| /dports/science/code_saturne/code_saturne-7.1.0/src/base/ |
| H A D | cs_field.h | 158 } cs_field_t; typedef
218 cs_field_t *
246 cs_field_t *
287 cs_field_map_values(cs_field_t *f,
351 cs_field_set_values(cs_field_t *f,
398 cs_field_t *
413 cs_field_t *
428 cs_field_t *
696 cs_field_lock_key(cs_field_t *f,
718 cs_field_set_key_int(cs_field_t *f,
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| H A D | cs_field_operator.h | 78 cs_field_gradient_scalar(const cs_field_t *f,
99 cs_field_gradient_potential(const cs_field_t *f,
119 cs_field_gradient_vector(const cs_field_t *f,
135 cs_field_gradient_tensor(const cs_field_t *f,
155 cs_field_interpolate(cs_field_t *f,
192 cs_field_set_volume_average(cs_field_t *f,
207 cs_field_synchronize(cs_field_t *f,
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| H A D | cs_field_operator.c | 167 _field_interpolate_by_mean(const cs_field_t *f, in _field_interpolate_by_mean()
391 const cs_field_t *f = cs_field_by_id(f_id); in cs_f_field_gradient_scalar()
431 const cs_field_t *f = cs_field_by_id(f_id); in cs_f_field_gradient_potential()
466 const cs_field_t *f = cs_field_by_id(f_id); in cs_f_field_gradient_vector()
498 const cs_field_t *f = cs_field_by_id(f_id); in cs_f_field_gradient_tensor()
518 cs_field_t *f = cs_field_by_id(f_id); in cs_f_field_set_volume_average()
557 const cs_field_t *parent_f = f; in cs_field_gradient_scalar()
675 const cs_field_t *parent_f = f; in cs_field_gradient_potential()
999 cs_field_t *f = cs_field_by_id(f_id); in cs_field_local_extrema_scalar()
1034 cs_field_set_volume_average(cs_field_t *f, in cs_field_set_volume_average()
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| H A D | cs_field.c | 205 static cs_field_t **_fields = NULL;
391 static cs_field_t *
704 _check_key(const cs_field_t *f, in _check_key()
1547 cs_field_t *
1591 cs_field_t *
2231 cs_field_t *f = _fields[i]; in cs_field_destroy_all()
2288 cs_field_t *f = _fields[i]; in cs_field_allocate_or_map_all()
2313 cs_field_t *
2337 cs_field_t *
2363 cs_field_t *
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| H A D | cs_parameters.h | 220 cs_parameters_iscavr(cs_field_t *f) in cs_parameters_iscavr()
385 cs_field_t *
386 cs_parameters_add_boundary_values(cs_field_t *f);
401 cs_field_t *
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| H A D | cs_field_default.c | 142 cs_field_t *f = cs_field_find_or_create(name, in cs_variable_cdo_field_create()
194 cs_field_t *f = cs_field_create(name, in cs_variable_field_create()
233 cs_field_get_equation_param(cs_field_t *f) in cs_field_get_equation_param()
265 cs_field_get_equation_param_const(const cs_field_t *f) in cs_field_get_equation_param_const()
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| H A D | cs_parameters_check.c | 131 _field_section_desc(cs_field_t *f, in _field_section_desc()
827 cs_field_t *f_pot = NULL; in cs_parameters_check()
883 cs_field_t *f = cs_field_by_id(f_id); in cs_parameters_check()
1178 cs_field_t *f = cs_field_by_id(f_id); in cs_parameters_check()
1517 cs_field_t *f = CS_F_(nusa); in cs_parameters_check()
1753 cs_field_t *f = cs_field_by_id(f_id); in cs_parameters_check()
1770 cs_field_t *f = cs_field_by_id(f_id); in cs_parameters_check()
1830 cs_field_t *f = cs_field_by_id(f_id); in cs_parameters_check()
1857 cs_field_t *f = cs_field_by_id(f_id); in cs_parameters_check()
