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#include "cs_defs.h"
#include <assert.h>
#include <errno.h>
#include <stdio.h>
#include <stdarg.h>
#include <string.h>
#include <math.h>
#include <float.h>
#include "bft_error.h"
#include "bft_mem.h"
#include "bft_printf.h"
#include "cs_blas.h"
#include "cs_halo.h"
#include "cs_halo_perio.h"
#include "cs_log.h"
#include "cs_math.h"
#include "cs_mesh.h"
#include "cs_field.h"
#include "cs_field_pointer.h"
#include "cs_gradient.h"
#include "cs_gradient_perio.h"
#include "cs_ext_neighborhood.h"
#include "cs_mesh_quantities.h"
#include "cs_parall.h"
#include "cs_parameters.h"
#include "cs_prototypes.h"
#include "cs_timer.h"
#include "cs_stokes_model.h"
#include "cs_convection_diffusion.h"
Functions | |
void | bilsc2 (const cs_int_t *const idtvar, const cs_int_t *const f_id, const cs_var_cal_opt_t *const var_cal_opt, const cs_int_t *const icvflb, const cs_int_t *const inc, const cs_int_t *const iccocg, const cs_int_t *const ifaccp, cs_real_t pvar[], const cs_real_t pvara[], const cs_int_t bc_type[], const cs_int_t icvfli[], const cs_real_t coefap[], const cs_real_t coefbp[], const cs_real_t cofafp[], const cs_real_t cofbfp[], const cs_real_t i_massflux[], const cs_real_t b_massflux[], const cs_real_t i_visc[], const cs_real_t b_visc[], cs_real_t rhs[]) |
void | bilsc4 (const cs_int_t *const idtvar, const cs_int_t *const f_id, const cs_var_cal_opt_t *const var_cal_opt, const cs_int_t *const icvflb, const cs_int_t *const inc, const cs_int_t *const ifaccp, const cs_int_t *const ivisep, cs_real_3_t pvar[], const cs_real_3_t pvara[], const cs_int_t bc_type[], const cs_int_t icvfli[], const cs_real_3_t coefav[], const cs_real_33_t coefbv[], const cs_real_3_t cofafv[], const cs_real_33_t cofbfv[], const cs_real_t i_massflux[], const cs_real_t b_massflux[], const cs_real_t i_visc[], const cs_real_t b_visc[], const cs_real_t secvif[], cs_real_3_t rhs[]) |
void | bilsc6 (const cs_int_t *const idtvar, const cs_int_t *const f_id, const cs_var_cal_opt_t *const var_cal_opt, const cs_int_t *const icvflb, const cs_int_t *const inc, const cs_int_t *const ifaccp, cs_real_6_t pvar[], const cs_real_6_t pvara[], const cs_int_t bc_type[], const cs_int_t icvfli[], const cs_real_6_t coefa[], const cs_real_66_t coefb[], const cs_real_6_t cofaf[], const cs_real_66_t cofbf[], const cs_real_t i_massflux[], const cs_real_t b_massflux[], const cs_real_t i_visc[], const cs_real_t b_visc[], cs_real_6_t rhs[]) |
void | bilsct (const cs_int_t *const idtvar, const cs_int_t *const f_id, const cs_var_cal_opt_t *const var_cal_opt, const cs_int_t *const inc, const cs_int_t *const iccocg, const cs_int_t *const ifaccp, cs_real_t pvar[], const cs_real_t pvara[], const cs_int_t bc_type[], const cs_real_t coefap[], const cs_real_t coefbp[], const cs_real_t cofafp[], const cs_real_t cofbfp[], const cs_real_t i_massflux[], const cs_real_t b_massflux[], const cs_real_t i_visc[], const cs_real_t b_visc[], const cs_real_t xcpp[], cs_real_t rhs[]) |
void | diften (const cs_int_t *const idtvar, const cs_int_t *const f_id, const cs_var_cal_opt_t *const var_cal_opt, const cs_int_t *const inc, const cs_int_t *const iccocg, cs_real_t pvar[], const cs_real_t pvara[], const cs_real_t coefap[], const cs_real_t coefbp[], const cs_real_t cofafp[], const cs_real_t cofbfp[], const cs_real_t i_visc[], const cs_real_t b_visc[], cs_real_6_t viscel[], const cs_real_2_t weighf[], const cs_real_t weighb[], cs_real_t rhs[]) |
void | diftnv (const cs_int_t *const idtvar, const cs_int_t *const f_id, const cs_var_cal_opt_t *const var_cal_opt, const cs_int_t *const inc, const cs_int_t *const ifaccp, const cs_int_t *const ivisep, cs_real_3_t pvar[], const cs_real_3_t pvara[], const cs_int_t bc_type[], const cs_real_3_t coefav[], const cs_real_33_t coefbv[], const cs_real_3_t cofafv[], const cs_real_33_t cofbfv[], const cs_real_33_t i_visc[], const cs_real_t b_visc[], const cs_real_t secvif[], cs_real_3_t rhs[]) |
void | diftnts (const cs_int_t *const idtvar, const cs_int_t *const f_id, const cs_var_cal_opt_t *const var_cal_opt, const cs_int_t *const inc, cs_real_6_t pvar[], const cs_real_6_t pvara[], const cs_int_t bc_type[], const cs_real_6_t coefa[], const cs_real_66_t coefb[], const cs_real_6_t cofaf[], const cs_real_66_t cofbf[], const cs_real_t i_visc[], const cs_real_t b_visc[], cs_real_6_t viscel[], const cs_real_2_t weighf[], const cs_real_t weighb[], cs_real_6_t rhs[]) |
void | itrmas (const cs_int_t *const f_id, const cs_int_t *const init, const cs_int_t *const inc, const cs_int_t *const imrgra, const cs_int_t *const iccocg, const cs_int_t *const nswrgp, const cs_int_t *const imligp, const cs_int_t *const iphydp, const cs_int_t *const iwarnp, const cs_real_t *const epsrgp, const cs_real_t *const climgp, const cs_real_t *const extrap, cs_real_3_t frcxt[], cs_real_t pvar[], const cs_real_t coefap[], const cs_real_t coefbp[], const cs_real_t cofafp[], const cs_real_t cofbfp[], const cs_real_t i_visc[], const cs_real_t b_visc[], const cs_real_t viselx[], const cs_real_t visely[], const cs_real_t viselz[], cs_real_t i_massflux[], cs_real_t b_massflux[]) |
void | itrmav (const cs_int_t *const f_id, const cs_int_t *const init, const cs_int_t *const inc, const cs_int_t *const imrgra, const cs_int_t *const iccocg, const cs_int_t *const nswrgp, const cs_int_t *const imligp, const cs_int_t *const ircflp, const cs_int_t *const iphydp, const cs_int_t *const iwarnp, const cs_real_t *const epsrgp, const cs_real_t *const climgp, const cs_real_t *const extrap, cs_real_3_t frcxt[], cs_real_t pvar[], const cs_real_t coefap[], const cs_real_t coefbp[], const cs_real_t cofafp[], const cs_real_t cofbfp[], const cs_real_t i_visc[], const cs_real_t b_visc[], cs_real_6_t viscel[], const cs_real_2_t weighf[], const cs_real_t weighb[], cs_real_t i_massflux[], cs_real_t b_massflux[]) |
