavierStokes< dim, nstate, real >	protectedvirtual
boundary_pressure_outflow(const real total_inlet_pressure, const real back_pressure, const std::array< real, nstate > &soln_int, std::array< real, nstate > &soln_bc) const	PHiLiP::Physics::Euler< dim, nstate, real >	protected
boundary_riemann(const dealii::Tensor< 1, dim, real > &normal_int, const std::array< real, nstate > &soln_int, std::array< real, nstate > &soln_bc) const	PHiLiP::Physics::Euler< dim, nstate, real >	protected
boundary_slip_wall(const dealii::Tensor< 1, dim, real > &normal_int, const std::array< real, nstate > &soln_int, const std::array< dealii::Tensor< 1, dim, real >, nstate > &soln_grad_int, std::array< real, nstate > &soln_bc, std::array< dealii::Tensor< 1, dim, real >, nstate > &soln_grad_bc) const	PHiLiP::Physics::Euler< dim, nstate, real >	protected
boundary_wall(const dealii::Tensor< 1, dim, real > &normal_int, const std::array< real, nstate > &soln_int, const std::array< dealii::Tensor< 1, dim, real >, nstate > &soln_grad_int, std::array< real, nstate > &soln_bc, std::array< dealii::Tensor< 1, dim, real >, nstate > &soln_grad_bc) const override	PHiLiP::Physics::NavierStokes< dim, nstate, real >	protectedvirtual
check_positive_quantity(real2 &quantity, const std::string qty_name) const	PHiLiP::Physics::Euler< dim, nstate, real >	protected
compute_conservative_variables_from_entropy_variables(const std::array< real, nstate > &entropy_var) const	PHiLiP::Physics::Euler< dim, nstate, real >	virtual
compute_density_from_pressure_temperature(const real pressure, const real temperature) const	PHiLiP::Physics::Euler< dim, nstate, real >	inline
compute_deviatoric_strain_rate_tensor(const std::array< real, nstate > &conservative_soln, const std::array< dealii::Tensor< 1, dim, real >, nstate > &conservative_soln_gradient) const	PHiLiP::Physics::NavierStokes< dim, nstate, real >
compute_deviatoric_strain_rate_tensor_based_dissipation_rate_from_integrated_deviatoric_strain_rate_tensor_magnitude_sqr(const real integrated_deviatoric_strain_rate_tensor_magnitude_sqr) const	PHiLiP::Physics::NavierStokes< dim, nstate, real >
compute_deviatoric_strain_rate_tensor_magnitude_sqr(const std::array< real, nstate > &conservative_soln, const std::array< dealii::Tensor< 1, dim, real >, nstate > &conservative_soln_gradient) const	PHiLiP::Physics::NavierStokes< dim, nstate, real >
compute_enstrophy(const std::array< real, nstate > &conservative_soln, const std::array< dealii::Tensor< 1, dim, real >, nstate > &conservative_soln_gradient) const	PHiLiP::Physics::NavierStokes< dim, nstate, real >
compute_entropy(const real2 density, const real2 pressure) const	PHiLiP::Physics::Euler< dim, nstate, real >	inline
compute_entropy_measure(const std::array< real, nstate > &conservative_soln) const	PHiLiP::Physics::Euler< dim, nstate, real >	inline
compute_entropy_measure(const real density, const real pressure) const	PHiLiP::Physics::Euler< dim, nstate, real >	inline
compute_entropy_variables(const std::array< real, nstate > &conservative_soln) const	PHiLiP::Physics::Euler< dim, nstate, real >	virtual
compute_heat_flux(const std::array< real2, nstate > &primitive_soln, const std::array< dealii::Tensor< 1, dim, real2 >, nstate > &primitive_soln_gradient) const	PHiLiP::Physics::NavierStokes< dim, nstate, real >
compute_heat_flux_given_scaled_heat_conductivity_and_temperature_gradient(const real2 scaled_heat_conductivity, const dealii::Tensor< 1, dim, real2 > &temperature_gradient) const	PHiLiP::Physics::NavierStokes< dim, nstate, real >
compute_ismail_roe_logarithmic_mean(const real val1, const real val2) const	PHiLiP::Physics::Euler< dim, nstate, real >	protected
