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Data Structures | |
| struct | cs_var_cal_opt_t |
| structure containing the variable calculation options. More... | |
| struct | cs_solving_info_t |
| struct | cs_gas_mix_species_prop_t |
| struct | cs_space_disc_t |
| Space discretisation options descriptor. More... | |
| struct | cs_piso_t |
| PISO options descriptor. More... | |
Enumerations | |
| enum | { CS_INDEF = 1, CS_INLET = 2, CS_OUTLET = 3, CS_SYMMETRY = 4, CS_SMOOTHWALL = 5, CS_ROUGHWALL = 6, CS_ESICF = 7, CS_SSPCF = 8, CS_SOPCF = 9, CS_EPHCF = 10, CS_EQHCF = 11, CS_COUPLED = 12, CS_COUPLED_FD = 13, CS_FREE_INLET = 14, CS_FREE_SURFACE = 15, CS_CONVECTIVE_INLET = 16 } |
| enum | { CS_DRIFT_SCALAR_ON = (1 << 0), CS_DRIFT_SCALAR_ADD_DRIFT_FLUX = (1 << 1), CS_DRIFT_SCALAR_THERMOPHORESIS = (1 << 2), CS_DRIFT_SCALAR_TURBOPHORESIS = (1 << 3), CS_DRIFT_SCALAR_ELECTROPHORESIS = (1 << 4), CS_DRIFT_SCALAR_CENTRIFUGALFORCE = (1 << 5), CS_DRIFT_SCALAR_IMPOSED_MASS_FLUX = (1 << 6), CS_DRIFT_SCALAR_ZERO_BNDY_FLUX = (1 << 7) } |
Functions | |
| static int | cs_parameters_iscavr (cs_field_t *f) |
| For a given field, returns the scalar number of the fluctuating field if given field is a variance. More... | |
| cs_space_disc_t * | cs_get_glob_space_disc (void) |
| Provide access to cs_glob_space_disc. More... | |
| cs_piso_t * | cs_get_glob_piso (void) |
| Provide acces to cs_glob_piso. More... | |
| void | cs_parameters_set_n_buoyant_scalars (void) |
| void | cs_parameters_define_field_keys (void) |
| Define general field keys. More... | |
| void | cs_parameters_define_field_key_gas_mix (void) |
| Define field key for condensation. More... | |
| void | cs_parameters_read_restart_info (void) |
| Read general restart info. More... | |
| void | cs_parameters_add_variable (const char *name, int dim) |
| Solved variables are always defined on cells. More... | |
| void | cs_parameters_add_variable_variance (const char *name, const char *variable_name) |
| Define a user variable which is a variance of another variable. More... | |
| void | cs_parameters_add_property (const char *name, int dim, int location_id) |
| Define a user property. More... | |
| int | cs_parameters_n_added_variables (void) |
| Return the number of defined user variables not added yet. More... | |
| int | cs_parameters_n_added_properties (void) |
| Return the number of defined user properties not added yet. More... | |
| void | cs_parameters_create_added_variables (void) |
| Create previously added user variables. More... | |
| void | cs_parameters_create_added_properties (void) |
| Create previously added user properties. More... | |
| cs_field_t * | cs_parameters_add_boundary_values (cs_field_t *f) |
| Define a boundary values field for a variable field. More... | |
| cs_field_t * | cs_parameters_add_boundary_temperature (void) |
| Define a boundary values field for temperature, if applicable. More... | |
| cs_var_cal_opt_t | cs_parameters_var_cal_opt_default (void) |
| Return a local variable calculation options structure, with default options. More... | |
| void | cs_space_disc_log_setup (void) |
| Print the space discretization structure to setup.log. More... | |
Variables | |
| const cs_space_disc_t * | cs_glob_space_disc |
| const cs_piso_t * | cs_glob_piso |
| cs_tree_node_t * | cs_glob_tree |
| anonymous enum |
| anonymous enum |
| cs_piso_t* cs_get_glob_piso | ( | void | ) |
Provide acces to cs_glob_piso.
needed to initialize structure with GUI and user C functions.
| cs_space_disc_t* cs_get_glob_space_disc | ( | void | ) |
Provide access to cs_glob_space_disc.
needed to initialize structure in GUI and user C functions.
| cs_field_t* cs_parameters_add_boundary_temperature | ( | void | ) |
Define a boundary values field for temperature, if applicable.
