PHiLiP::Tests::diffusion_v< dim, nstate, real > Class Template Reference
physics for the v variable More...
#include <diffusion_exact_adjoint.h>
Inheritance diagram for PHiLiP::Tests::diffusion_v< dim, nstate, real >:
Collaboration diagram for PHiLiP::Tests::diffusion_v< dim, nstate, real >:
Public Member Functions | |
| diffusion_v (const Parameters::AllParameters *const parameters_input, const bool convection, const bool diffusion) | |
| constructor | |
| std::array< real, nstate > | source_term (const dealii::Point< dim, real > &pos, const std::array< real, nstate > &solution, const real current_time, const dealii::types::global_dof_index cell_index) const override |
| source term = g | |
| real | objective_function (const dealii::Point< dim, real > &pos) const override |
| objective function = f | |
 Public Member Functions inherited from PHiLiP::Tests::diffusion_objective< dim, nstate, real > | |
| diffusion_objective (const Parameters::AllParameters *const parameters_input, const bool convection, const bool diffusion, std::shared_ptr< ManufacturedSolutionFunction< dim, real >> manufactured_solution_function) | |
| constructor | |
| Public Member Functions inherited from PHiLiP::Physics::ConvectionDiffusion< dim, nstate, real > | |
| ConvectionDiffusion (const Parameters::AllParameters *const parameters_input, const bool convection=true, const bool diffusion=true, const dealii::Tensor< 2, 3, double > input_diffusion_tensor=Parameters::ManufacturedSolutionParam::get_default_diffusion_tensor(), const dealii::Tensor< 1, 3, double > input_advection_vector=Parameters::ManufacturedSolutionParam::get_default_advection_vector(), const double input_diffusion_coefficient=Parameters::ManufacturedSolutionParam::get_default_diffusion_coefficient(), std::shared_ptr< ManufacturedSolutionFunction< dim, real > > manufactured_solution_function=nullptr, const Parameters::AllParameters::TestType parameters_test=Parameters::AllParameters::TestType::run_control, const bool has_nonzero_physical_source=false) | |
| Constructor. | |
| std::array< dealii::Tensor< 1, dim, real >, nstate > | convective_flux (const std::array< real, nstate > &solution) const |
| Convective flux: \( \mathbf{F}_{conv} = u \). | |
| std::array< dealii::Tensor< 1, dim, real >, nstate > | convective_numerical_split_flux (const std::array< real, nstate > &soln1, const std::array< real, nstate > &soln2) const override |
| Convective numerical split flux for split form. | |
| std::array< real, nstate > | compute_entropy_variables (const std::array< real, nstate > &conservative_soln) const |
| Computes the entropy variables. | |
| std::array< real, nstate > | compute_conservative_variables_from_entropy_variables (const std::array< real, nstate > &entropy_var) const |
| Computes the conservative variables from the entropy variables. | |
| std::array< real, nstate > | convective_eigenvalues (const std::array< real, nstate > &, const dealii::Tensor< 1, dim, real > &) const |
| Spectral radius of convective term Jacobian is 'c'. | |
| real | max_convective_eigenvalue (const std::array< real, nstate > &soln) const |
| Maximum convective eigenvalue. | |
| real | max_viscous_eigenvalue (const std::array< real, nstate > &soln) const |
| Maximum viscous eigenvalue. | |
| std::array< dealii::Tensor< 1, dim, real >, nstate > | dissipative_flux (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 |
| Dissipative flux: u. | |
| std::array< dealii::Tensor< 1, dim, real >, nstate > | dissipative_flux (const std::array< real, nstate > &solution, const std::array< dealii::Tensor< 1, dim, real >, nstate > &solution_gradient) const |
| (function overload) Dissipative flux: u | |
| std::array< real, nstate > | source_term (const dealii::Point< dim, real > &pos, const std::array< real, nstate > &solution, const real current_time) const |
| (function overload) Source term is zero or depends on manufactured solution | |
| void | 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 |
| If diffusion is present, assign Dirichlet boundary condition. More... | |
| Public Member Functions inherited from 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, 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) | |
| Default constructor that will set the constants. | |
| 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) | |
| Constructor that will call default constructor. | |
| virtual | ~PhysicsBase ()=default |
| Virtual destructor required for abstract classes. | |
| virtual real | max_convective_normal_eigenvalue (const std::array< real, nstate > &soln, const dealii::Tensor< 1, dim, real > &normal) const |
| Maximum convective normal eigenvalue (used in Lax-Friedrichs) | |
| virtual std::array< real, nstate > | 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 |
