Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Is there a way to create variable size arrays in Fortran on the stack? Allocate() does not work for me, because it places the array on the heap. This may lead to problems with parallelization (see my other question: OpenMP: poor performance of heap arrays (stack arrays work fine) ). Of course, some smart memory management would give a way around that problem, but memory management in Fortran sounds silly.

Essentially, I am looking for a Fortran equivalent of the following in C:

scanf("%d", N);
int myarray[N];

To re-iterate: I do NOT want

Integer, PARAMETER :: N=100
Integer, Dimension(N) :: myarray

because this determines the array size at compile time. Neither do I want

Integer, Dimension(:), Allocatable :: myarray
read(*,*) N
Allocate(myarray(1:N))

because it places the array on the heap.

Help very much appreciated. I was very happy with Allocatable arrays until my recent encounter with the problem in the question cited above. If there is a negative answer to this question, I would very much appreciate a link to the source.

Edit: see comments to M.S.B.'s answer. An elegant way of doing this only became possible in Fortran 2008, and it is done in a block construct.

share|improve this question
add comment

2 Answers

up vote 7 down vote accepted

Fortran can automatically create arrays just with declarations on entry to subroutines, as long as the the dimensions are known at run time ... this doesn't require the dimensions to be declared parameter attribute, they can be arguments, e.g.,

subroutine MySub ( N )

integer, intent (in) :: N
real, dimension (N) :: array

is valid. So why not decide your size "N" in the main program, or some subroutine, then call another subroutine to continue. Likely with this approach the array will be on the stack. As @eriktous wrote, the Fortran language standard doesn't specify this behavior. Some compilers switch local arrays to the heap past a certain size. Some compilers provide options to control this behavior. Placing large arrays on the heap would probably be overridden with recursive or OpenMP.

You can also pass an allocatable array as an actual argument to a subroutine without the dummy argument of the subroutine being declared as allocatable. Which may not help with your concern because the original array will still likely be on the heap.

share|improve this answer
1  
Thanks, M.S.B.! As heavy as it is compared to C's int array[N], it does the trick. –  drlemon Jul 8 '11 at 15:55
    
You can do something closer to C, i.e., a declaration in the middle of the code, using Fortran 2008's block construct. See, for example, p. 12 of ftp.nag.co.uk/sc22wg5/N1701-N1750/N1729.pdf. I don't know which compilers support this, or whether they support it with OpenMP. –  M. S. B. Jul 8 '11 at 17:14
2  
I have this construct in my code, however I notice that by default gfortran still puts the arrays on the heap, and now I have malloc in the middle of my tight loops. It seems that the option "-fstack-arrays" is needed. –  DaveP Jun 6 '12 at 22:58
add comment

The Fortran standard has no concept of stack and heap, so this will be implementation (i.e. compiler) dependent. Looking at the docs for e.g. gfortran, it has an option

-frecursive
    Allow indirect recursion by forcing all local arrays to be allocated on the stack.

Other compilers may have similar options. Perhaps this does what you want.

share|improve this answer
    
Thanks, that is an interesting idea! However, 'Local' arrays, to which this applies, are arrays created in functions, to which array size is passed as an intent(in) argument. In my tests, -frecursive had no effect on the results of Allocate(), but did have an effect on this interesting workaround: subroutine doit(n); integer, intent(in) :: n; integer, dimension(1:n) :: myarray; ! blah ; end subroutine ... read(*,*) n; call doit(n) In this case, myarray seems to get on the stack with and without -frecursive. A little perverted, but does the trick. I am using gcc 4.4.3 on x86_64. –  drlemon Jul 7 '11 at 23:38
    
@drlemon: Right, I was afraid this particular option wouldn't exactly do what you needed. Gcc 4.4.3 is kind of old, especially from a Fortran point of view; gfortran development has been (and still is) pretty active. If possible, you could try if a newer version still exhibits the same problem. Also, if I were you, I would ask your question on the gfortran mailing list. Since this concerns specifics of implementation, the developers would know best what's possible and what's not. –  eriktous Jul 8 '11 at 10:31
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

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