32 #define NFLX (4 + HAVE_ENERGY) 39 #if GEOMETRY == CYLINDRICAL 61 #if GEOMETRY == SPHERICAL 88 int ConsToPrim (
double **,
double **,
int,
int, uint16_t *);
89 void Eigenvalues (
double **,
double *,
double **,
int,
int);
92 double **,
double **,
double *);
97 void PrimToCons (
double **,
double **,
int,
int);
98 void PrimRHS (
double *,
double *,
double,
double,
double *);
102 HLLC_Solver, RusanovDW_Solver;
103 Riemann_Solver AUSMp_Solver;
void MaxSignalSpeed(const State *, double *, double *, int, int)
Definition: eigenv.c:34
int ConsToPrim(double **, double **, int, int, uint16_t *)
Definition: mappers.c:88
void PrimToCons(double **, double **, int, int)
Definition: mappers.c:26
Definition: structs.h:124
void Flux(const State *, int, int)
Definition: fluxes.c:23
void HLL_Speed(const State *, const State *, double *, double *, int, int)
Definition: hll_speed.c:24
void Eigenvalues(double **, double *, double **, int, int)
Definition: eigenv.c:68
void TwoShock_Solver(const Sweep *sweep, int beg, int end, double *cmax, Grid *grid)
Definition: two_shock.c:45
void ConsEigenvectors(double *, double *, double, double **, double **, double *)
Definition: eigenv.c:277
void PrimEigenvectors(const State *, int, int)
Definition: eigenv.c:92
Definition: structs.h:261
void PrimRHS(double *, double *, double, double, double *)
Definition: prim_eqn.c:30
void PrimSource(const State *, double **, int, int, Grid *)
Definition: prim_eqn.c:124