compute_ismail_roe_parameter_vector_from_primitive(const std::array< real, nstate > &primitive_soln) const	PHiLiP::Physics::Euler< dim, nstate, real >	protected
compute_kinetic_energy_from_conservative_solution(const std::array< real, nstate > &conservative_soln) const	PHiLiP::Physics::Euler< dim, nstate, real >	inline
compute_kinetic_energy_from_primitive_solution(const std::array< real, nstate > &primitive_soln) const	PHiLiP::Physics::Euler< dim, nstate, real >	inline
compute_kinetic_energy_variables(const std::array< real, nstate > &conservative_soln) const	PHiLiP::Physics::Euler< dim, nstate, real >
compute_mach_number(const std::array< real, nstate > &conservative_soln) const	PHiLiP::Physics::Euler< dim, nstate, real >	inline
compute_mean_density(const std::array< real, nstate > &conservative_soln1, const std::array< real, nstate > &convervative_soln2) const	PHiLiP::Physics::Euler< dim, nstate, real >	inline
compute_mean_pressure(const std::array< real, nstate > &conservative_soln1, const std::array< real, nstate > &convervative_soln2) const	PHiLiP::Physics::Euler< dim, nstate, real >	inline
compute_mean_specific_total_energy(const std::array< real, nstate > &conservative_soln1, const std::array< real, nstate > &convervative_soln2) const	PHiLiP::Physics::Euler< dim, nstate, real >	inline
compute_mean_velocities(const std::array< real, nstate > &conservative_soln1, const std::array< real, nstate > &convervative_soln2) const	PHiLiP::Physics::Euler< dim, nstate, real >	inline
compute_numerical_entropy_function(const std::array< real, nstate > &conservative_soln) const	PHiLiP::Physics::Euler< dim, nstate, real >	inline
compute_pressure(const std::array< real2, nstate > &conservative_soln) const	PHiLiP::Physics::Euler< dim, nstate, real >	inline
compute_pressure_dilatation(const std::array< real, nstate > &conservative_soln, const std::array< dealii::Tensor< 1, dim, real >, nstate > &conservative_soln_gradient) const	PHiLiP::Physics::NavierStokes< dim, nstate, real >
compute_pressure_from_density_temperature(const real density, const real temperature) const	PHiLiP::Physics::Euler< dim, nstate, real >	inline
compute_scaled_heat_conductivity(const std::array< real2, nstate > &primitive_soln) const	PHiLiP::Physics::NavierStokes< dim, nstate, real >	inline
compute_scaled_heat_conductivity_given_scaled_viscosity_coefficient_and_prandtl_number(const real2 scaled_viscosity_coefficient, const double prandtl_number_input) const	PHiLiP::Physics::NavierStokes< dim, nstate, real >	inline
compute_scaled_viscosity_coefficient(const std::array< real2, nstate > &primitive_soln) const	PHiLiP::Physics::NavierStokes< dim, nstate, real >	inline
compute_scaled_viscosity_coefficient_derivative_wrt_temperature_via_dfad(std::array< real, nstate > &conservative_soln) const	PHiLiP::Physics::NavierStokes< dim, nstate, real >	inline
compute_scaled_viscosity_gradient(const std::array< real, nstate > &primitive_soln, const dealii::Tensor< 1, dim, real > &temperature_gradient) const	PHiLiP::Physics::NavierStokes< dim, nstate, real >
compute_sound(const std::array< real, nstate > &conservative_soln) const	PHiLiP::Physics::Euler< dim, nstate, real >	inline
compute_sound(const real density, const real pressure) const	PHiLiP::Physics::Euler< dim, nstate, real >	inline
compute_specific_enthalpy(const std::array< real, nstate > &conservative_soln, const real pressure) const	PHiLiP::Physics::Euler< dim, nstate, real >	inline
compute_strain_rate_tensor(const dealii::Tensor< 2, dim, real2 > &vel_gradient) const	PHiLiP::Physics::NavierStokes< dim, nstate, real >