1897 cs_field_t *f = cs_field_by_id(f_id); in cs_parameters_check()
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| H A D | cs_thermal_model.c | 204 cs_field_t *
207 cs_field_t *th_f; in cs_thermal_model_field()
279 cs_field_t *tf = cs_thermal_model_field(); in cs_thermal_model_log_setup()
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| H A D | cs_ht_convert.c | 176 const cs_field_t *f_cp = cs_field_by_name_try("specific_heat"); in cs_ht_convert_h_to_t_cells()
198 const cs_field_t *f_cp = cs_field_by_name_try("specific_heat"); in cs_ht_convert_h_to_t_cells()
261 const cs_field_t *f_cp = cs_field_by_name_try("specific_heat"); in cs_ht_convert_h_to_t_cells_solid()
336 const cs_field_t *f_cp = cs_field_by_name_try("specific_heat"); in cs_ht_convert_h_to_t_faces()
362 const cs_field_t *f_cp = cs_field_by_name_try("specific_heat"); in cs_ht_convert_h_to_t_faces()
449 const cs_field_t *f_cp = cs_field_by_name_try("specific_heat"); in cs_ht_convert_t_to_h_faces_l()
478 const cs_field_t *f_cp = cs_field_by_name_try("specific_heat"); in cs_ht_convert_t_to_h_faces_l()
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| H A D | cs_restart_default.c | 203 const cs_field_t *f = cs_field_by_id(f_id); in _read_legacy_field_info()
271 cs_field_t *f = cs_field_by_id(f_id); in _read_legacy_field_info()
315 _sync_field_vals(cs_field_t *f, in _sync_field_vals()
359 cs_field_t *f) in _read_field_vals()
523 cs_field_t *f) in _read_field_vals_legacy()
743 const cs_field_t *f, in _legacy_mass_flux_num()
829 const cs_field_t *f = cs_field_by_id(f_id); in _read_linked_fields_legacy()
2772 cs_field_t *f = cs_field_by_id(f_id); in cs_restart_read_field_vals()
2937 cs_field_t *f = cs_field_by_id(f_id); in cs_restart_write_field_vals()
3041 cs_field_t *f = cs_field_by_id(f_id); in cs_restart_write_fields()
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| H A D | cs_field_default.h | 116 cs_field_get_equation_param(cs_field_t *f);
136 cs_field_get_equation_param_const(const cs_field_t *f);
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| /dports/science/code_saturne/code_saturne-7.1.0/src/cdo/ |
| H A D | cs_navsto_system.h | 192 cs_field_t *velocity;
198 cs_field_t *pressure;
239 cs_field_t *velocity_divergence;
246 cs_field_t *pressure_gradient;
253 cs_field_t *kinetic_energy;
262 cs_field_t *mass_density;
269 cs_field_t *mass_flux_balance;
276 cs_field_t *vorticity;
283 cs_field_t *helicity;
290 cs_field_t *enstrophy;
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| H A D | cs_gwf_priv.h | 144 cs_field_t *pressure_head;
244 cs_field_t *permeability_field;
245 cs_field_t *moisture_field;
246 cs_field_t *capacity_field;
247 cs_field_t *pressure_head;
374 cs_field_t *l_saturation;
375 cs_field_t *c_pressure;
376 cs_field_t *l_pressure;
377 cs_field_t *g_pressure;
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| H A D | cs_cdofb_monolithic_priv.h | 190 cs_field_t *velocity;
197 cs_field_t *pressure;
204 cs_field_t *divergence;
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| H A D | cs_thermal_system.h | 159 cs_field_t *temperature;
160 cs_field_t *enthalpy;
161 cs_field_t *total_energy;
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| H A D | cs_gwf_tracer.h | 187 cs_field_t *precip_field;
201 const cs_field_t *darcy_velocity_field;