void | itrgrp (const cs_int_t *const f_id, const cs_int_t *const init, const cs_int_t *const inc, const cs_int_t *const imrgra, const cs_int_t *const iccocg, const cs_int_t *const nswrgp, const cs_int_t *const imligp, const cs_int_t *const iphydp, const cs_int_t *const iwarnp, const cs_real_t *const epsrgp, const cs_real_t *const climgp, const cs_real_t *const extrap, cs_real_3_t frcxt[], cs_real_t pvar[], const cs_real_t coefap[], const cs_real_t coefbp[], const cs_real_t cofafp[], const cs_real_t cofbfp[], const cs_real_t i_visc[], const cs_real_t b_visc[], const cs_real_t viselx[], const cs_real_t visely[], const cs_real_t viselz[], cs_real_t diverg[]) |
void | itrgrv (const cs_int_t *const f_id, const cs_int_t *const init, const cs_int_t *const inc, const cs_int_t *const imrgra, const cs_int_t *const iccocg, const cs_int_t *const nswrgp, const cs_int_t *const imligp, const cs_int_t *const ircflp, const cs_int_t *const iphydp, const cs_int_t *const iwarnp, const cs_real_t *const epsrgp, const cs_real_t *const climgp, const cs_real_t *const extrap, cs_real_3_t frcxt[], cs_real_t pvar[], const cs_real_t coefap[], const cs_real_t coefbp[], const cs_real_t cofafp[], const cs_real_t cofbfp[], const cs_real_t i_visc[], const cs_real_t b_visc[], cs_real_6_t viscel[], const cs_real_2_t weighf[], const cs_real_t weighb[], cs_real_t diverg[]) |
void | cs_convection_diffusion_scalar (int idtvar, int f_id, const cs_var_cal_opt_t var_cal_opt, int icvflb, int inc, int iccocg, int ifaccp, cs_real_t *restrict pvar, const cs_real_t *restrict pvara, const cs_int_t bc_type[], const cs_int_t icvfli[], const cs_real_t coefap[], const cs_real_t coefbp[], const cs_real_t cofafp[], const cs_real_t cofbfp[], const cs_real_t i_massflux[], const cs_real_t b_massflux[], const cs_real_t i_visc[], const cs_real_t b_visc[], cs_real_t *restrict rhs) |
Add the explicit part of the convection/diffusion terms of a standard transport equation of a scalar field ![]() | |
void | cs_convection_diffusion_vector (int idtvar, int f_id, const cs_var_cal_opt_t var_cal_opt, int icvflb, int inc, int ifaccp, int ivisep, cs_real_3_t *restrict pvar, const cs_real_3_t *restrict pvara, const cs_int_t bc_type[], const cs_int_t icvfli[], const cs_real_3_t coefav[], const cs_real_33_t coefbv[], const cs_real_3_t cofafv[], const cs_real_33_t cofbfv[], const cs_real_t i_massflux[], const cs_real_t b_massflux[], const cs_real_t i_visc[], const cs_real_t b_visc[], const cs_real_t secvif[], cs_real_3_t *restrict rhs) |
Add the explicit part of the convection/diffusion terms of a transport equation of a vector field ![]() | |
void | cs_convection_diffusion_tensor (int idtvar, int f_id, const cs_var_cal_opt_t var_cal_opt, int icvflb, int inc, int ifaccp, cs_real_6_t *restrict pvar, const cs_real_6_t *restrict pvara, const cs_int_t bc_type[], const cs_int_t icvfli[], const cs_real_6_t coefa[], const cs_real_66_t coefb[], const cs_real_6_t cofaf[], const cs_real_66_t cofbf[], const cs_real_t i_massflux[], const cs_real_t b_massflux[], const cs_real_t i_visc[], const cs_real_t b_visc[], cs_real_6_t *restrict rhs) |
Add the explicit part of the convection/diffusion terms of a transport equation of a vector field ![]() | |
void | cs_convection_diffusion_thermal (int idtvar, int f_id, const cs_var_cal_opt_t var_cal_opt, int inc, int iccocg, int ifaccp, cs_real_t *restrict pvar, const cs_real_t *restrict pvara, const cs_int_t bc_type[], const cs_real_t coefap[], const cs_real_t coefbp[], const cs_real_t cofafp[], const cs_real_t cofbfp[], const cs_real_t i_massflux[], const cs_real_t b_massflux[], const cs_real_t i_visc[], const cs_real_t b_visc[], const cs_real_t xcpp[], cs_real_t *restrict rhs) |
Add the explicit part of the convection/diffusion terms of a transport equation of a scalar field ![]() | |
void | cs_anisotropic_diffusion_scalar (int idtvar, int f_id, const cs_var_cal_opt_t var_cal_opt, int inc, int iccocg, cs_real_t *restrict pvar, const cs_real_t *restrict pvara, const cs_real_t coefap[], const cs_real_t coefbp[], const cs_real_t cofafp[], const cs_real_t cofbfp[], const cs_real_t i_visc[], const cs_real_t b_visc[], cs_real_6_t *restrict viscel, const cs_real_2_t weighf[], const cs_real_t weighb[], cs_real_t *restrict rhs) |
Add the explicit part of the diffusion terms with a symmetric tensor diffusivity for a transport equation of a scalar field ![]() | |
void | cs_anisotropic_diffusion_vector (int idtvar, int f_id, const cs_var_cal_opt_t var_cal_opt, int inc, int ifaccp, int ivisep, cs_real_3_t *restrict pvar, const cs_real_3_t *restrict pvara, const cs_int_t bc_type[], const cs_real_3_t coefav[], const cs_real_33_t coefbv[], const cs_real_3_t cofafv[], const cs_real_33_t cofbfv[], const cs_real_33_t i_visc[], const cs_real_t b_visc[], const cs_real_t secvif[], cs_real_3_t *restrict rhs) |
Add the explicit part of the diffusion terms with a symmetric tensorial diffusivity for a transport equation of a vector field ![]() | |