compute_strain_rate_tensor_based_dissipation_rate_from_integrated_strain_rate_tensor_magnitude_sqr(const real integrated_strain_rate_tensor_magnitude_sqr) const	PHiLiP::Physics::NavierStokes< dim, nstate, real >
compute_strain_rate_tensor_magnitude_sqr(const std::array< real, nstate > &conservative_soln, const std::array< dealii::Tensor< 1, dim, real >, nstate > &conservative_soln_gradient) const	PHiLiP::Physics::NavierStokes< dim, nstate, real >
compute_temperature(const std::array< real2, nstate > &primitive_soln) const	PHiLiP::Physics::Euler< dim, nstate, real >	inline
compute_temperature_from_density_pressure(const real density, const real pressure) const	PHiLiP::Physics::Euler< dim, nstate, real >	inline
compute_temperature_gradient(const std::array< real2, nstate > &primitive_soln, const std::array< dealii::Tensor< 1, dim, real2 >, nstate > &primitive_soln_gradient) const	PHiLiP::Physics::NavierStokes< dim, nstate, real >
compute_total_energy(const std::array< real, nstate > &primitive_soln) const	PHiLiP::Physics::Euler< dim, nstate, real >	inline
compute_velocities(const std::array< real2, nstate > &conservative_soln) const	PHiLiP::Physics::Euler< dim, nstate, real >	inline
compute_velocity_squared(const dealii::Tensor< 1, dim, real2 > &velocities) const	PHiLiP::Physics::Euler< dim, nstate, real >	inline
compute_viscosity_coefficient(const std::array< real2, nstate > &primitive_soln) const	PHiLiP::Physics::NavierStokes< dim, nstate, real >	inline
compute_viscosity_coefficient_sutherlands_law(const std::array< real2, nstate > &primitive_soln) const	PHiLiP::Physics::NavierStokes< dim, nstate, real >	inline
compute_viscous_stress_tensor(const std::array< real2, nstate > &primitive_soln, const std::array< dealii::Tensor< 1, dim, real2 >, nstate > &primitive_soln_gradient) const	PHiLiP::Physics::NavierStokes< dim, nstate, real >
compute_viscous_stress_tensor_via_scaled_viscosity_and_strain_rate_tensor(const real2 scaled_viscosity_coefficient, const dealii::Tensor< 2, dim, real2 > &strain_rate_tensor) const	PHiLiP::Physics::NavierStokes< dim, nstate, real >
compute_vorticity(const std::array< real2, nstate > &conservative_soln, const std::array< dealii::Tensor< 1, dim, real2 >, nstate > &conservative_soln_gradient) const	PHiLiP::Physics::NavierStokes< dim, nstate, real >
compute_vorticity_based_dissipation_rate_from_integrated_enstrophy(const real integrated_enstrophy) const	PHiLiP::Physics::NavierStokes< dim, nstate, real >
compute_vorticity_magnitude(const std::array< real, nstate > &conservative_soln, const std::array< dealii::Tensor< 1, dim, real >, nstate > &conservative_soln_gradient) const	PHiLiP::Physics::NavierStokes< dim, nstate, real >
compute_vorticity_magnitude_sqr(const std::array< real, nstate > &conservative_soln, const std::array< dealii::Tensor< 1, dim, real >, nstate > &conservative_soln_gradient) const	PHiLiP::Physics::NavierStokes< dim, nstate, real >
constant_viscosity	PHiLiP::Physics::NavierStokes< dim, nstate, real >
convective_eigenvalues(const std::array< real, nstate > &, const dealii::Tensor< 1, dim, real > &) const override	PHiLiP::Physics::Euler< dim, nstate, real >	virtual
convective_flux(const std::array< real, nstate > &conservative_soln) const override	PHiLiP::Physics::Euler< dim, nstate, real >	virtual
convective_flux_directional_jacobian(const std::array< real, nstate > &conservative_soln, const dealii::Tensor< 1, dim, real > &normal) const	PHiLiP::Physics::Euler< dim, nstate, real >
convective_flux_directional_jacobian_via_dfad(std::array< real, nstate > &conservative_soln, const dealii::Tensor< 1, dim, real > &normal) const	PHiLiP::Physics::NavierStokes< dim, nstate, real >
convective_normal_flux(const std::array< real, nstate > &conservative_soln, const dealii::Tensor< 1, dim, real > &normal) const	PHiLiP::Physics::Euler< dim, nstate, real >