221 cs_field_t *diffusivity; /* NULL if no diffusion term is
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| /dports/science/code_saturne/code_saturne-7.1.0/src/lagr/ |
| H A D | cs_lagr.h | 934 cs_field_t *ustar;
937 cs_field_t *cromf;
943 cs_field_t *scal_t;
947 cs_field_t *vel;
950 cs_field_t *viscl;
956 cs_field_t *cpro_cp;
962 cs_field_t *x_oxyd;
963 cs_field_t *x_eau;
964 cs_field_t *x_m;
968 cs_field_t *cvar_k;
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| /dports/science/code_saturne/code_saturne-7.1.0/src/darc/ |
| H A D | cs_gwf_physical_properties.c | 96 cs_field_t *sca, *delay, *sat, *rosoil, *kd; in cs_gwf_delay_update()
145 cs_field_t *sca = cs_field_by_id(f_id); in cs_gwf_decay_rate()
175 cs_field_t *sca = cs_field_by_id(f_id); in cs_gwf_sorbed_concentration_update()
177 cs_field_t *sorb = cs_field_by_id(cs_field_get_key_int(sca, key_sorb)); in cs_gwf_sorbed_concentration_update()
189 cs_field_t *kp = cs_field_by_id(sorption_scal.ikp); in cs_gwf_sorbed_concentration_update()
190 cs_field_t *km = cs_field_by_id(sorption_scal.ikm); in cs_gwf_sorbed_concentration_update()
236 cs_field_t *sca, *precip, *solub; in cs_gwf_precipitation()
291 cs_field_t *rosoil = cs_field_by_name("soil_density"); in cs_gwf_kinetic_reaction()
294 cs_field_t *sca = cs_field_by_id(f_id); in cs_gwf_kinetic_reaction()
308 cs_field_t *kp = cs_field_by_id(sorption_scal.ikp); in cs_gwf_kinetic_reaction()
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| /dports/science/code_saturne/code_saturne-7.1.0/src/user_examples/ |
| H A D | cs_user_parameters-base.c | 741 cs_field_t *f = cs_field_by_id(f_id); in cs_user_parameters()
784 cs_field_t *f = cs_field_by_id(f_id); in cs_user_parameters()
800 cs_field_t *f = cs_field_by_id(f_id); in cs_user_parameters()
845 cs_field_t *sca1 = cs_field_by_name("scalar1"); in cs_user_parameters()
927 cs_field_t *sca1 = cs_field_by_name("scalar1"); in cs_user_parameters()
946 cs_field_t *sca1 = cs_field_by_name("scalar1"); in cs_user_parameters()
976 cs_field_t *sca1 = cs_field_by_name("scalar1"); in cs_user_parameters()
1031 cs_field_t *f; in cs_user_parameters()
1096 cs_field_t *f = cs_field_by_id(f_id); in cs_user_parameters()
1124 cs_field_t *f = cs_field_by_id(f_id); in cs_user_parameters()
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| /dports/science/code_saturne/code_saturne-7.1.0/src/gui/ |
| H A D | cs_gui.c | 421 cs_field_t _c_prop = *c_prop; in _physical_property_th_diffusivity()
423 cs_field_t *fmeg[1] = {&_c_prop}; in _physical_property_th_diffusivity()
506 cs_field_t *fmeg[1] = {c_prop}; in _physical_property()
2442 cs_field_t *fporo = CS_F_(poro); in CS_PROCF()
2443 cs_field_t *ftporo = CS_F_(t_poro); in CS_PROCF()
3227 cs_field_t *c_rho = CS_F_(rho); in CS_PROCF()
3239 cs_field_t *c_mu = CS_F_(mu); in CS_PROCF()
3251 cs_field_t *c_cp = CS_F_(cp); in CS_PROCF()
3264 cs_field_t *cond_dif = NULL; in CS_PROCF()
3629 cs_field_t *kp, *km; in CS_PROCF()
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| H A D | cs_gui_boundary_conditions.c | 202 cs_field_t *f = cs_field_by_name_try(name); in _get_equation_param()
349 cs_field_t *f = cs_field_by_name(f_name); in _sliding_wall()
425 cs_field_t *f = cs_field_by_id(f_id); in _boundary_scalar()
1052 const cs_field_t *f = cs_field_by_id(f_id); in _init_boundaries()
