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I would like to create an array with a dimension based on the number of elements meeting a certain condition in another array. This would require that I initialize an array mid-routine, which Fortran won't let me do.

Is there a way around that?

Example routine:

subroutine example(some_array)

real some_array(50) ! passed array of known dimension

element_count = 0
do i=1,50
  if (some_array.gt.0) then
    element_count = element_count+1
  endif
enddo

real new_array(element_count) ! new array with length based on conditional statement

endsubroutine example

Thanks!

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4 Answers 4

up vote 4 down vote accepted

Your questions isn't about initializing an array, which involves setting its values.

However, there is a way to do what you want. You even have a choice, depending on how general it's to be.

I'm assuming that the element_count means to have a some_array(i) in that loop.

You can make new_array allocatable:

subroutine example(some_array)
  real some_array(50)
  real, allocatable :: new_array(:)

  allocate(new_array(COUNT(some_array.gt.0)))
end subroutine

Or have it as an automatic object:

subroutine example(some_array)
  real some_array(50)
  real new_array(COUNT(some_array.gt.0))
end subroutine

This latter works only when your condition is "simple". The allocatable case is much more general, such as when you want to use the full loop rather than the count intrinsic.

In both of these cases you meet the requirement of having all the declarations before executable statements.

[As a side-note, under Fortran 2008 the block construct allows automatic objects even after executable statements.]

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What is the correct term then? The automatic object looks like the most straightforward to me for this example. Interesting about Fortran 2008. I'm new to Fortran, and the code I'm working on has a mixture of syntax from different verions, which leaves me confused at times. –  ryanjdillon Jan 10 '14 at 14:55
1  
I've generally called it declaration, but one of those here more familiar with the standards may know the correct terminology. Also, note that automatic objects can be used in only special cases, where it's necessary that everything can be known at the point of declaration (even stronger conditions apply). –  francescalus Jan 10 '14 at 15:00

You can use allocatable arrays for this task:

subroutine example(some_array)

real             :: some_array(50)
real,allocatable :: new_array(:)
integer          :: i, element_count, status

element_count = 0
do i=lbound(some_array,1),ubound(some_array,1)
  if ( some_array(i) > 0 ) then
    element_count = element_count + 1
  endif
enddo

allocate( new_array(element_count), stat=status )
if ( status /= 0 ) stop 'cannot allocate memory'

! set values of new_array

end subroutine
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Checking the status is great. I wonder if such a think exists in C. –  ryanjdillon Jan 10 '14 at 14:51

You need to use an allocatable array (see this article for more on it). This would change your routine to

subroutine example(input_array,output_array)

  real,intent(in) :: input_array(50) ! passed array of known dimension
  real, intent(out), allocatable :: output_array(:)
  integer :: element_count, i

  element_count = 0
  do i=1,50
    if (some_array.gt.0) element_count = element_count+1
  enddo

  allocate(output_array(element_count))

end subroutine

Note that the intents may not be necessary, but are probably good practice. If you don't want to call a second array, it is possible to create a reallocate subroutine; though this would require the array to already be declared as allocatable.

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Is there a reasoning behind why intent is good practice here? thanks! –  ryanjdillon Jan 10 '14 at 14:52
1  
@shootingstars: see this link but note also there are some caveats. –  Kyle Kanos Jan 10 '14 at 15:03

Try this

real, dimension(50) :: some_array
real, dimension(:), allocatable :: other_array
integer :: status
...
allocate(other_array(count(some_array>0)),stat=status)

at the end of this sequence of statements other_array will have the one element for each element of some_array greater than 0, there is no need to write a loop to count the non-zero elements of some_array.

Following @AlexanderVogt's advice, do check the status of the allocate statement.

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this is definitely a much better approach than my loop. –  ryanjdillon Jan 10 '14 at 14:56

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