convective_numerical_split_flux(const std::array< real, nstate > &conservative_soln1, const std::array< real, nstate > &conservative_soln2) const override	PHiLiP::Physics::Euler< dim, nstate, real >	virtual
convective_numerical_split_flux_chandrashekar(const std::array< real, nstate > &conservative_soln1, const std::array< real, nstate > &conservative_soln2) const	PHiLiP::Physics::Euler< dim, nstate, real >	protected
convective_numerical_split_flux_ismail_roe(const std::array< real, nstate > &conservative_soln1, const std::array< real, nstate > &conservative_soln2) const	PHiLiP::Physics::Euler< dim, nstate, real >	protected
convective_numerical_split_flux_kennedy_gruber(const std::array< real, nstate > &conservative_soln1, const std::array< real, nstate > &conservative_soln2) const	PHiLiP::Physics::Euler< dim, nstate, real >	protected
convective_numerical_split_flux_ranocha(const std::array< real, nstate > &conservative_soln1, const std::array< real, nstate > &conservative_soln2) const	PHiLiP::Physics::Euler< dim, nstate, real >	protected
convective_source_term(const dealii::Point< dim, real > &pos) const	PHiLiP::Physics::Euler< dim, nstate, real >
convert_conservative_gradient_to_primitive_gradient(const std::array< real2, nstate > &conservative_soln, const std::array< dealii::Tensor< 1, dim, real2 >, nstate > &conservative_soln_gradient) const	PHiLiP::Physics::NavierStokes< dim, nstate, real >
convert_conservative_to_primitive(const std::array< real2, nstate > &conservative_soln) const	PHiLiP::Physics::Euler< dim, nstate, real >	inline
convert_primitive_to_conservative(const std::array< real, nstate > &primitive_soln) const	PHiLiP::Physics::Euler< dim, nstate, real >	inline
density_inf	PHiLiP::Physics::Euler< dim, nstate, real >
diffusion_tensor	PHiLiP::Physics::PhysicsBase< dim, nstate, real >	protected
dissipative_flux(const std::array< real, nstate > &conservative_soln, const std::array< dealii::Tensor< 1, dim, real >, nstate > &solution_gradient) const override	PHiLiP::Physics::NavierStokes< dim, nstate, real >	virtual
PHiLiP::Physics::Euler::dissipative_flux(const std::array< real, nstate > &conservative_soln, const std::array< dealii::Tensor< 1, dim, real >, nstate > &solution_gradient, const dealii::types::global_dof_index cell_index) const	PHiLiP::Physics::Euler< dim, nstate, real >	virtual
dissipative_flux_directional_jacobian(const std::array< real, nstate > &conservative_soln, const std::array< dealii::Tensor< 1, dim, real >, nstate > &solution_gradient, const dealii::Tensor< 1, dim, real > &normal) const	PHiLiP::Physics::NavierStokes< dim, nstate, real >
dissipative_flux_directional_jacobian_wrt_gradient_component(const std::array< real, nstate > &conservative_soln, const std::array< dealii::Tensor< 1, dim, real >, nstate > &solution_gradient, const dealii::Tensor< 1, dim, real > &normal, const int d_gradient) const	PHiLiP::Physics::NavierStokes< dim, nstate, real >
dissipative_flux_given_velocities_viscous_stress_tensor_and_heat_flux(const dealii::Tensor< 1, dim, real2 > &vel, const dealii::Tensor< 2, dim, real2 > &viscous_stress_tensor, const dealii::Tensor< 1, dim, real2 > &heat_flux) const	PHiLiP::Physics::NavierStokes< dim, nstate, real >
dissipative_flux_templated(const std::array< real2, nstate > &conservative_soln, const std::array< dealii::Tensor< 1, dim, real2 >, nstate > &solution_gradient) const	PHiLiP::Physics::NavierStokes< dim, nstate, real >	protected
dissipative_source_term(const dealii::Point< dim, real > &pos) const	PHiLiP::Physics::NavierStokes< dim, nstate, real >
dynamic_pressure_inf	PHiLiP::Physics::Euler< dim, nstate, real >