void | cs_anisotropic_diffusion_tensor (int idtvar, int f_id, const cs_var_cal_opt_t var_cal_opt, int inc, cs_real_6_t *restrict pvar, const cs_real_6_t *restrict pvara, const cs_int_t bc_type[], const cs_real_6_t coefa[], const cs_real_66_t coefb[], const cs_real_6_t cofaf[], const cs_real_66_t cofbf[], const cs_real_t i_visc[], const cs_real_t b_visc[], cs_real_6_t *restrict viscel, const cs_real_2_t weighf[], const cs_real_t weighb[], cs_real_6_t *restrict rhs) |
Add the explicit part of the diffusion terms with a symmetric tensor diffusivity for a transport equation of a scalar field ![]() | |
void | cs_face_diffusion_potential (const int f_id, const cs_mesh_t *m, cs_mesh_quantities_t *fvq, int init, int inc, int imrgra, int iccocg, int nswrgp, int imligp, int iphydp, int iwarnp, double epsrgp, double climgp, double extrap, cs_real_3_t *restrict frcxt, cs_real_t *restrict pvar, const cs_real_t coefap[], const cs_real_t coefbp[], const cs_real_t cofafp[], const cs_real_t cofbfp[], const cs_real_t i_visc[], const cs_real_t b_visc[], const cs_real_t viselx[], const cs_real_t visely[], const cs_real_t viselz[], cs_real_t *restrict i_massflux, cs_real_t *restrict b_massflux) |
Update the face mass flux with the face pressure (or pressure increment, or pressure double increment) gradient. More... | |
void | cs_face_anisotropic_diffusion_potential (const int f_id, const cs_mesh_t *m, cs_mesh_quantities_t *fvq, int init, int inc, int imrgra, int iccocg, int nswrgp, int imligp, int ircflp, int iphydp, int iwarnp, double epsrgp, double climgp, double extrap, cs_real_3_t *restrict frcxt, cs_real_t *restrict pvar, const cs_real_t coefap[], const cs_real_t coefbp[], const cs_real_t cofafp[], const cs_real_t cofbfp[], const cs_real_t i_visc[], const cs_real_t b_visc[], cs_real_6_t *restrict viscel, const cs_real_2_t weighf[], const cs_real_t weighb[], cs_real_t *restrict i_massflux, cs_real_t *restrict b_massflux) |
Add the explicit part of the pressure gradient term to the mass flux in case of anisotropic diffusion of the pressure field ![]() | |
void | cs_diffusion_potential (const int f_id, const cs_mesh_t *m, cs_mesh_quantities_t *fvq, int init, int inc, int imrgra, int iccocg, int nswrgp, int imligp, int iphydp, int iwarnp, double epsrgp, double climgp, double extrap, cs_real_3_t *restrict frcxt, cs_real_t *restrict pvar, const cs_real_t coefap[], const cs_real_t coefbp[], const cs_real_t cofafp[], const cs_real_t cofbfp[], const cs_real_t i_visc[], const cs_real_t b_visc[], const cs_real_t viselx[], const cs_real_t visely[], const cs_real_t viselz[], cs_real_t *restrict diverg) |
Update the cell mass flux divergence with the face pressure (or pressure increment, or pressure double increment) gradient. More... | |
void | cs_anisotropic_diffusion_potential (const int f_id, const cs_mesh_t *m, cs_mesh_quantities_t *fvq, int init, int inc, int imrgra, int iccocg, int nswrgp, int imligp, int ircflp, int iphydp, int iwarnp, double epsrgp, double climgp, double extrap, cs_real_3_t *restrict frcxt, cs_real_t *restrict pvar, const cs_real_t coefap[], const cs_real_t coefbp[], const cs_real_t cofafp[], const cs_real_t cofbfp[], const cs_real_t i_visc[], const cs_real_t b_visc[], cs_real_6_t *restrict viscel, const cs_real_2_t weighf[], const cs_real_t weighb[], cs_real_t *restrict diverg) |
Add the explicit part of the divergence of the mass flux due to the pressure gradient (routine analog to diften). More... | |
void bilsc2 | ( | const cs_int_t *const | idtvar, |
const cs_int_t *const | f_id, | ||
const cs_var_cal_opt_t *const | var_cal_opt, | ||
const cs_int_t *const | icvflb, | ||
const cs_int_t *const | inc, | ||
const cs_int_t *const | iccocg, | ||
const cs_int_t *const | ifaccp, | ||
cs_real_t | pvar[], | ||
const cs_real_t | pvara[], | ||
const cs_int_t | bc_type[], | ||
const cs_int_t | icvfli[], | ||
const cs_real_t | coefap[], | ||
const cs_real_t | coefbp[], | ||
const cs_real_t | cofafp[], | ||
const cs_real_t | cofbfp[], | ||
const cs_real_t | i_massflux[], | ||
const cs_real_t | b_massflux[], | ||
const cs_real_t | i_visc[], | ||
const cs_real_t | b_visc[], | ||
cs_real_t | rhs[] | ||
) |
void bilsc4 | ( | const cs_int_t *const | idtvar, |
const cs_int_t *const | f_id, | ||
const cs_var_cal_opt_t *const | var_cal_opt, | ||
const cs_int_t *const | icvflb, | ||
const cs_int_t *const | inc, | ||
const cs_int_t *const | ifaccp, | ||
const cs_int_t *const | ivisep, | ||
cs_real_3_t | pvar[], | ||
const cs_real_3_t | pvara[], | ||
const cs_int_t | bc_type[], | ||
const cs_int_t | icvfli[], | ||
const cs_real_3_t | coefav[], | ||
const cs_real_33_t | coefbv[], | ||
const cs_real_3_t | cofafv[], | ||
const cs_real_33_t | cofbfv[], | ||
const cs_real_t | i_massflux[], | ||
const cs_real_t | b_massflux[], | ||
const cs_real_t | i_visc[], | ||
const cs_real_t | b_visc[], | ||
const cs_real_t | secvif[], | ||
cs_real_3_t | rhs[] | ||
) |
void bilsc6 | ( | const cs_int_t *const | idtvar, |
const cs_int_t *const | f_id, | ||
const cs_var_cal_opt_t *const | var_cal_opt, | ||
const cs_int_t *const | icvflb, | ||
const cs_int_t *const | inc, | ||
const cs_int_t *const | ifaccp, | ||
cs_real_6_t | pvar[], | ||
const cs_real_6_t | pvara[], | ||
const cs_int_t | bc_type[], | ||
const cs_int_t | icvfli[], | ||
const cs_real_6_t | coefa[], | ||
const cs_real_66_t | coefb[], | ||
const cs_real_6_t | cofaf[], | ||
const cs_real_66_t | cofbf[], | ||
const cs_real_t | i_massflux[], | ||
const cs_real_t | b_massflux[], | ||
const cs_real_t | i_visc[], | ||
const cs_real_t | b_visc[], | ||
cs_real_6_t | rhs[] | ||
) |
void bilsct | ( | const cs_int_t *const | idtvar, |
