Fortran allows parametrizing the size of elements of derived types. However, where fixed-size elements can have a default value assigned in the type declaration, there doesn't seem to be a way for parametrized entries:


  TYPE data1
     INTEGER :: array(5) = 2   ! allowed
  END type data1

  TYPE data2(n)
     INTEGER, LEN :: n
     INTEGER :: array(n) = 2   ! incorrect: error #8737 with intel fortran 19,
  END type data2               !            ignored by gfortran 8.2.1


Assigning default values is convenient, as it allows avoiding repeating the initialization every time the type is used, but for parametric-sized fields it isn't allowed; Gfortran just ignores the default value silently, and Intel Fortran issues an error

error #8737: For a default initialized component every type parameter and array bound
             must be a constant expression.   [ARRAY]

Is there any syntax, that would allow defining a default value after all?


There can be no default initialization for such components.

As the Intel Fortran error message states, the array bounds for a component with an initialization expression must be constant expressions (this is constraint C762 of Fortran 2018). The length type parameter is not usable as a constant expression.

There is no other syntax to specify a default value for the component.

A kind type parameter can feature in a constant expression, so components with bounds given by a kind parameter of that type can have default initialization.

  • Are you sure? F2018, page 75, Note 3, seems to disagree. – evets May 25 '20 at 17:21
  • @evets, I'm afraid I don't have access to my final standard document at the moment, but the draft version I've checked has no array component in Note 3. Could you provide more detail on which part you mean? (I see that it has a non-constant length character component with default initialization but I assume that was a mistake that's corrected in the final version.) – francescalus May 25 '20 at 17:57
  • 1
    Note 3, contains TYPE MEMBER (NAME_LEN) ; INTEGER, LEN :: NAME_LEN ; CHARACTER (LEN = NAME_LEN) :: NAME = '' ; ... This shows component initialization where a type parameter is used in the specification expression. The standard explicitly states A type parameter may be used as a primary in a specification expression (10.1.11) in the derived-type-def. If one goes to 10.1.11, it then has A restricted expression is an expression ... and each primary is ... (13) a type parameter of the derived type being defined, – evets May 25 '20 at 18:16
  • 1
    @evets, I'm afraid I don't see the relevance of specification expressions to the initialization of components. The use of non-constant name_len as a specification expression for character component length naturally is allowed when name_len is a type parameter of the type being defined with that component. But specification expressions aren't what matters when it comes to default initialization. C762 is an additional constraint which means the type parameters and array bounds must be constant expressions, not specification expressions. – francescalus May 25 '20 at 18:25
  • 1
    @VladimirF, I agree that this could have been omitted by mistake and the intention was to allow integer :: array(n)=0 (but not integer :: array(n+0)=0, integer :: array(2:n+1)=0 or integer :: array(n)=[(i,i=1,n)]) but I feel mistakenly having the length parameter non-constant in the example seems much more likely. – francescalus May 25 '20 at 21:11

You can create a constructor that takes the length parameter to create the object

module datatypes

type data2(n)
    integer, len :: n
    integer :: array(n)
    procedure, pass :: data2_fill2
end type

interface data2
    module procedure new_data2
end interface

    subroutine data2_fill2(this)
        class(data2(*)) :: this
        this%array = 2
    end subroutine
    function new_data2(n) result(r)
        integer, intent(in) :: n
        type(data2(n)) :: r
        call r%data2_fill2()
    end function
end module

program Main
use datatypes
    type(data2(3)) :: mydata

    mydata = data2(100)

    print *, "Size of array ", size(mydata%array)

    if( mydata%array(1) /= 2) then
        print *, "Something went wrong"
    end if

end program
  • Why so complicated? The standard already allows component initialization. – evets May 25 '20 at 18:29
  • This method doesn't allow the compact, non-redundant initialization of fields to sensible values (as opposed to uninitialized memory), that I am looking for. Most notably, it doesn't guarantee initialization regardless of usage of the type, as default values do. – kdb May 26 '20 at 7:33

You have found a bug in different compilers. Your code is standard conforming. Fleshing out the code a bit, the following should print '2 2 2'.

program main

implicit none
! F2018, 7.5.1, page 64: A derived type can be parameterized by one or
! more type parameters, each of which is defined to be either a kind
! or length type parameter and can have a default value.
! F2018,, page 69: A type parameter may be used as a primary in
! a specification expression (10.1.11) in the derived-type-def.
! 10.1.11 Specification expression (page 156)
! ...
!    R1028 specification-expr  is scalar-int-expr
! C1010 (R1028) The scalar-int-expr shall be a restricted expression.
! A restricted expression is an expression in which each operation is
! intrinsic or defined by a specification function and each primary is
! ...
! (13) a type parameter of the derived type being defined,
type data2(n)
   integer, len :: n
   integer :: array(n) = 2
end type data2

type(data2(n=3)) :: a

print *, a%array  ! This should print 2 2 2

end program main

gfortran compiles the code, but prints '0 0 0', so gfortran has a bug in applying the component initialization.

  • 2
    Please see my answer and the comments there to see why I think this answer is wrong. However, I'll add here that one cannot look at rules in isolation. The use of a length type parameter in a specification expression is uncontroversial (to the extent that it's hard to see why we'd even have length parameters without that ability), but specification expressions do not appear in the context of default initialization. allows us to have a component integer :: array(n) (for n a length parameter) but it says nothing about default initialization which is subject to further constraint. – francescalus May 25 '20 at 20:54

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.