1120 const cs_field_t *f = cs_field_by_id(f_id); in _init_boundaries()
1359 cs_field_t *f_tm = cs_thermal_model_field(); in _init_boundaries()
1601 const cs_field_t *f = cs_field_by_id(f_id);
1708 const cs_field_t *f = CS_F_(potr);
1719 const cs_field_t *fi = CS_F_(poti);
1730 const cs_field_t *f = CS_F_(potr);
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| /dports/science/code_saturne/code_saturne-7.1.0/src/atmo/ |
| H A D | cs_at_opt_interp.h | 244 cs_field_t *f_oia,
263 cs_at_opt_interp_compute_analysis(cs_field_t *f,
265 cs_field_t *f_oia,
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| /dports/science/code_saturne/code_saturne-7.1.0/src/rayt/ |
| H A D | cs_rad_transfer_solve.c | 423 const cs_field_t *f_cp = CS_F_(cp); in _cs_rad_transfer_sol()
435 cs_field_t *f_up = NULL, *f_down = NULL; in _cs_rad_transfer_sol()
497 cs_field_t *f_qinspe = NULL; in _cs_rad_transfer_sol()
1127 cs_field_t *f_tempb = CS_F_(t_b); in cs_rad_transfer_solve()
1128 cs_field_t *f_qinci = CS_F_(qinci); in cs_rad_transfer_solve()
1129 cs_field_t *f_xlam = CS_F_(xlam); in cs_rad_transfer_solve()
1130 cs_field_t *f_epa = CS_F_(epa); in cs_rad_transfer_solve()
1131 cs_field_t *f_eps = CS_F_(emissivity); in cs_rad_transfer_solve()
1132 cs_field_t *f_fnet = CS_F_(fnet); in cs_rad_transfer_solve()
1136 cs_field_t *f_qinsp = NULL; in cs_rad_transfer_solve()
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| H A D | cs_rad_transfer_bcs.c | 292 cs_field_t *f_bepa = cs_field_by_name_try("wall_thickness"); in cs_rad_transfer_bcs()
293 cs_field_t *f_beps = cs_field_by_name_try("emissivity"); in cs_rad_transfer_bcs()
343 cs_field_t *fth = cs_thermal_model_field(); in cs_rad_transfer_bcs()
347 cs_field_t *f_hgas = cs_field_by_name_try("x_c_h"); in cs_rad_transfer_bcs()
468 cs_field_t *tf = cs_thermal_model_field(); in cs_rad_transfer_bcs()
933 cs_field_t *f_temp = CS_F_(t); in cs_rad_transfer_bcs()
959 cs_field_t *f_enthalpy = CS_F_(h); in cs_rad_transfer_bcs()
1238 cs_field_t *f_qinspe = NULL; in cs_rad_transfer_bc_coeffs()
1244 cs_field_t *f_qincid = cs_field_by_name("rad_incident_flux"); in cs_rad_transfer_bc_coeffs()
1247 cs_field_t *f_eps = cs_field_by_name("emissivity"); in cs_rad_transfer_bc_coeffs()
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| /dports/science/code_saturne/code_saturne-7.1.0/src/turb/ |
| H A D | cs_les_balance.c | 905 const cs_field_t *sca = (const cs_field_t *)input; in _les_balance_compute_djtdjui()
946 const cs_field_t *sca = (const cs_field_t *)input; in _les_balance_compute_tuiuj()
972 const cs_field_t *sca = (const cs_field_t *)input; in _les_balance_compute_uidjt()
1009 const cs_field_t *sca = (const cs_field_t *)input; in _les_balance_compute_ditdit()
1046 const cs_field_t *sca = (const cs_field_t *)input; in _les_balance_compute_tdjtauij()
1097 const cs_field_t *sca = (const cs_field_t *)input; in _les_balance_compute_uidivturflux()
1152 const cs_field_t *sca = (const cs_field_t *)input; in _les_balance_compute_tdivturflux()
1206 const cs_field_t *sca = (const cs_field_t *)input; in _les_balance_compute_nutditdit()
1245 const cs_field_t *sca = (const cs_field_t *)input; in _les_balance_compute_nutuidjt()
1282 const cs_field_t *sca = (const cs_field_t *)input; in _les_balance_compute_nutdjuidjt()
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