const cs_int_t *const | f_id, | ||
const cs_var_cal_opt_t *const | var_cal_opt, | ||
const cs_int_t *const | inc, | ||
const cs_int_t *const | iccocg, | ||
const cs_int_t *const | ifaccp, | ||
cs_real_t | pvar[], | ||
const cs_real_t | pvara[], | ||
const cs_int_t | bc_type[], | ||
const cs_real_t | coefap[], | ||
const cs_real_t | coefbp[], | ||
const cs_real_t | cofafp[], | ||
const cs_real_t | cofbfp[], | ||
const cs_real_t | i_massflux[], | ||
const cs_real_t | b_massflux[], | ||
const cs_real_t | i_visc[], | ||
const cs_real_t | b_visc[], | ||
const cs_real_t | xcpp[], | ||
cs_real_t | rhs[] | ||
) |
void cs_anisotropic_diffusion_potential | ( | const int | f_id, |
const cs_mesh_t * | m, | ||
cs_mesh_quantities_t * | fvq, | ||
int | init, | ||
int | inc, | ||
int | imrgra, | ||
int | iccocg, | ||
int | nswrgp, | ||
int | imligp, | ||
int | ircflp, | ||
int | iphydp, | ||
int | iwarnp, | ||
double | epsrgp, | ||
double | climgp, | ||
double | extrap, | ||
cs_real_3_t *restrict | frcxt, | ||
cs_real_t *restrict | pvar, | ||
const cs_real_t | coefap[], | ||
const cs_real_t | coefbp[], | ||
const cs_real_t | cofafp[], | ||
const cs_real_t | cofbfp[], | ||
const cs_real_t | i_visc[], | ||
const cs_real_t | b_visc[], | ||
cs_real_6_t *restrict | viscel, | ||
const cs_real_2_t | weighf[], | ||
const cs_real_t | weighb[], | ||
cs_real_t *restrict | diverg | ||
) |
Add the explicit part of the divergence of the mass flux due to the pressure gradient (routine analog to diften).
Add the explicit part of the divergence of the mass flux due to the pressure gradient (routine analog to cs_anisotropic_diffusion_scalar).
More precisely, the divergence of the mass flux side is updated as follows:
[in] | f_id | field id (or -1) |
[in] | m | pointer to mesh |
[in] | fvq | pointer to finite volume quantities |
[in] | init | indicator
|
[in] | inc | indicator
|
[in] | imrgra | indicator
|
[in] | iccocg | indicator
|
[in] | nswrgp | number of reconstruction sweeps for the gradients |
[in] | imligp | clipping gradient method
|
[in] | ircflp | indicator
|
[in] | iphydp | indicator
|
[in] | iwarnp | verbosity |
[in] | epsrgp | relative precision for the gradient reconstruction |
[in] | climgp | clipping coeffecient for the computation of the gradient |
[in] | extrap | coefficient for extrapolation of the gradient |
[in] | frcxt | body force creating the hydrostatic pressure |
[in] | pvar | solved variable (pressure) |
[in] | coefap | boundary condition array for the variable (explicit part) |
[in] | coefbp | boundary condition array for the variable (implicit part) |
[in] | cofafp | boundary condition array for the diffusion of the variable (explicit part) |
[in] | cofbfp | boundary condition array for the diffusion of the variable (implicit part) |
[in] | i_visc | ![]() |
[in] | b_visc | ![]() |
[in] | viscel | symmetric cell tensor ![]() |
[in] | weighf | internal face weight between cells i j in case of tensor diffusion |
[in] | weighb | boundary face weight for cells i in case of tensor diffusion |
[in,out] | diverg | divergence of the mass flux |
void cs_anisotropic_diffusion_scalar | ( | int | idtvar, |
int | f_id, | ||
const cs_var_cal_opt_t | var_cal_opt, | ||
int | inc, | ||
int | iccocg, | ||
cs_real_t *restrict | pvar, | ||
const cs_real_t *restrict | pvara, | ||
const cs_real_t | coefap[], | ||
const cs_real_t | coefbp[], | ||
const cs_real_t | cofafp[], | ||
const cs_real_t | cofbfp[], | ||
const cs_real_t | i_visc[], | ||
const cs_real_t | b_visc[], | ||
cs_real_6_t *restrict | viscel, | ||
const cs_real_2_t | weighf[], | ||
const cs_real_t | weighb[], | ||
cs_real_t *restrict | rhs | ||
) |
Add the explicit part of the diffusion terms with a symmetric tensor diffusivity for a transport equation of a scalar field .
More precisely, the right hand side is updated as follows:
Warning:
[in] | idtvar | indicator of the temporal scheme |
[in] | f_id | index of the current variable |
[in] | var_cal_opt | variable calculation options |
[in] | inc | indicator
|
[in] | iccocg | indicator
|
[in] | pvar | solved variable (current time step) |
[in] | pvara | solved variable (previous time step) |
[in] | coefap | boundary condition array for the variable (explicit part) |
[in] | coefbp | boundary condition array for the variable (implicit part) |
[in] | cofafp | boundary condition array for the diffusion of the variable (explicit part) |
[in] | cofbfp | boundary condition array for the diffusion of the variable (implicit part) |
[in] | i_visc | ![]() |
[in] | b_visc | ![]() |
[in] | viscel | symmetric cell tensor ![]() |
[in] | weighf | internal face weight between cells i j in case of tensor diffusion |
[in] | weighb | boundary face weight for cells i in case of tensor diffusion |
[in,out] | rhs | right hand side ![]() |
void cs_anisotropic_diffusion_tensor | ( | int | idtvar, |
int | f_id, | ||
const cs_var_cal_opt_t | var_cal_opt, | ||
int | inc, | ||
cs_real_6_t *restrict | pvar, | ||
const cs_real_6_t *restrict | pvara, | ||
const cs_int_t | bc_type[], | ||
const cs_real_6_t | coefa[], | ||
const cs_real_66_t | coefb[], | ||
const cs_real_6_t | cofaf[], | ||
const cs_real_66_t | cofbf[], | ||
const cs_real_t | i_visc[], | ||
const cs_real_t | b_visc[], | ||
cs_real_6_t *restrict | viscel, | ||
const cs_real_2_t | weighf[], | ||
const cs_real_t | weighb[], | ||
cs_real_6_t *restrict | rhs | ||
) |
Add the explicit part of the diffusion terms with a symmetric tensor diffusivity for a transport equation of a scalar field .
