aspect::Particle::Property::ElasticStress< dim > Class Template Reference

Inheritance diagram for aspect::Particle::Property::ElasticStress< dim >:

Public Member Functions
	ElasticStress ()
void	initialize () override
void	initialize_one_particle_property (const Point< dim > &position, std::vector< double > &particle_properties) const override
void	update_particle_property (const unsigned int data_position, const Vector< double > &solution, const std::vector< Tensor< 1, dim >> &gradients, typename ParticleHandler< dim >::particle_iterator &particle) const override
UpdateTimeFlags	need_update () const override
UpdateFlags	get_needed_update_flags () const override
std::vector< std::pair< std::string, unsigned int > >	get_property_information () const override
Public Member Functions inherited from aspect::Particle::Property::Interface< dim >
virtual	~Interface ()=default
virtual DEAL_II_DEPRECATED void	update_one_particle_property (const unsigned int data_position, const Point< dim > &position, const Vector< double > &solution, const std::vector< Tensor< 1, dim >> &gradients, const ArrayView< double > &particle_properties) const
virtual InitializationModeForLateParticles	late_initialization_mode () const
virtual void	parse_parameters (ParameterHandler &prm)
Public Member Functions inherited from aspect::SimulatorAccess< dim >
	SimulatorAccess ()
	SimulatorAccess (const Simulator< dim > &simulator_object)
virtual	~SimulatorAccess ()=default
virtual void	initialize_simulator (const Simulator< dim > &simulator_object)
const Introspection< dim > &	introspection () const
const Simulator< dim > &	get_simulator () const
const Parameters< dim > &	get_parameters () const
SimulatorSignals< dim > &	get_signals () const
MPI_Comm	get_mpi_communicator () const
TimerOutput &	get_computing_timer () const
const ConditionalOStream &	get_pcout () const
double	get_time () const
double	get_timestep () const
double	get_old_timestep () const
unsigned int	get_timestep_number () const
unsigned int	get_nonlinear_iteration () const
const parallel::distributed::Triangulation< dim > &	get_triangulation () const
double	get_volume () const
const Mapping< dim > &	get_mapping () const
std::string	get_output_directory () const
bool	include_adiabatic_heating () const
bool	include_latent_heat () const
bool	include_melt_transport () const
int	get_stokes_velocity_degree () const
double	get_adiabatic_surface_temperature () const
double	get_surface_pressure () const
bool	convert_output_to_years () const
unsigned int	get_pre_refinement_step () const
unsigned int	n_compositional_fields () const
void	get_refinement_criteria (Vector< float > &estimated_error_per_cell) const
void	get_artificial_viscosity (Vector< float > &viscosity_per_cell, const bool skip_interior_cells=false) const
void	get_artificial_viscosity_composition (Vector< float > &viscosity_per_cell, const unsigned int compositional_variable) const
const LinearAlgebra::BlockVector &	get_current_linearization_point () const
const LinearAlgebra::BlockVector &	get_solution () const
const LinearAlgebra::BlockVector &	get_old_solution () const
const LinearAlgebra::BlockVector &	get_old_old_solution () const
const LinearAlgebra::BlockVector &	get_reaction_vector () const
const LinearAlgebra::BlockVector &	get_mesh_velocity () const
const DoFHandler< dim > &	get_dof_handler () const
const FiniteElement< dim > &	get_fe () const
const LinearAlgebra::BlockSparseMatrix &	get_system_matrix () const
const LinearAlgebra::BlockSparseMatrix &	get_system_preconditioner_matrix () const
const MaterialModel::Interface< dim > &	get_material_model () const
const GravityModel::Interface< dim > &	get_gravity_model () const
const InitialTopographyModel::Interface< dim > &	get_initial_topography_model () const
const GeometryModel::Interface< dim > &	get_geometry_model () const
const AdiabaticConditions::Interface< dim > &	get_adiabatic_conditions () const
bool	has_boundary_temperature () const
const BoundaryTemperature::Manager< dim > &	get_boundary_temperature_manager () const
const BoundaryHeatFlux::Interface< dim > &	get_boundary_heat_flux () const
bool	has_boundary_composition () const
const BoundaryComposition::Manager< dim > &	get_boundary_composition_manager () const
const std::map< types::boundary_id, std::unique_ptr< BoundaryTraction::Interface< dim > > > &	get_boundary_traction () const
std::shared_ptr< const InitialTemperature::Manager< dim > >	get_initial_temperature_manager_pointer () const
const InitialTemperature::Manager< dim > &	get_initial_temperature_manager () const
std::shared_ptr< const InitialComposition::Manager< dim > >	get_initial_composition_manager_pointer () const
const InitialComposition::Manager< dim > &	get_initial_composition_manager () const
const std::set< types::boundary_id > &	get_fixed_temperature_boundary_indicators () const
const std::set< types::boundary_id > &	get_fixed_heat_flux_boundary_indicators () const
const std::set< types::boundary_id > &	get_fixed_composition_boundary_indicators () const
const std::set< types::boundary_id > &	get_mesh_deformation_boundary_indicators () const
const BoundaryVelocity::Manager< dim > &	get_boundary_velocity_manager () const
const HeatingModel::Manager< dim > &	get_heating_model_manager () const
const MeshRefinement::Manager< dim > &	get_mesh_refinement_manager () const
const MeltHandler< dim > &	get_melt_handler () const
const VolumeOfFluidHandler< dim > &	get_volume_of_fluid_handler () const
const NewtonHandler< dim > &	get_newton_handler () const
const MeshDeformation::MeshDeformationHandler< dim > &	get_mesh_deformation_handler () const
const LateralAveraging< dim > &	get_lateral_averaging () const
const AffineConstraints< double > &	get_current_constraints () const
bool	simulator_is_past_initialization () const
double	get_pressure_scaling () const
bool	pressure_rhs_needs_compatibility_modification () const
bool	model_has_prescribed_stokes_solution () const
TableHandler &	get_statistics_object () const
const Postprocess::Manager< dim > &	get_postprocess_manager () const
const Particle::World< dim > &	get_particle_world () const
Particle::World< dim > &	get_particle_world ()
bool	is_stokes_matrix_free ()
const StokesMatrixFreeHandler< dim > &	get_stokes_matrix_free () const
RotationProperties< dim >	compute_net_angular_momentum (const bool use_constant_density, const LinearAlgebra::BlockVector &solution, const bool limit_to_top_faces=false) const

