I have had problems calling successive subroutines with assumed-shape arrays in Fortran 90. More specifically, I call two levels of subroutines, passing an assumed-shape array as a parameter, but in the end the array is lost. To demonstrate it, one can follow the code below.

```
program main
INTERFACE
subroutine sub1(x)
real, dimension(:):: x
real C
end subroutine sub1
subroutine sub2(x)
real, dimension(:):: x
real C
end subroutine sub2
END INTERFACE
real, dimension(:), allocatable:: x
allocate(x(1:10)) ! First executable command in main
x(1) = 5.
call sub1(x)
write(*,*) 'result = ',x(1)
deallocate(x)
end program main
subroutine sub1(x) ! The first subroutine
real, dimension(:):: x
real C
call sub2(x)
end subroutine sub1
subroutine sub2(x) ! The second subroutine
real, dimension(:):: x
real C
C2=x(1)
end subroutine sub2
```

Very shortly, main allocates x then call sub1(x). Then sub1 calls sub2(x). That means an allocated array is passed to a subroutine that passes it to another subroutine. I would expect to have in sub2 the same array that I've created in main, but no. Using gdb as a tool to explore it, I get this:

1) In main, just before calling sub1, the array x is perfectly defined:

(gdb) p x

$1 = (5, 0, 0, 0, 0, 0, 0, 0, 0, 0)

2) Within sub1, just before calling sub2, x is also well defined:

(gdb) p x

$2 = (5, 0, 0, 0, 0, 0, 0, 0, 0, 0)

3) Inside sub2, however, x have an unexpected value and even its dimension is absolutely wrong:

(gdb) p x

$3 = ()

(gdb) whatis x

type = REAL(4) (0:-1)

So, x has been successfully passed from main to sub1, but not from sub1 to sub2. I've been using Intel Fortran an gfortran with the same results.

I've struggling with that for a long time. Any help would be much appreciated.

G.Oliveira.