More precisely, the right hand side is updated as follows:
Warning:
[in] | idtvar | indicator of the temporal scheme |
[in] | f_id | index of the current variable |
[in] | var_cal_opt | variable calculation options |
[in] | inc | indicator
|
[in] | pvar | solved variable (current time step) |
[in] | pvara | solved variable (previous time step) |
[in] | bc_type | boundary condition type |
[in] | coefa | boundary condition array for the variable (explicit part) |
[in] | coefb | boundary condition array for the variable (implicit part) |
[in] | cofaf | boundary condition array for the diffusion of the variable (explicit part) |
[in] | cofbf | boundary condition array for the diffusion of the variable (implicit part) |
[in] | i_visc | ![]() |
[in] | b_visc | ![]() |
[in] | viscel | symmetric cell tensor ![]() |
[in] | weighf | internal face weight between cells i j in case of tensor diffusion |
[in] | weighb | boundary face weight for cells i in case of tensor diffusion |
[in,out] | rhs | right hand side ![]() |
void cs_anisotropic_diffusion_vector | ( | int | idtvar, |
int | f_id, | ||
const cs_var_cal_opt_t | var_cal_opt, | ||
int | inc, | ||
int | ifaccp, | ||
int | ivisep, | ||
cs_real_3_t *restrict | pvar, | ||
const cs_real_3_t *restrict | pvara, | ||
const cs_int_t | bc_type[], | ||
const cs_real_3_t | coefav[], | ||
const cs_real_33_t | coefbv[], | ||
const cs_real_3_t | cofafv[], | ||
const cs_real_33_t | cofbfv[], | ||
const cs_real_33_t | i_visc[], | ||
const cs_real_t | b_visc[], | ||
const cs_real_t | secvif[], | ||
cs_real_3_t *restrict | rhs | ||
) |
Add the explicit part of the diffusion terms with a symmetric tensorial diffusivity for a transport equation of a vector field .
More precisely, the right hand side is updated as follows:
Warning:
[in] | idtvar | indicator of the temporal scheme |
[in] | f_id | index of the current variable |
[in] | var_cal_opt | variable calculation options |
[in] | inc | indicator
|
[in] | ifaccp | indicator
|
[in] | ivisep | indicator to take ![]()
|
[in] | pvar | solved variable (current time step) |
[in] | pvara | solved variable (previous time step) |
[in] | bc_type | boundary condition type |
[in] | coefav | boundary condition array for the variable (explicit part) |
[in] | coefbv | boundary condition array for the variable (implicit part) |
[in] | cofafv | boundary condition array for the diffusion of the variable (explicit part) |
[in] | cofbfv | boundary condition array for the diffusion of the variable (implicit part) |
[in] | i_visc | ![]() |
[in] | b_visc | ![]() |
[in] | secvif | secondary viscosity at interior faces |
[in,out] | rhs | right hand side ![]() |
void cs_convection_diffusion_scalar | ( | int | idtvar, |
int | f_id, | ||
const cs_var_cal_opt_t | var_cal_opt, | ||
int | icvflb, | ||
int | inc, | ||
int | iccocg, | ||
int | ifaccp, | ||
cs_real_t *restrict | pvar, | ||
const cs_real_t *restrict | pvara, | ||
const cs_int_t | bc_type[], | ||
const cs_int_t | icvfli[], | ||
const cs_real_t | coefap[], | ||
const cs_real_t | coefbp[], | ||
const cs_real_t | cofafp[], | ||
const cs_real_t | cofbfp[], | ||
const cs_real_t | i_massflux[], | ||
const cs_real_t | b_massflux[], | ||
const cs_real_t | i_visc[], | ||
const cs_real_t | b_visc[], | ||
cs_real_t *restrict | rhs | ||
) |
Add the explicit part of the convection/diffusion terms of a standard transport equation of a scalar field .
More precisely, the right hand side is updated as follows:
Warning:
[in] | idtvar | indicator of the temporal scheme |
[in] | f_id | field id (or -1) |
[in] | var_cal_opt | variable calculation options |
[in] | icvflb | global indicator of boundary convection flux
|
[in] | inc | indicator
|
[in] | iccocg | indicator
|
[in] | ifaccp | indicator
|
[in] | pvar | solved variable (current time step) |
[in] | pvara | solved variable (previous time step) |
[in] | bc_type | boundary condition type |
[in] | icvfli | boundary face indicator array of convection flux
|
[in] | coefap | boundary condition array for the variable (explicit part) |
[in] | coefbp | boundary condition array for the variable (implicit part) |
[in] | cofafp | boundary condition array for the diffusion of the variable (explicit part) |
[in] | cofbfp | boundary condition array for the diffusion of the variable (implicit part) |
[in] | i_massflux | mass flux at interior faces |
[in] | b_massflux | mass flux at boundary faces |
[in] | i_visc | ![]() |
[in] | b_visc | ![]() |
[in,out] | rhs | right hand side ![]() |
void cs_convection_diffusion_tensor | ( | int | idtvar, |
int | f_id, | ||
const cs_var_cal_opt_t | var_cal_opt, | ||
int | icvflb, | ||
int | inc, | ||
int | ifaccp, | ||
cs_real_6_t *restrict | pvar, | ||
const cs_real_6_t *restrict | pvara, | ||
const cs_int_t | bc_type[], | ||
const cs_int_t | icvfli[], | ||
const cs_real_6_t | coefa[], | ||
const cs_real_66_t | coefb[], | ||
const cs_real_6_t | cofaf[], | ||
const cs_real_66_t | cofbf[], | ||
const cs_real_t | i_massflux[], | ||
const cs_real_t | b_massflux[], | ||
const cs_real_t | i_visc[], | ||
const cs_real_t | b_visc[], | ||
cs_real_6_t *restrict | rhs | ||
) |
Add the explicit part of the convection/diffusion terms of a transport equation of a vector field .
