I am trying to save and reuse a 2D variable after each run but I am getting some errors like automatic object can't be saved etc. Here is the subroutine:

subroutine dust_sum_test(ngrid,count,dust_in,dust_out)

!Subroutine to accumulate and release dust in timely manner
implicit none

real,save::dmsdust(ngrid,99999) ! dummy local variable
if (count.gt.1) then

write(*,*)'The current count is = ', count
end subroutine dust_sum_test

I need to add current value with previous dmsdust values. Please let me know how to fix this problem.

2 Answers 2


Ross explains the source of the error, and offers some sensible other approaches. An additional one, not mentioned in that answer, follows. I don't say it's better, or recommend it, though.

While automatic objects cannot have the save attribute, an allocatable array may. A saved local allocatable object retains its allocation status and, if allocated, its shape (if an array) and value.

real, allocatable, save :: dmsdust(:,:)  ! Initially not allocated
! Our first-time initialization and subsequent consistency check follows
if (.not.allocated(dmsdust)) then
  allocate(dmsdust(ngrid,99999), source=0.)
  if (size(dmsdust,1).ne.ngrid) error stop ! or some other handling
end if

The error is correct - you can't save an automatic array. The reason for this specific error is:

dmsdust is formed 'automatically' each time dust_sum_test executes with a size based on the input to dmsdust. So dmsdust is an automatic array. Your subroutine dust_sum_test takes in the value of ngrid each time it runs, but there's no guarentee that ngrid will be the same each time. What if the first time it's run ngrid is 1 and the second time ngrid is 2? How could dmsdust be saved and also change shape? So the compiler doesn't let you make this mistake.

The real solution to your problem is to change your approach. Your question doesn't say why you need to store the history of dust, but I assume you do. However, there is no reason for you to store it in this subroutine! In fact, storing it in the subroutine (as a saved value) means it will be hard to access. Instead, I believe there are two other good options.

Use a Module

Modules are a staple of modern fortran and can store both data and subroutines. You could keep the history of dust in this module and access it both in and out of the module. The implementation would look something like:

module mymod
   implicit none
   real, allocatable :: dmsdust(:,:)

subroutine init_dmsdust(ngrid)
   integer, intent(IN) :: ngrid
end subroutine init_dmsdust

subroutine dust_sum_test(ngrid,count,dust_in,dust_out)
   ! -- all your other code, but now dmsdust is not an automatic array
end subroutine dust_sum_test
end module mymod

In this implementation, you must call init_dmsdust once at the start to allocate the storage space. Then you use it later in each call to dmsdust. You could access dmsdust by adding an access subroutine to mymod or use-ing the variable dmsdust from another section of your code.

Store the history in the calling routine

This solution is simpler but not as extensible or elegant. Instead of giving dust_sum_test the job of keeping dmsdust, make whatever routine is responsible for calling dust_sum_test allocate and pass dmsdust. A section of your calling routine would look like:

do count=1,max  ! -- The main loop
   call dust_sum_test(ngrid,count,dust_in,dust_out,dmsdust)
   ! some other stuff

And then the subroutine looks like:

subroutine dust_sum_test(ngrid,count,dust_in,dust_out,dmsdust)
   implicit none
   real, intent(INOUT) :: dmsdust(:,:)

   ! -- All the other stuff
end subroutine dust_sum_test

This way the calling routine has access to dmsdust and it's known to be always the same size.

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