1 #ifndef __CS_GUI_RADIATIVE_TRANSFER_H__ 2 #define __CS_GUI_RADIATIVE_TRANSFER_H__
integer, dimension(:), pointer itypfb
Definition: pointe.f90:122
#define BEGIN_C_DECLS
Definition: cs_defs.h:448
integer nozppm
maximum index of boundary zones
Definition: ppppar.f90:45
void cs_gui_radiative_transfer_postprocess(void)
Definition: cs_gui_radiative_transfer.c:568
double cs_real_t
Floating-point value.
Definition: cs_defs.h:296
void cs_gui_radiative_transfer_bcs(const int itypfb[], cs_lnum_t nvarcl, cs_lnum_t ivart, int *izfrdp, int *isothp, const int *nozppm, double *epsp, double *epap, double *tintp, double *textp, double *xlamp, double *rcodcl)
Definition: cs_gui_radiative_transfer.c:633
int cs_lnum_t
local mesh entity id
Definition: cs_defs.h:292
integer(c_int), pointer, save nvarcl
number of variable plus number of turbulent fluxes (used by the boundary conditions) ...
Definition: optcal.f90:661
#define END_C_DECLS
Definition: cs_defs.h:449
void memui2(void)
Definition: cs_gui_radiative_transfer.c:432
#define CS_PROCF(x, y)
Definition: cs_defs.h:472
void cs_gui_rad_transfer_absorption(cs_real_t ck[])
Definition: cs_gui_radiative_transfer.c:534
void cs_gui_radiative_transfer_parameters(void)
Definition: cs_gui_radiative_transfer.c:476