More precisely, the right hand side is updated as follows:
Warning:
[in] | idtvar | indicator of the temporal scheme |
[in] | f_id | index of the current variable |
[in] | var_cal_opt | variable calculation options |
[in] | icvflb | global indicator of boundary convection flux
|
[in] | inc | indicator
|
[in] | ifaccp | indicator
|
[in] | pvar | solved velocity (current time step) |
[in] | pvara | solved velocity (previous time step) |
[in] | bc_type | boundary condition type |
[in] | icvfli | boundary face indicator array of convection flux
|
[in] | coefa | boundary condition array for the variable (Explicit part) |
[in] | coefb | boundary condition array for the variable (Implicit part) |
[in] | cofaf | boundary condition array for the diffusion of the variable (Explicit part) |
[in] | cofbf | boundary condition array for the diffusion of the variable (Implicit part) |
[in] | i_massflux | mass flux at interior faces |
[in] | b_massflux | mass flux at boundary faces |
[in] | i_visc | ![]() |
[in] | b_visc | ![]() |
[in,out] | rhs | right hand side ![]() |
void cs_convection_diffusion_thermal | ( | int | idtvar, |
int | f_id, | ||
const cs_var_cal_opt_t | var_cal_opt, | ||
int | inc, | ||
int | iccocg, | ||
int | ifaccp, | ||
cs_real_t *restrict | pvar, | ||
const cs_real_t *restrict | pvara, | ||
const cs_int_t | bc_type[], | ||
const cs_real_t | coefap[], | ||
const cs_real_t | coefbp[], | ||
const cs_real_t | cofafp[], | ||
const cs_real_t | cofbfp[], | ||
const cs_real_t | i_massflux[], | ||
const cs_real_t | b_massflux[], | ||
const cs_real_t | i_visc[], | ||
const cs_real_t | b_visc[], | ||
const cs_real_t | xcpp[], | ||
cs_real_t *restrict | rhs | ||
) |
Add the explicit part of the convection/diffusion terms of a transport equation of a scalar field such as the temperature.
More precisely, the right hand side is updated as follows:
Warning: has already been initialized before calling bilsct!
[in] | idtvar | indicator of the temporal scheme |
[in] | f_id | index of the current variable |
[in] | var_cal_opt | variable calculation options |
[in] | inc | indicator
|
[in] | iccocg | indicator
|
[in] | ifaccp | indicator
|
[in] | pvar | solved variable (current time step) |
[in] | pvara | solved variable (previous time step) |
[in] | bc_type | boundary condition type |
[in] | coefap | boundary condition array for the variable (explicit part) |
[in] | coefbp | boundary condition array for the variable (implicit part) |
[in] | cofafp | boundary condition array for the diffusion of the variable (explicit part) |
[in] | cofbfp | boundary condition array for the diffusion of the variable (implicit part) |
[in] | i_massflux | mass flux at interior faces |
[in] | b_massflux | mass flux at boundary faces |
[in] | i_visc | ![]() |
[in] | b_visc | ![]() |
[in] | xcpp | array of specific heat ( ![]() |
[in,out] | rhs | right hand side ![]() |
void cs_convection_diffusion_vector | ( | int | idtvar, |
int | f_id, | ||
const cs_var_cal_opt_t | var_cal_opt, | ||
int | icvflb, | ||
int | inc, | ||
int | ifaccp, | ||
int | ivisep, | ||
cs_real_3_t *restrict | pvar, | ||
const cs_real_3_t *restrict | pvara, | ||
const cs_int_t | bc_type[], | ||
const cs_int_t | icvfli[], | ||
const cs_real_3_t | coefav[], | ||
const cs_real_33_t | coefbv[], | ||
const cs_real_3_t | cofafv[], | ||
const cs_real_33_t | cofbfv[], | ||
const cs_real_t | i_massflux[], | ||
const cs_real_t | b_massflux[], | ||
const cs_real_t | i_visc[], | ||
const cs_real_t | b_visc[], | ||
const cs_real_t | secvif[], | ||
cs_real_3_t *restrict | rhs | ||
) |
Add the explicit part of the convection/diffusion terms of a transport equation of a vector field .
More precisely, the right hand side is updated as follows:
Remark: if ivisep = 1, then we also take , where
is the secondary viscosity, i.e. usually
.
Warning:
[in] | idtvar | indicator of the temporal scheme |
[in] | f_id | index of the current variable |
[in] | var_cal_opt | variable calculation options |
[in] | icvflb | global indicator of boundary convection flux
|
[in] | inc | indicator
|
[in] | ifaccp | indicator
|
[in] | ivisep | indicator to take ![]()
|
[in] | pvar | solved velocity (current time step) |
[in] | pvara | solved velocity (previous time step) |
[in] | bc_type | boundary condition type |
[in] | icvfli | boundary face indicator array of convection flux
|
[in] | coefav | boundary condition array for the variable (explicit part) |
[in] | coefbv | boundary condition array for the variable (implicit part) |
[in] | cofafv | boundary condition array for the diffusion of the variable (explicit part) |
[in] | cofbfv | boundary condition array for the diffusion of the variable (implicit part) |
[in] | i_massflux | mass flux at interior faces |
[in] | b_massflux | mass flux at boundary faces |
[in] | i_visc | ![]() |
[in] | b_visc | ![]() |
[in] | secvif | secondary viscosity at interior faces |
[in,out] | rhs | right hand side ![]() |
void cs_diffusion_potential | ( | const int | f_id, |
const cs_mesh_t * | m, | ||
cs_mesh_quantities_t * | fvq, | ||
int | init, | ||
int | inc, | ||
int | imrgra, | ||
int | iccocg, | ||
int | nswrgp, | ||
int | imligp, | ||
int | iphydp, | ||
int | iwarnp, | ||
double | epsrgp, | ||
double | climgp, | ||
double | extrap, | ||
cs_real_3_t *restrict | frcxt, | ||
cs_real_t *restrict | pvar, | ||
const cs_real_t | coefap[], | ||
const cs_real_t | coefbp[], | ||
const cs_real_t | cofafp[], | ||
const cs_real_t | cofbfp[], | ||
const cs_real_t | i_visc[], | ||
const cs_real_t | b_visc[], | ||
const cs_real_t | viselx[], | ||
const cs_real_t | visely[], | ||
const cs_real_t | viselz[], | ||
cs_real_t *restrict | diverg | ||
) |
Update the cell mass flux divergence with the face pressure (or pressure increment, or pressure double increment) gradient.