Private Attributes
MaterialModel::MaterialModelInputs< dim >	material_inputs
MaterialModel::MaterialModelOutputs< dim >	material_outputs

Additional Inherited Members
Static Public Member Functions inherited from aspect::Particle::Property::Interface< dim >
static void	declare_parameters (ParameterHandler &prm)
Static Public Member Functions inherited from aspect::SimulatorAccess< dim >
static void	get_composition_values_at_q_point (const std::vector< std::vector< double >> &composition_values, const unsigned int q, std::vector< double > &composition_values_at_q_point)

Detailed Description

template<int dim>
class aspect::Particle::Property::ElasticStress< dim >

A class that calculates the viscoelastic stress a particle has accumulated through time. The implementation of this property is equivalent to the implementation for compositional fields that is described in the viscoelastic material model and elastic stress rheology module.

Definition at line 43 of file elastic_stress.h.

Constructor & Destructor Documentation

ElasticStress()

template<int dim>

aspect::Particle::Property::ElasticStress< dim >::ElasticStress

(

)

Constructor.

Member Function Documentation

initialize()

template<int dim>

void aspect::Particle::Property::ElasticStress< dim >::initialize ( )

overridevirtual

Initialization function. This function is called once at the beginning of the program after parse_parameters is run.

Reimplemented from aspect::Particle::Property::Interface< dim >.

initialize_one_particle_property()

template<int dim>

void aspect::Particle::Property::ElasticStress< dim >::initialize_one_particle_property ( const Point< dim > &  position, std::vector< double > &  particle_properties  ) const

overridevirtual

Initialization function. This function is called once at the creation of every particle for every property to initialize its value.