entropy_inf	PHiLiP::Physics::Euler< dim, nstate, real >
Euler(const Parameters::AllParameters *const parameters_input, const double ref_length, const double gamma_gas, const double mach_inf, const double angle_of_attack, const double side_slip_angle, std::shared_ptr< ManufacturedSolutionFunction< dim, real > > manufactured_solution_function=nullptr, const two_point_num_flux_enum two_point_num_flux_type=two_point_num_flux_enum::KG, const bool has_nonzero_diffusion=false, const bool has_nonzero_physical_source=false)	PHiLiP::Physics::Euler< dim, nstate, real >
extract_velocities_from_primitive(const std::array< real2, nstate > &primitive_soln) const	PHiLiP::Physics::Euler< dim, nstate, real >	inline
extract_velocities_gradient_from_primitive_solution_gradient(const std::array< dealii::Tensor< 1, dim, real2 >, nstate > &primitive_soln_gradient) const	PHiLiP::Physics::NavierStokes< dim, nstate, real >
freestream_temperature	PHiLiP::Physics::NavierStokes< dim, nstate, real >	protected
gam	PHiLiP::Physics::Euler< dim, nstate, real >
gamm1	PHiLiP::Physics::Euler< dim, nstate, real >
get_manufactured_solution_gradient(const dealii::Point< dim, real > &pos) const	PHiLiP::Physics::Euler< dim, nstate, real >	protected
get_manufactured_solution_value(const dealii::Point< dim, real > &pos) const	PHiLiP::Physics::Euler< dim, nstate, real >	protected
get_tensor_magnitude_sqr(const dealii::Tensor< 2, dim, real > &tensor) const	PHiLiP::Physics::NavierStokes< dim, nstate, real >	private
handle_non_physical_result(const std::string message="") const	PHiLiP::Physics::PhysicsBase< dim, nstate, real >
has_nonzero_diffusion	PHiLiP::Physics::PhysicsBase< dim, nstate, real >
has_nonzero_physical_source	PHiLiP::Physics::PhysicsBase< dim, nstate, real >
isothermal_wall_temperature	PHiLiP::Physics::NavierStokes< dim, nstate, real >
mach_inf	PHiLiP::Physics::Euler< dim, nstate, real >
mach_inf_sqr	PHiLiP::Physics::Euler< dim, nstate, real >
manufactured_solution_function	PHiLiP::Physics::PhysicsBase< dim, nstate, real >
max_convective_eigenvalue(const std::array< real, nstate > &soln) const override	PHiLiP::Physics::Euler< dim, nstate, real >	virtual
max_convective_normal_eigenvalue(const std::array< real, nstate > &soln, const dealii::Tensor< 1, dim, real > &normal) const override	PHiLiP::Physics::Euler< dim, nstate, real >	virtual
max_viscous_eigenvalue(const std::array< real, nstate > &soln) const override	PHiLiP::Physics::Euler< dim, nstate, real >	virtual
NavierStokes(const Parameters::AllParameters *const parameters_input, const double ref_length, const double gamma_gas, const double mach_inf, const double angle_of_attack, const double side_slip_angle, const double prandtl_number, const double reynolds_number_inf, const bool use_constant_viscosity, const double constant_viscosity, const double temperature_inf=273.15, const double isothermal_wall_temperature=1.0, const thermal_boundary_condition_enum thermal_boundary_condition_type=thermal_boundary_condition_enum::adiabatic, std::shared_ptr< ManufacturedSolutionFunction< dim, real > > manufactured_solution_function=nullptr, const two_point_num_flux_enum two_point_num_flux_type=two_point_num_flux_enum::KG)	PHiLiP::Physics::NavierStokes< dim, nstate, real >
non_physical_behavior_type	PHiLiP::Physics::PhysicsBase< dim, nstate, real >
NonPhysicalBehaviorEnum typedef (defined in PHiLiP::Physics::PhysicsBase< dim, nstate, real >)	PHiLiP::Physics::PhysicsBase< dim, nstate, real >
pcout	PHiLiP::Physics::PhysicsBase< dim, nstate, real >	protected
