1 #ifndef __CS_DOMAIN_H__
2 #define __CS_DOMAIN_H__
60 typedef struct _cs_domain_boundary_t cs_domain_boundary_t;
119 cs_groundwater_t *
gw;
195 const char *bdy_name);
210 const char *bdy_name);
267 const char *pty_name,
268 const char *type_name);
283 const char *ref_name);
296 const char *adv_name);
311 const char *ref_name);
373 const char *var_name,
376 double distribution_coef,
377 double reaction_rate);
421 const char *key_type,
int n_properties
Definition: cs_domain.h:89
time step descriptor
Definition: cs_time_step.h:51
cs_time_step_options_t time_options
Definition: cs_domain.h:84
int wall_distance_eq_id
Definition: cs_domain.h:116
cs_time_step_t * time_step
Definition: cs_domain.h:83
cs_equation_t * cs_domain_get_equation(const cs_domain_t *domain, const char *eqname)
Find the cs_equation_t structure whith name eqname Return NULL if not find.
Definition: cs_domain.c:1172
cs_cdo_connect_t * connect
Definition: cs_domain.h:73
void cs_domain_activate_wall_distance(cs_domain_t *domain)
Activate the computation of the wall distance.
Definition: cs_domain.c:1199
void cs_domain_increment_time(cs_domain_t *domain)
Update time step after one temporal iteration.
Definition: cs_domain.c:1531
cs_domain_t * cs_domain_init(const cs_mesh_t *mesh, const cs_mesh_quantities_t *mesh_quantities)
Create and initialize of cs_domain_t structure.
Definition: cs_domain.c:481
#define BEGIN_C_DECLS
Definition: cs_defs.h:429
void cs_domain_add_boundary(cs_domain_t *domain, const char *ml_name, const char *bdy_name)
Add a boundary type defined on a mesh location.
Definition: cs_domain.c:834
cs_domain_boundary_t * boundaries
Definition: cs_domain.h:77
void cs_domain_add_advection_field(cs_domain_t *domain, const char *adv_name)
Add a new advection field to the current computational domain.
Definition: cs_domain.c:1107
Definition: cs_cdo_connect.h:67
int n_equations
Definition: cs_domain.h:100
cs_property_t * cs_domain_get_property(const cs_domain_t *domain, const char *ref_name)
Find the related property definition from its name.
Definition: cs_domain.c:1083
bool cs_domain_needs_iterate(cs_domain_t *domain)
Check if one needs to continue iterations in time.
Definition: cs_domain.c:1498
void cs_domain_create_fields(cs_domain_t *domain)
Create a cs_field_t structure for each equation defined in the domain.
Definition: cs_domain.c:1476
void cs_domain_activate_groundwater(cs_domain_t *domain, const char *model)
Activate the computation of the Richards' equation.
Definition: cs_domain.c:1230
Definition: cs_cdo_quantities.h:86
const cs_mesh_t * mesh
Definition: cs_domain.h:65
cs_equation_t ** equations
Definition: cs_domain.h:103
void cs_domain_set_default_boundary(cs_domain_t *domain, const char *bdy_name)
Set the boundary type by default.
Definition: cs_domain.c:794
void cs_domain_last_setup(cs_domain_t *domain)
Proceed to the last settings of a cs_domain_t structure.
Definition: cs_domain.c:582
const cs_mesh_quantities_t * mesh_quantities
Definition: cs_domain.h:66
int n_predef_equations
Definition: cs_domain.h:101
int n_adv_fields
Definition: cs_domain.h:93
cs_adv_field_t * cs_domain_get_advection_field(const cs_domain_t *domain, const char *ref_name)
Find the related advection field definition from its name.
Definition: cs_domain.c:1145
cs_adv_field_t ** adv_fields
Definition: cs_domain.h:94
int output_freq
Definition: cs_domain.h:122
double dt_cur
Definition: cs_domain.h:80
int n_user_equations
Definition: cs_domain.h:102
Definition: cs_mesh_quantities.h:51
cs_cdo_quantities_t * cdo_quantities
Definition: cs_domain.h:74
void cs_domain_set_time_step(cs_domain_t *domain, double t_end, int nt_max, const char *defkey, void *defval)
Setup the time step structure related to a domain.
Definition: cs_domain.c:925
int richards_eq_id
Definition: cs_domain.h:115
Definition: cs_domain.h:62
void cs_domain_define_current_time_step(cs_domain_t *domain)
Set the current time step for this new time iteration.
Definition: cs_domain.c:998
bool only_steady
Definition: cs_domain.h:105
cs_real_t cs_real_3_t[3]
vector of 3 floating-point values
Definition: cs_defs.h:307
void cs_domain_setup_predefined_equations(cs_domain_t *domain)
Setup predefined equations which are activated.
Definition: cs_domain.c:1380
Definition: cs_param.h:73
cs_groundwater_t * cs_domain_get_groundwater(const cs_domain_t *domain)
Retrieve the pointer to a cs_groundwater_t structure related to this domain.
Definition: cs_domain.c:1294
void cs_domain_add_property(cs_domain_t *domain, const char *pty_name, const char *type_name)
Add a new property to the current computational domain.
Definition: cs_domain.c:1043
time step options descriptor
Definition: cs_time_step.h:76
void cs_domain_add_groundwater_tracer(cs_domain_t *domain, const char *eq_name, const char *var_name, cs_real_3_t dispersivity, double bulk_density, double distribution_coef, double reaction_rate)
Add a new equation related to the groundwater flow module This equation is a specific unsteady advect...
Definition: cs_domain.c:1321
#define END_C_DECLS
Definition: cs_defs.h:430
cs_domain_t * cs_domain_free(cs_domain_t *domain)
Free a cs_domain_t structure.
Definition: cs_domain.c:637
cs_param_def_type_t time_step_def_type
Definition: cs_domain.h:81
void cs_domain_add_user_equation(cs_domain_t *domain, const char *eqname, const char *varname, const char *key_type, const char *key_bc)
Add a new user equation to a domain.
Definition: cs_domain.c:1418
void cs_domain_solve(cs_domain_t *domain)
Solve all the equations of a computational domain for one time step.
Definition: cs_domain.c:1550
void cs_domain_set_output_freq(cs_domain_t *domain, int freq)
Set the frequency at which output is done in listing.
Definition: cs_domain.c:901
cs_groundwater_t * gw
Definition: cs_domain.h:119
cs_property_t ** properties
Definition: cs_domain.h:90
cs_param_def_type_t
Definition: cs_param.h:83
cs_def_t time_step_def
Definition: cs_domain.h:82
void cs_domain_summary(const cs_domain_t *domain)
Summary of a cs_domain_t structure.
Definition: cs_domain.c:688