[in] | f_id | field id (or -1) |
[in] | m | pointer to mesh |
[in] | fvq | pointer to finite volume quantities |
[in] | init | indicator
|
[in] | inc | indicator
|
[in] | imrgra | indicator
|
[in] | iccocg | indicator
|
[in] | nswrgp | number of reconstruction sweeps for the gradients |
[in] | imligp | clipping gradient method
|
[in] | iphydp | hydrostatic pressure indicator |
[in] | iwarnp | verbosity |
[in] | epsrgp | relative precision for the gradient reconstruction |
[in] | climgp | clipping coeffecient for the computation of the gradient |
[in] | extrap | coefficient for extrapolation of the gradient |
[in] | frcxt | body force creating the hydrostatic pressure |
[in] | pvar | solved variable (current time step) |
[in] | coefap | boundary condition array for the variable (explicit part) |
[in] | coefbp | boundary condition array for the variable (implicit part) |
[in] | cofafp | boundary condition array for the diffusion of the variable (explicit part) |
[in] | cofbfp | boundary condition array for the diffusion of the variable (implicit part) |
[in] | i_visc | ![]() |
[in] | b_visc | ![]() |
[in] | viselx | viscosity by cell, dir x |
[in] | visely | viscosity by cell, dir y |
[in] | viselz | viscosity by cell, dir z |
[in,out] | diverg | mass flux divergence |
void cs_face_anisotropic_diffusion_potential | ( | const int | f_id, |
const cs_mesh_t * | m, | ||
cs_mesh_quantities_t * | fvq, | ||
int | init, | ||
int | inc, | ||
int | imrgra, | ||
int | iccocg, | ||
int | nswrgp, | ||
int | imligp, | ||
int | ircflp, | ||
int | iphydp, | ||
int | iwarnp, | ||
double | epsrgp, | ||
double | climgp, | ||
double | extrap, | ||
cs_real_3_t *restrict | frcxt, | ||
cs_real_t *restrict | pvar, | ||
const cs_real_t | coefap[], | ||
const cs_real_t | coefbp[], | ||
const cs_real_t | cofafp[], | ||
const cs_real_t | cofbfp[], | ||
const cs_real_t | i_visc[], | ||
const cs_real_t | b_visc[], | ||
cs_real_6_t *restrict | viscel, | ||
const cs_real_2_t | weighf[], | ||
const cs_real_t | weighb[], | ||
cs_real_t *restrict | i_massflux, | ||
cs_real_t *restrict | b_massflux | ||
) |
Add the explicit part of the pressure gradient term to the mass flux in case of anisotropic diffusion of the pressure field .
More precisely, the mass flux side is updated as follows:
[in] | f_id | field id (or -1) |
[in] | m | pointer to mesh |
[in] | fvq | pointer to finite volume quantities |
[in] | init | indicator
|
[in] | inc | indicator
|
[in] | imrgra | indicator
|
[in] | iccocg | indicator
|
[in] | nswrgp | number of reconstruction sweeps for the gradients |
[in] | imligp | clipping gradient method
|
[in] | ircflp | indicator
|
[in] | iphydp | indicator
|
[in] | iwarnp | verbosity |
[in] | epsrgp | relative precision for the gradient reconstruction |
[in] | climgp | clipping coeffecient for the computation of the gradient |
[in] | extrap | coefficient for extrapolation of the gradient |
[in] | frcxt | body force creating the hydrostatic pressure |
[in] | pvar | solved variable (pressure) |
[in] | coefap | boundary condition array for the variable (explicit part) |
[in] | coefbp | boundary condition array for the variable (implicit part) |
[in] | cofafp | boundary condition array for the diffusion of the variable (explicit part) |
[in] | cofbfp | boundary condition array for the diffusion of the variable (implicit part) |
[in] | i_visc | ![]() |
[in] | b_visc | ![]() |
[in] | viscel | symmetric cell tensor ![]() |
[in] | weighf | internal face weight between cells i j in case of tensor diffusion |
[in] | weighb | boundary face weight for cells i in case of tensor diffusion |
[in,out] | i_massflux | mass flux at interior faces |
[in,out] | b_massflux | mass flux at boundary faces |
void cs_face_diffusion_potential | ( | const int | f_id, |
const cs_mesh_t * | m, | ||
cs_mesh_quantities_t * | fvq, | ||
int | init, | ||
int | inc, | ||
int | imrgra, | ||
int | iccocg, | ||
int | nswrgp, | ||
int | imligp, | ||
int | iphydp, | ||
int | iwarnp, | ||
double | epsrgp, | ||
double | climgp, | ||
double | extrap, | ||
cs_real_3_t *restrict | frcxt, | ||
cs_real_t *restrict | pvar, | ||
const cs_real_t | coefap[], | ||
const cs_real_t | coefbp[], | ||
const cs_real_t | cofafp[], | ||
const cs_real_t | cofbfp[], | ||
const cs_real_t | i_visc[], | ||
const cs_real_t | b_visc[], | ||
const cs_real_t | viselx[], | ||
const cs_real_t | visely[], | ||
const cs_real_t | viselz[], | ||
cs_real_t *restrict | i_massflux, | ||
cs_real_t *restrict | b_massflux | ||
) |
Update the face mass flux with the face pressure (or pressure increment, or pressure double increment) gradient.