| Physical source term that does require differentiation. | |
| virtual std::array< real, nstate > | artificial_source_term (const real viscosity_coefficient, const dealii::Point< dim, real > &pos, const std::array< real, nstate > &solution) const |
| Artificial source term that does not require differentiation stemming from artificial dissipation. | |
| virtual dealii::Vector< double > | post_compute_derived_quantities_vector (const dealii::Vector< double > &uh, const std::vector< dealii::Tensor< 1, dim > > &, const std::vector< dealii::Tensor< 2, dim > > &, const dealii::Tensor< 1, dim > &, const dealii::Point< dim > &) const |
| Returns current vector solution to be used by PhysicsPostprocessor to output current solution. More... | |
| virtual dealii::Vector< double > | 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 |
| Returns current scalar solution to be used by PhysicsPostprocessor to output current solution. More... | |
| virtual std::vector< std::string > | post_get_names () const |
| Returns names of the solution to be used by PhysicsPostprocessor to output current solution. More... | |
| virtual std::vector< dealii::DataComponentInterpretation::DataComponentInterpretation > | post_get_data_component_interpretation () const |
| Returns DataComponentInterpretation of the solution to be used by PhysicsPostprocessor to output current solution. More... | |
| virtual dealii::UpdateFlags | post_get_needed_update_flags () const |
| Returns required update flags of the solution to be used by PhysicsPostprocessor to output current solution. More... | |
| template<typename real2 > | |
| real2 | handle_non_physical_result (const std::string message="") const |
| Function to handle nonphysical results. More... | |
Additional Inherited Members | |
| Public Types inherited from PHiLiP::Physics::PhysicsBase< dim, nstate, real > | |
| using | NonPhysicalBehaviorEnum = Parameters::AllParameters::NonPhysicalBehaviorEnum |
| Static Public Member Functions inherited from PHiLiP::Tests::diffusion_objective< dim, nstate, real > | |
| static double | default_diffusion_coefficient () |
| negative one is used for the diffusion coefficient so that the problem becomes \(\nabla u(x) = f(x)\) | |
| static dealii::Tensor< 2, 3, double > | default_diffusion_tensor () |
| Default diffusion tensor is set for isotropic diffusion, \(D=I\). | |
| Public Attributes inherited from PHiLiP::Physics::ConvectionDiffusion< dim, nstate, real > | |
| const bool | hasConvection |
| Turns ON/OFF convection term. | |
| const bool | hasDiffusion |
| const Parameters::AllParameters::TestType | test_type |
| Allows convection diffusion to distinguish between different unsteady test types. More... | |
| Public Attributes inherited from PHiLiP::Physics::PhysicsBase< dim, nstate, real > | |
| const bool | has_nonzero_diffusion |
| Flag to signal that diffusion term is non-zero. | |
| const bool | has_nonzero_physical_source |
| Flag to signal that physical source term is non-zero. | |
| const Parameters::AllParameters *const | all_parameters |
| Pointer to parameters object. | |
| const NonPhysicalBehaviorEnum | non_physical_behavior_type |
| Determines type of nonphysical behavior. | |
| std::shared_ptr< ManufacturedSolutionFunction< dim, real > > | manufactured_solution_function |
| Manufactured solution function. | |
| const double | BIG_NUMBER = 1e100 |
| BIG_NUMBER which is returned in place of NaN according to handle_non_physical_result() More... | |
| Protected Member Functions inherited from PHiLiP::Physics::ConvectionDiffusion< dim, nstate, real > | |
| dealii::Tensor< 1, dim, real > | advection_speed () const |
| Linear advection speed: c. | |
| real | diffusion_coefficient () const |
| Diffusion coefficient. | |
| Protected Attributes inherited from PHiLiP::Physics::ConvectionDiffusion< dim, nstate, real > | |
| double | linear_advection_velocity [3] = { 1.1, -atan(1)*4.0 / exp(1), exp(1)/(atan(1)*4.0) } |
| Linear advection velocity in x, y, and z directions. | |
| double | diffusion_scaling_coeff = 0.1*atan(1)*4.0/exp(1) |
| Diffusion scaling coefficient in front of the diffusion tensor. | |
| Protected Attributes inherited from PHiLiP::Physics::PhysicsBase< dim, nstate, real > | |
| dealii::ConditionalOStream | pcout |
| ConditionalOStream. More... | |
| dealii::Tensor< 2, dim, double > | diffusion_tensor |
| Anisotropic diffusion matrix. More... | |
Detailed Description
template<int dim, int nstate, typename real>
class PHiLiP::Tests::diffusion_v< dim, nstate, real >
physics for the v variable
Definition at line 200 of file diffusion_exact_adjoint.h.
The documentation for this class was generated from the following files:
- src/testing/diffusion_exact_adjoint.h
- src/testing/diffusion_exact_adjoint.cpp
