I can't tell what is wrong with this free form Fortran program. It does not correctly handle its command line arguments.

It works if I use a static array for the command line argument instead of an `allocatable`

array.

Also, is this a good first Fortran program? Is this the type of problem for which Fortran would be useful? I already know C, C++, and a little bit of D.

```
module fibonacci
use ISO_FORTRAN_ENV
implicit none
contains
subroutine output_fibonacci(ordinal)
! Declare variables
integer, parameter :: LongInt = selected_int_kind (38)
integer, intent(in) :: ordinal
integer :: count
! integer (kind=LongInt) :: count, compare=2
integer (kind=LongInt), dimension(2,2) :: matrix, initial
matrix=reshape((/ 1, 1, 1, 0 /), shape(matrix))
initial=reshape((/ 1, 0, 0, 1 /), shape(initial))
count = ordinal
! Do actual computations
do while (count > 0)
! If the exponent is odd, then the output matrix
! should be multiplied by the current base
if (mod(count,2) == 1) then
initial = matmul(matrix, initial)
end if
! This is the squaring step
matrix = matmul(matrix, matrix)
count = count/2
end do
write (*,*) initial(1,2)
end subroutine output_fibonacci
end module fibonacci
program main
use, intrinsic :: ISO_FORTRAN_ENV
use fibonacci
implicit none
! The maximum allowed input to the program
integer :: max=200, i, size=20
character, allocatable :: argumen(:)
integer :: error, length, input
allocate(argumen(size))
! write(*,*) argcount
do i=1, command_argument_count()
call get_command_argument(i, argumen, length, error)
read(argumen,*,iostat=error) input
! write(*,*) argument
! write (*,*) input
if (error .ne. 0) then
write(ERROR_UNIT,'(I36.1,A)') input, "is not an integer"
stop (1)
else if (input > max) then
write(ERROR_UNIT,'(A,I36.1,A)') "Input ", input, " is too large"
stop (1)
end if
call output_fibonacci(input)
end do
end program
```