[in] | f_id | field id (or -1) |
[in] | m | pointer to mesh |
[in] | fvq | pointer to finite volume quantities |
[in] | init | indicator
|
[in] | inc | indicator
|
[in] | imrgra | indicator
|
[in] | iccocg | indicator
|
[in] | nswrgp | number of reconstruction sweeps for the gradients |
[in] | imligp | clipping gradient method
|
[in] | iphydp | hydrostatic pressure indicator |
[in] | iwarnp | verbosity |
[in] | epsrgp | relative precision for the gradient reconstruction |
[in] | climgp | clipping coeffecient for the computation of the gradient |
[in] | extrap | coefficient for extrapolation of the gradient |
[in] | frcxt | body force creating the hydrostatic pressure |
[in] | pvar | solved variable (current time step) |
[in] | coefap | boundary condition array for the variable (explicit part) |
[in] | coefbp | boundary condition array for the variable (implicit part) |
[in] | cofafp | boundary condition array for the diffusion of the variable (explicit part) |
[in] | cofbfp | boundary condition array for the diffusion of the variable (implicit part) |
[in] | i_visc | ![]() |
[in] | b_visc | ![]() |
[in] | viselx | viscosity by cell, dir x |
[in] | visely | viscosity by cell, dir y |
[in] | viselz | viscosity by cell, dir z |
[in,out] | i_massflux | mass flux at interior faces |
[in,out] | b_massflux | mass flux at boundary faces |
void diften | ( | const cs_int_t *const | idtvar, |
const cs_int_t *const | f_id, | ||
const cs_var_cal_opt_t *const | var_cal_opt, | ||
const cs_int_t *const | inc, | ||
const cs_int_t *const | iccocg, | ||
cs_real_t | pvar[], | ||
const cs_real_t | pvara[], | ||
const cs_real_t | coefap[], | ||
const cs_real_t | coefbp[], | ||
const cs_real_t | cofafp[], | ||
const cs_real_t | cofbfp[], | ||
const cs_real_t | i_visc[], | ||
const cs_real_t | b_visc[], | ||
cs_real_6_t | viscel[], | ||
const cs_real_2_t | weighf[], | ||
const cs_real_t | weighb[], | ||
cs_real_t | rhs[] | ||
) |
void diftnts | ( | const cs_int_t *const | idtvar, |
const cs_int_t *const | f_id, | ||
const cs_var_cal_opt_t *const | var_cal_opt, | ||
const cs_int_t *const | inc, | ||
cs_real_6_t | pvar[], | ||
const cs_real_6_t | pvara[], | ||
const cs_int_t | bc_type[], | ||
const cs_real_6_t | coefa[], | ||
const cs_real_66_t | coefb[], | ||
const cs_real_6_t | cofaf[], | ||
const cs_real_66_t | cofbf[], | ||
const cs_real_t | i_visc[], | ||
const cs_real_t | b_visc[], | ||
cs_real_6_t | viscel[], | ||
const cs_real_2_t | weighf[], | ||
const cs_real_t | weighb[], | ||
cs_real_6_t | rhs[] | ||
) |
void diftnv | ( | const cs_int_t *const | idtvar, |
const cs_int_t *const | f_id, | ||
const cs_var_cal_opt_t *const | var_cal_opt, | ||
const cs_int_t *const | inc, | ||
const cs_int_t *const | ifaccp, | ||
const cs_int_t *const | ivisep, | ||
cs_real_3_t | pvar[], | ||
const cs_real_3_t | pvara[], | ||
const cs_int_t | bc_type[], | ||
const cs_real_3_t | coefav[], | ||
const cs_real_33_t | coefbv[], | ||
const cs_real_3_t | cofafv[], | ||
const cs_real_33_t | cofbfv[], | ||
const cs_real_33_t | i_visc[], | ||
const cs_real_t | b_visc[], | ||
const cs_real_t | secvif[], | ||
cs_real_3_t | rhs[] | ||
) |
void itrgrp | ( | const cs_int_t *const | f_id, |
const cs_int_t *const | init, | ||
const cs_int_t *const | inc, | ||
const cs_int_t *const | imrgra, | ||
const cs_int_t *const | iccocg, | ||
const cs_int_t *const | nswrgp, | ||
const cs_int_t *const | imligp, | ||
const cs_int_t *const | iphydp, | ||
const cs_int_t *const | iwarnp, | ||
const cs_real_t *const | epsrgp, | ||
const cs_real_t *const | climgp, | ||
const cs_real_t *const | extrap, | ||
cs_real_3_t | frcxt[], | ||
cs_real_t | pvar[], | ||
const cs_real_t | coefap[], | ||
const cs_real_t | coefbp[], | ||
const cs_real_t | cofafp[], | ||
const cs_real_t | cofbfp[], | ||
const cs_real_t | i_visc[], | ||
const cs_real_t | b_visc[], | ||
const cs_real_t | viselx[], | ||
const cs_real_t | visely[], | ||
const cs_real_t | viselz[], | ||
cs_real_t | diverg[] | ||
) |
void itrgrv | ( | const cs_int_t *const | f_id, |
const cs_int_t *const | init, | ||
const cs_int_t *const | inc, | ||
const cs_int_t *const | imrgra, | ||
const cs_int_t *const | iccocg, | ||
const cs_int_t *const | nswrgp, | ||
const cs_int_t *const | imligp, | ||
const cs_int_t *const | ircflp, | ||
const cs_int_t *const | iphydp, | ||
const cs_int_t *const | iwarnp, | ||
const cs_real_t *const | epsrgp, | ||
const cs_real_t *const | climgp, | ||
const cs_real_t *const | extrap, | ||
cs_real_3_t | frcxt[], | ||
cs_real_t | pvar[], | ||
const cs_real_t | coefap[], | ||
const cs_real_t | coefbp[], | ||
const cs_real_t | cofafp[], | ||
const cs_real_t | cofbfp[], | ||
const cs_real_t | i_visc[], | ||
const cs_real_t | b_visc[], | ||
cs_real_6_t | viscel[], | ||
const cs_real_2_t | weighf[], | ||
const cs_real_t | weighb[], | ||
cs_real_t | diverg[] | ||
) |
void itrmas | ( | const cs_int_t *const | f_id, |
const cs_int_t *const | init, | ||
const cs_int_t *const | inc, | ||
const cs_int_t *const | imrgra, | ||
const cs_int_t *const | iccocg, | ||
const cs_int_t *const | nswrgp, | ||
const cs_int_t *const | imligp, | ||
const cs_int_t *const | iphydp, | ||
const cs_int_t *const | iwarnp, | ||
const cs_real_t *const | epsrgp, | ||
const cs_real_t *const | climgp, | ||
const cs_real_t *const | extrap, | ||
cs_real_3_t | frcxt[], | ||
cs_real_t | pvar[], | ||
const cs_real_t | coefap[], | ||
const cs_real_t | coefbp[], | ||
const cs_real_t | cofafp[], | ||
const cs_real_t | cofbfp[], | ||
const cs_real_t | i_visc[], | ||
const cs_real_t | b_visc[], | ||
const cs_real_t | viselx[], | ||
const cs_real_t | visely[], | ||
const cs_real_t | viselz[], | ||
cs_real_t | i_massflux[], | ||
cs_real_t | b_massflux[] | ||
) |
void itrmav | ( | const cs_int_t *const | f_id, |
const cs_int_t *const | init, | ||
const cs_int_t *const | inc, | ||
const cs_int_t *const | imrgra, | ||
const cs_int_t *const | iccocg, | ||
const cs_int_t *const | nswrgp, | ||
const cs_int_t *const | imligp, | ||
const cs_int_t *const | ircflp, | ||
const cs_int_t *const | iphydp, | ||
const cs_int_t *const | iwarnp, | ||
const cs_real_t *const | epsrgp, | ||
const cs_real_t *const | climgp, | ||
const cs_real_t *const | extrap, | ||
cs_real_3_t | frcxt[], | ||
cs_real_t | pvar[], | ||
const cs_real_t | coefap[], | ||
const cs_real_t | coefbp[], | ||
const cs_real_t | cofafp[], | ||
const cs_real_t | cofbfp[], | ||
const cs_real_t | i_visc[], | ||
const cs_real_t | b_visc[], | ||
cs_real_6_t | viscel[], | ||
const cs_real_2_t | weighf[], | ||
const cs_real_t | weighb[], | ||
cs_real_t | i_massflux[], | ||
cs_real_t | b_massflux[] | ||
) |