I am designing a Fortran code for solving a PDE system.
The way it is designed right now is that I have a type Variable
that has several attributes, the most important of which is the array val
that stores the value.
Now I also have a solver
class, which would perform calculations on a variable
. I figured that passing the whole variable
to the solver and working with variable%val
each time I want to run it (several thousands of times during an exectution) would be inefficient, so I decided to to define pointer fields in the solver
class to bind the to solver to the appropriate variable. For example
program example
use variable
use solvers
type(Variable) T
type(Solver) solver_temperature
!Contructors
call T%create()
call solver_temperature%create(T)
call solver_temperature%solve()
end program example
And the solver module
module solvers
type Solver
real*8, pointer :: T(:,:)
contains
procedure :: create
procedure :: solve
end type
contains
subroutine create(this,T)
type(Solver) :: this
type(Variable) :: T
this%T => T%val
end subroutine
end module
In my program I define different variable for different physical properties and different solvers that are associated with those variables in the way I showed above.
I am new to OOP in general, so my question is if that is a decent design? Especially from a performance point of view. How does this compare with making T
just an array and passing it to a subroutine solve
in terms of speed? Is there some regular way to do this?