Is it necessary to declare array dimensions before any other code? For example, I have written the following simplified example code:
PROGRAM mytest
IMPLICIT NONE
INTEGER :: i, j, k, mysum
! Let array c be a k-by-k**2 array
! Determine k within the program by some means...for example,
mysum=0
DO i=1, 3
mysum=mysum+1
END DO
k=mysum
REAL, DIMENSION(k, k**2) :: c
WRITE(*,*) "k=", k
WRITE(*,*) "k**2=", k**2
WRITE(*,*)
DO i=1,size(c,1)
WRITE(*,"(100(3X,F3.1))") (c(i,j), j=1,size(c,2))
END DO
END PROGRAM mytest
The point that I am trying to make is that I would like to create an array c
that is k
-by-k**2
in size, and k
is only determined by other computations within the code; k
is not known at the very beginning.
But, the above code gives me the following error message at compile time:
mytest.f90:13.31:
REAL, DIMENSION(k, k**2) :: c
1
Error: Unexpected data declaration statement at (1)
where line 13 in my code is the line where I finally declare c
: REAL, DIMENSION(k, k**2) :: c
.
On the other hand, if I instead declare k
and specify its dimensions upfront,
PROGRAM mytest
IMPLICIT NONE
INTEGER :: i, j, k, mysum
REAL, DIMENSION(3,9) :: c
! Let array c be a k-by-k**2 array
! Determine k within the program by some means...for example,
mysum=0
DO i=1, 3
mysum=mysum+1
END DO
k=mysum
WRITE(*,*) "k=", k
WRITE(*,*) "k**2=", k**2
WRITE(*,*)
DO i=1,size(c,1)
WRITE(*,"(100(3X,F3.1))") (c(i,j), j=1,size(c,2))
END DO
END PROGRAM mytest
I get the correct output:
k= 3
k**2= 9
0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
But, since I don't know k
beforehand, I can't do exactly this in my actual code. Is there some way to "declare" the array c
initially, without specifying its dimensions, and then later specify the dimensions once the value of k
is known?