When a volume temperature variable field already exists, this amounts to calling cs_parameters_add_boundary_values for that field. When such a variblae does not exist but we have an Enthalpy variables, an associated temperature boundary field is returned.
| cs_field_t* cs_parameters_add_boundary_values | ( | cs_field_t * | f | ) |
Define a boundary values field for a variable field.
| [in] | f | pointer to field structure |
| [in,out] | f | pointer to field structure |
| void cs_parameters_add_property | ( | const char * | name, |
| int | dim, | ||
| int | location_id | ||
| ) |
Define a user property.
| [in] | name | name of property and associated field |
| [in] | dim | property dimension |
| [in] | location_id | id of associated mesh location |
| void cs_parameters_add_variable | ( | const char * | name, |
| int | dim | ||
| ) |
Solved variables are always defined on cells.
Define a user variable.
| [in] | name | name of variable and associated field |
| [in] | dim | variable dimension |
Solved variables are always defined on cells.
Solved variables are always defined on cells.
| [in] | name | name of variable and associated field |
| [in] | dim | variable dimension |
| void cs_parameters_add_variable_variance | ( | const char * | name, |
| const char * | variable_name | ||
| ) |
Define a user variable which is a variance of another variable.
Only variances of thermal or user-defined variables are currently handled.
| [in] | name | name of variance and associated field |
| [in] | variable_name | name of associated variable |
| void cs_parameters_create_added_properties | ( | void | ) |
Create previously added user properties.
| void cs_parameters_create_added_variables | ( | void | ) |
Create previously added user variables.
| void cs_parameters_define_field_key_gas_mix | ( | void | ) |
Define field key for condensation.
Note: this should be moved in the future to a condensation-specific file.
| void cs_parameters_define_field_keys | ( | void | ) |
Define general field keys.
A recommended practice for different submodules would be to use "cs_<module>_key_init() functions to define keys specific to those modules.
Is the field time-extrapolated? -1: default automatic value 0: "standard" first-order: the value calculated at the beginning of the current time step (from the variables known at the end of the previous time step) is used 1: second-order: the physical property 
is extrapolated according to the formula ![$\phi^{n+\theta}=[(1+\theta)\phi^n-\theta \phi^{n-1}]$](form_180.png)
, 
being given by the value of 0.5 2: first-order: the physical property is extrapolated at $n+1$ according to the same formula as when = 1 but with = 1
|
inlinestatic |
For a given field, returns the scalar number of the fluctuating field if given field is a variance.
| [in] | f | field |
| int cs_parameters_n_added_properties | ( | void | ) |
Return the number of defined user properties not added yet.
This number is reset to 0 when cs_parameters_create_added_properties() is called.
| int cs_parameters_n_added_variables | ( | void | ) |
Return the number of defined user variables not added yet.
This number is reset to 0 when cs_parameters_create_added_variables() is called.
This number is reset to 0 when cs_parameters_create_added_variables is called.
| void cs_parameters_read_restart_info | ( | void | ) |
Read general restart info.
This updates the previous time step info.
| void cs_parameters_set_n_buoyant_scalars | ( | void | ) |
| cs_var_cal_opt_t cs_parameters_var_cal_opt_default | ( | void | ) |
Return a local variable calculation options structure, with default options.
| void cs_space_disc_log_setup | ( | void | ) |
Print the space discretization structure to setup.log.
| const cs_piso_t* cs_glob_piso |
| const cs_space_disc_t* cs_glob_space_disc |
| cs_tree_node_t* cs_glob_tree |
Global parameters tree structure
1.8.13