Parameters

[in]	position	The current particle position.
[in,out]	particle_properties	The properties of the particle that is initialized within the call of this function. The purpose of this function should be to extend this vector by a number of properties.

Reimplemented from aspect::Particle::Property::Interface< dim >.

update_particle_property()

template<int dim>

void aspect::Particle::Property::ElasticStress< dim >::update_particle_property ( const unsigned int  data_position, const Vector< double > &  solution, const std::vector< Tensor< 1, dim >> &  gradients, typename ParticleHandler< dim >::particle_iterator &  particle  ) const

overridevirtual

Update function. This function is called every time an update is request by need_update() for every particle for every property. It is obvious that this function is called a lot, so its code should be efficient. The interface provides a default implementation that does nothing, therefore derived plugins that do not require an update do not need to implement this function.

Parameters

[in]	data_position	An unsigned integer that denotes which component of the particle property vector is associated with the current property. For properties that own several components it denotes the first component of this property, all other components fill consecutive entries in the particle_properties vector.
[in]	solution	The values of the solution variables at the current particle position.
[in]	gradients	The gradients of the solution variables at the current particle position.
[in,out]	particle	The particle that is updated within the call of this function. The particle location can be accessed using particle->get_location() and its properties using particle->get_properties().

Reimplemented from aspect::Particle::Property::Interface< dim >.

need_update()

template<int dim>

UpdateTimeFlags aspect::Particle::Property::ElasticStress< dim >::need_update ( ) const

overridevirtual

Returns an enum, which determines at what times particle properties are updated. The default implementation returns update_never, which signals that particle properties should never be updated. See the documentation of UpdateTimeFlags for a list of possible values and examples for their use. Every plugin that implements this function should return the value appropriate for its purpose, unless it does not need any update, which is the default. This option saves considerable computation time in cases, when no plugin needs to update particle properties over time.

Reimplemented from aspect::Particle::Property::Interface< dim >.

get_needed_update_flags()

template<int dim>

UpdateFlags aspect::Particle::Property::ElasticStress< dim >::get_needed_update_flags ( ) const

overridevirtual

Return which data has to be provided to update all properties. Note that particle properties can only ask for update_default (no data), update_values (solution values), and update_gradients (solution gradients). All other update flags will have no effect.

Returns

The necessary update flags for this particle property.

Reimplemented from aspect::Particle::Property::Interface< dim >.

get_property_information()

template<int dim>

std::vector<std::pair<std::string, unsigned int> > aspect::Particle::Property::ElasticStress< dim >::get_property_information ( ) const

overridevirtual

Set up the information about the names and number of components this property requires. Derived classes need to implement this function.

The purpose of this function is to return a vector of pairs of a property name and the number of components associated with this name (e.g. 1 for scalar properties, n for n-dimensional vectors).

Returns

A vector that contains pairs of the property names and the number of components this property plugin defines.

Implements aspect::Particle::Property::Interface< dim >.

Member Data Documentation

material_inputs

template<int dim>

MaterialModel::MaterialModelInputs<dim> aspect::Particle::Property::ElasticStress< dim >::material_inputs

mutableprivate

Objects that are used to compute the particle property. Since the object is expensive to create and is needed often it is kept as a member variable. Because it is changed inside a const member function (update_particle_property) it has to be mutable, but since it is only used inside that function and always set before being used that is not a problem. This implementation is not thread safe, but it is currently not used in a threaded context.

Definition at line 97 of file elastic_stress.h.

material_outputs

template<int dim>

MaterialModel::MaterialModelOutputs<dim> aspect::Particle::Property::ElasticStress< dim >::material_outputs

mutableprivate

Definition at line 98 of file elastic_stress.h.

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The documentation for this class was generated from the following file:

• /home/bob/source/include/aspect/particle/property/elastic_stress.h