4

I'm trying to crate a function in Fortran (95) that that will have as input a string (test) and a character (class). The function will compare each character of test with the character class and return a logical that is .true. if they are of the same class1 and .false. otherwise.

The function (and the program to run it) is defined below:

!====== WRAPPER MODULE ======!
module that_has_function
implicit none
public

contains

!====== THE ACTUAL FUNCTION ======!
function isa(test   ,class  )
implicit none

logical, allocatable, dimension(:) :: isa
character*(*) :: test
character :: class

integer :: lt
character(len=:), allocatable :: both
integer, allocatable, dimension(:) :: intcls
integer :: i

lt = len_trim(test)
allocate(isa(lt))
allocate(intcls(lt+1))
allocate(character(len=lt+1) :: both)
isa = .false.
both = class//trim(test)
do i = 1,lt+1
  select case (both(i:i))
    case ('A':'Z'); intcls(i) = 1! uppercase alphabetic
    case ('a':'a'); intcls(i) = 2! lowercase alphabetic
    case ('0':'9'); intcls(i) = 3! numeral
    case default;   intcls(i) = 99! checks if they are equal
  end select
end do
isa = intcls(1).eq.intcls(2:)

return
end function isa

end module that_has_function
!====== CALLER PROGRAM ======!
program that_uses_module
use that_has_function
implicit none
integer :: i
i = 65

! Reducing the result of "isa" to a scalar with "all" works:
!         V-V
do while (all(isa(achar(i),'A')))
  print*, achar(i)
 i = i + 1
end do

! Without the reduction it doesn''t:
!do while (isa(achar(i),'A'))
!  print*, achar(i)
! i = i + 1
!end do

end program that_uses_module

I would like to use this function in do while loops, for example, as it is showed in the code above.

The problem is that, for example, when I use two scalars (rank 0) as input the function still returns the result as an array (rank 1), so to make it work as the condition of a do while loop I have to reduce the result to a scalar with all, for example.

My question is: can I make the function conditionally return a scalar? If not, then is it possible to make the function work with vector and scalar inputs and return, respectively, vector and scalar outputs?

1. What I call class here is, for example, uppercase or lowercase letters, or numbers, etc. ↩

4

You can not make the function conditionally return a scalar or a vector.

But you guessed right, there is a solution. You will use a generic function.

You write 2 functions, one that takes scalar and return scalar isas, the 2nd one takes vector and return vector isav.

From outside of the module you will be able to call them with the same name: isa. You only need to write its interface at the beginning of the module:

module that_has_function
implicit none
public

interface isa
    module procedure isas, isav
end interface isa

contains
...

When isa is called, the compiler will know which one to use thanks to the type of the arguments.

  • 1
    Would it make sense to use elemental? Using a generic function avoids the restrictions inherent in using elemental (i.e. no side-effects, coupling between rank of input and output) so it's a more general and flexible technique, though one with more cognitive overhead. – arclight Feb 27 '18 at 20:08
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    yes it "would make sense" to have it an elemental function. Yet I think it is not possible because all arguments must be conformants. If you call elemental isa function with test as a vector, so you must call it with class as a conformant vector. – Arno Bozo Feb 27 '18 at 23:59
2

The rank of a function result cannot be conditional on the flow of execution. This includes selection by evaluating an expression.

If reduction of a scalar result is too much, then you'll probably be horrified to see what can be done instead. I think, for instance, of derived types and defined operations.

However, I'd consider it bad design in general for the function reference to be unclear in its rank. My answer, then, is: no you can't, but that's fine because you don't really want to.

Regarding the example of minval, a few things.1 As noted in the comment, minval may take a dim argument. So

integer :: X(5,4) = ...
print *, MINVAL(X)        ! Result a scalar
print *, MINVAL(X,dim=1)  ! Result a rank-1 array

is in keeping with the desire of the question.

However, the rank of the function result is still "known" at the time of referencing the function. Simply having a dim argument means that the result is an array of rank one less than the input array rather than a scalar. The rank of the result doesn't depend on the value of the dim argument.

As noted in the other answer, you can have similar functionality with a generic interface. Again, the resolved specific function (whichever is chosen) will have a result of known rank at the time of reference.

1 The comment was actually about minloc but minval seems more fitting to the topic.

  • Thinking of it this way, it does make sense. In this case, can I implement something like the minloc intrinsic, that has the optional dim argument? – Phelype Oleinik Feb 27 '18 at 18:08
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    If you want the rank to depend only on whether the argument is present (not its value) then you can do this with generics - as in the other answer. With minloc et al. (which needn't follow the rules we programmers must) you still can't set dim=0 and return an array. – francescalus Feb 27 '18 at 18:36
  • (Note that 'present' was a poor choice in a way: this is unrelated to optional arguments.) – francescalus Feb 27 '18 at 18:57

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