physical_source_term(const dealii::Point< dim, real > &pos, const std::array< real, nstate > &solution, const std::array< dealii::Tensor< 1, dim, real >, nstate > &solution_gradient, const dealii::types::global_dof_index cell_index) const	PHiLiP::Physics::PhysicsBase< dim, nstate, real >	virtual
PhysicsBase(const Parameters::AllParameters *const parameters_input, const bool has_nonzero_diffusion_input, const bool has_nonzero_physical_source_input, const dealii::Tensor< 2, 3, double > input_diffusion_tensor=Parameters::ManufacturedSolutionParam::get_default_diffusion_tensor(), std::shared_ptr< ManufacturedSolutionFunction< dim, real > > manufactured_solution_function_input=nullptr)	PHiLiP::Physics::PhysicsBase< dim, nstate, real >
PhysicsBase(const Parameters::AllParameters *const parameters_input, const bool has_nonzero_diffusion_input, const bool has_nonzero_physical_source_input, std::shared_ptr< ManufacturedSolutionFunction< dim, real > > manufactured_solution_function_input=nullptr)	PHiLiP::Physics::PhysicsBase< dim, nstate, real >
post_compute_derived_quantities_scalar(const double &uh, const dealii::Tensor< 1, dim > &, const dealii::Tensor< 2, dim > &, const dealii::Tensor< 1, dim > &, const dealii::Point< dim > &) const	PHiLiP::Physics::PhysicsBase< dim, nstate, real >	virtual
post_compute_derived_quantities_vector(const dealii::Vector< double > &uh, const std::vector< dealii::Tensor< 1, dim > > &duh, const std::vector< dealii::Tensor< 2, dim > > &dduh, const dealii::Tensor< 1, dim > &normals, const dealii::Point< dim > &evaluation_points) const	PHiLiP::Physics::Euler< dim, nstate, real >	virtual
post_get_data_component_interpretation() const	PHiLiP::Physics::Euler< dim, nstate, real >	virtual
post_get_names() const	PHiLiP::Physics::Euler< dim, nstate, real >	virtual
post_get_needed_update_flags() const	PHiLiP::Physics::Euler< dim, nstate, real >	virtual
prandtl_number	PHiLiP::Physics::NavierStokes< dim, nstate, real >
pressure_inf	PHiLiP::Physics::Euler< dim, nstate, real >
ref_length	PHiLiP::Physics::Euler< dim, nstate, real >
reynolds_number_inf	PHiLiP::Physics::NavierStokes< dim, nstate, real >
scale_viscosity_coefficient(const real2 viscosity_coefficient) const	PHiLiP::Physics::NavierStokes< dim, nstate, real >	inline
side_slip_angle	PHiLiP::Physics::Euler< dim, nstate, real >
sound_inf	PHiLiP::Physics::Euler< dim, nstate, real >
source_term(const dealii::Point< dim, real > &pos, const std::array< real, nstate > &conservative_soln, const real current_time) const override	PHiLiP::Physics::NavierStokes< dim, nstate, real >	virtual
PHiLiP::Physics::Euler::source_term(const dealii::Point< dim, real > &pos, const std::array< real, nstate > &conservative_soln, const real current_time, const dealii::types::global_dof_index cell_index) const	PHiLiP::Physics::Euler< dim, nstate, real >	virtual
sutherlands_temperature	PHiLiP::Physics::NavierStokes< dim, nstate, real >	protected
temperature_inf	PHiLiP::Physics::Euler< dim, nstate, real >
temperature_ratio	PHiLiP::Physics::NavierStokes< dim, nstate, real >	protected
thermal_boundary_condition_enum typedef (defined in PHiLiP::Physics::NavierStokes< dim, nstate, real >)	PHiLiP::Physics::NavierStokes< dim, nstate, real >
thermal_boundary_condition_type	PHiLiP::Physics::NavierStokes< dim, nstate, real >
two_point_num_flux_enum typedef (defined in PHiLiP::Physics::NavierStokes< dim, nstate, real >)	PHiLiP::Physics::NavierStokes< dim, nstate, real >
two_point_num_flux_type	PHiLiP::Physics::Euler< dim, nstate, real >
use_constant_viscosity	PHiLiP::Physics::NavierStokes< dim, nstate, real >
velocities_inf	PHiLiP::Physics::Euler< dim, nstate, real >
viscosity_coefficient_inf	PHiLiP::Physics::NavierStokes< dim, nstate, real >
~PhysicsBase()=default	PHiLiP::Physics::PhysicsBase< dim, nstate, real >	virtual