|  | programmer's documentation | 
| Variables | |
| integer, save | nvar | 
| number of solved variables (must be lower than nvrmax)  More... | |
| integer, save | nscal | 
| number of solved user scalars effective number of scalars solutions of an advection equation, apart from the variables of the turbulence model (  ,  ,  ,  ,  ,  ,  ,  ), that is to say the temperature and other scalars (passive or not, user-defined or not) These scalars can be divided into two distinct groups: nscaus user-defined scalars and nscapp scalars related to a "specific physics". nscal=nscaus+nscapp, and nscal must be inferior or equal to nscamx.  More... | |
| integer, save | nvisls | 
| Number of scalars with variable diffusivity.  More... | |
| integer, save | ncofab | 
| number of boundary coefficient for the boundary conditions  More... | |
| integer, save | nproce | 
| number of properties defined at the cells. They will be stored in the array propce  More... | |
| integer, save | ndimfb | 
| fake dimension for arrays coefa and coefb where nfabor = 0 (to avoid issues with array bounds when multidimensional arrays have size nfabor in one dimension)  More... | |
| integer, save ncofab | 
number of boundary coefficient for the boundary conditions
| integer, save ndimfb | 
fake dimension for arrays coefa and coefb where nfabor = 0 (to avoid issues with array bounds when multidimensional arrays have size nfabor in one dimension)
| integer, save nproce | 
number of properties defined at the cells. They will be stored in the array propce
| integer, save nscal | 
number of solved user scalars effective number of scalars solutions of an advection equation, apart from the variables of the turbulence model (  ,
,  ,
,  ,
,  ,
,  ,
,  ,
,  ,
,  ), that is to say the temperature and other scalars (passive or not, user-defined or not) These scalars can be divided into two distinct groups: nscaus user-defined scalars and nscapp scalars related to a "specific physics". nscal=nscaus+nscapp, and nscal must be inferior or equal to nscamx.
), that is to say the temperature and other scalars (passive or not, user-defined or not) These scalars can be divided into two distinct groups: nscaus user-defined scalars and nscapp scalars related to a "specific physics". nscal=nscaus+nscapp, and nscal must be inferior or equal to nscamx. 
| integer, save nvar | 
number of solved variables (must be lower than nvrmax)
| integer, save nvisls | 
Number of scalars with variable diffusivity.
 1.8.3.1
 1.8.3.1