1 #ifndef __CS_PROTOTYPES_H__
2 #define __CS_PROTOTYPES_H__
void dvvpst(const cs_int_t *nummai, const cs_int_t *numtyp, const cs_int_t *nvar, const cs_int_t *nscal, const cs_int_t *nvlsta, const cs_int_t *nvisbr, const cs_int_t *ncelps, const cs_int_t *nfbrps, const cs_int_t lstcel[], const cs_int_t lstfbr[], const cs_real_t rtp[], const cs_real_t propce[], cs_real_t tracel[], cs_real_t trafbr[])
void cs_user_partition(void)
Definition: cs_user_performance_tuning.c:108
void tstvec(const cs_int_t *ncelet, const cs_int_t *ncel, const cs_int_t *nfac, const cs_int_t *nfabor, const cs_int_t ifacel[], const cs_int_t ifabor[], cs_int_t iworkf[], cs_int_t ismbs[], cs_int_t ismbv[], cs_real_t rworkf[], cs_real_t rsmbs[], cs_real_t rsmbv[])
void csinit(const cs_int_t *irgpar, const cs_int_t *nrgpar)
void initi1(void)
Definition: initi1.f90:28
void cs_user_periodicity(void)
Definition: cs_user_mesh.c:285
void cs_user_turbomachinery(void)
Definition: cs_user_turbomachinery.c:77
void zufall(const cs_int_t *n, const cs_real_t *a)
void cs_user_mesh_thinwall(cs_mesh_t *mesh)
Definition: cs_user_mesh.c:492
void caltri(void)
Definition: caltri.f90:23
#define BEGIN_C_DECLS
Definition: cs_defs.h:405
int cs_int_t
Fortran-compatible integer.
Definition: cs_defs.h:295
void cs_user_postprocess_activate(int nt_max_abs, int nt_cur_abs, double t_cur_abs)
Definition: cs_user_postprocess.c:630
void cs_user_postprocess_meshes(void)
Definition: cs_user_postprocess.c:390
void cs_user_coupling(void)
Definition: cs_user_coupling.c:75
void cs_user_mesh_modify(cs_mesh_t *mesh)
Definition: cs_user_mesh.c:546
void cs_user_join(void)
Definition: cs_user_mesh.c:145
void cs_user_numbering(void)
Definition: cs_user_performance_tuning.c:78
void cs_user_mesh_save(cs_mesh_t *mesh)
Definition: cs_user_mesh.c:623
void numvec(const cs_int_t *ncelet, const cs_int_t *ncel, const cs_int_t *nfac, const cs_int_t *nfabor, const cs_int_t *lregis, cs_int_t *irveci, cs_int_t *irvecb, cs_int_t ifacel[], cs_int_t ifabor[], cs_int_t inumfi[], cs_int_t inumfb[], cs_int_t iworkf[], cs_int_t ismbs[])
void cs_user_matrix_tuning(void)
Definition: cs_user_performance_tuning.c:249
void cs_user_mesh_warping(void)
Definition: cs_user_mesh.c:471
void cs_user_solver(const cs_mesh_t *mesh, const cs_mesh_quantities_t *mesh_quantities)
Definition: cs_user_solver.c:86
void cs_lagr_status(int *model_flag, int *restart_flag, int *frozen_flag)
int cs_user_solver_set(void)
Definition: cs_user_solver.c:75
void memfin(void)
Definition: memfin.f90:23
Definition: cs_mesh_quantities.h:51
void fische(const cs_int_t *n, const cs_real_t *mu, cs_int_t p[])
void normalen(const cs_int_t *n, const cs_real_t *x)
void cs_user_extra_operations(void)
This function is called at the end of each time step.
Definition: cs_user_extra_operations.c:101
void cs_user_mesh_input(void)
Definition: cs_user_mesh.c:94
void cs_user_mesh_bad_cells_tag(cs_mesh_t *mesh, cs_mesh_quantities_t *mesh_quantities)
Definition: cs_user_mesh.c:644
void cs_user_postprocess_writers(void)
Definition: cs_user_postprocess.c:264
void findpt(const cs_int_t *ncelet, const cs_int_t *ncel, const cs_real_t *xyzcen, const cs_real_t *xx, const cs_real_t *yy, const cs_real_t *zz, cs_int_t *node, cs_int_t *ndrang)
void haltyp(const cs_int_t *ivoset)
#define END_C_DECLS
Definition: cs_defs.h:406
double cs_real_t
Definition: cs_defs.h:296
void usvpst(const cs_int_t *nummai, const cs_int_t *nvar, const cs_int_t *nscal, const cs_int_t *nvlsta, const cs_int_t *ncelps, const cs_int_t *nfacps, const cs_int_t *nfbrps, const cs_int_t itypps[3], const cs_int_t lstcel[], const cs_int_t lstfac[], const cs_int_t lstfbr[], const cs_real_t dt[])
#define CS_PROCF(x, y)
Definition: cs_defs.h:419
void cs_user_syrthes_coupling(void)
Definition: cs_user_coupling.c:126
void cs_user_turbomachinery_rotor(void)
Definition: cs_user_turbomachinery.c:96
void cs_lagr_define_zone_class_param(cs_int_t class_id, cs_int_t zone_id, const cs_int_t i_cs_params[], const cs_real_t r_cs_params[])
void cs_user_parallel_io(void)
Definition: cs_user_performance_tuning.c:175
void cs_user_saturne_coupling(void)
Definition: cs_user_coupling.c:222
void cs_lagr_init_zone_class_param(const cs_int_t i_cs_params[], const cs_real_t r_cs_params[])
void cs_user_mesh_smoothe(cs_mesh_t *mesh)
Definition: cs_user_mesh.c:587