# Counting inside a loop with Fortran

I have some Fortran code that performs a simulation. The elapsed time is stored in `et`, and the timestep is stored in `dt`. Both are defined as type real. There is another real variable `tot` which holds the maximum time the simulation should run. `i` is a counting variable of type integer. My first attempt was like this:

``````real, intent(in) :: dt
real, intent(in) :: tot

real :: et
integer :: i

et = 0.0
i = 0
do
i = i+1
et = real(i)*dt
if (et > tot) exit

! main code here
end do
``````

I wanted to get rid of `i` since it was only used in the one place, however, when I tried this, the program hangs when the total time is large:

``````real, intent(in) :: dt
real, intent(in) :: tot

real :: et

et = 0.0
do
et = et + dt
if (et > tot) exit

! main code here
end do
``````

What is the difference between the two code samples that causes the program to respond so differently? My compiler is g77.

EDIT: I have added the declarations and initializations to the code samples above.

EDIT 2: The initial values passed to the subroutine are `dt = 1e-6` and `tot = 100.`

-
How does the program hang? Error? Infinite loop (i.e. `et` never reach `tot`) ? –  Anders Lindahl Sep 8 '11 at 14:10
@Anders: I'm assuming an infinite loop, since the program runs for 10+ min without stopping (using the first version of the code, it stops after about 1.5 min). –  astay13 Sep 8 '11 at 14:19
I would guess `et` is re-defined somewhere inside the main code. Have you tried printing the values to check if it behaves the way you expect? –  Anders Lindahl Sep 8 '11 at 14:21
@Anders: I have tried printing et and it does behave as I expect. It may not actually be an infinite loop, since tot is roughly 10 orders of magnitude greater than dt, but my real question is why the one method is so much slower than the other. –  astay13 Sep 8 '11 at 14:29

If dt is very small in relation to tot, it might also be that at one point dt is so small, that adding it to the, by then large, et has no effect (lost in numerical precision), and thus et does not grow beyond that point...

-
just checked, doing `et = et + dt` 1e8 times, then `et` is 32.0 and stays 32.0 beyond that. –  steabert Sep 9 '11 at 15:21
Thanks to all for your help! –  astay13 Sep 9 '11 at 15:47

I don't know if this is your error since you don't give the whole program, but in the first code, the first thing you do is set `et` equal to `dt`, since at that point `i=1`. In the second code however, you are using `et` without having set it (as far as we can guess). Also, `dt` seems to be used uninitialized. If the bytes at the memory address of `et` give rise to a large negative float, it may take much longer to reach `tot`. That's as far as I can think of anything without have more code.

EDIT thanks for the update.

Well in that case I think just read the answer of haraldkl, I think that's your solution. If you need to reach `100` by adding up `1.0e-6`, this isn't going to work for a 4-bytes real, as that only has about 6-7 meaningful digits in base 10. Your first solution is slighly better, since you can reach about 2e9 with a 4-byte int. One solution is to use 8-byte variables. However, you should always build in an extra check (e.g. `if (et > tot .OR. i > max_iter)`) to allow for a maximum of iterations, so you can safe-guard against this, because even if you use the integer solution, if you would make `tot` larger, your integer might overflow and you will be stuck in an infinite loop too.

-
See the edit above. Sorry I neglected to include the initialization in my original question. –  astay13 Sep 9 '11 at 14:12

It is hard to conclude anything when you give partial code, skip the declarations and instead of showing the error messages you just give your interpretation of them, while it is clear that if you knew how to interpret them correctly you would not be getting them in the first place.

Your second loop differs from the first in several things worth noting: a) what are the values of the variables at the start of the loop, b) what is the loop counter, c) is et real or an integer? ... et cetera

Here are two ways in which these loops can be written

``````    program various_do_loops
integer :: i
real :: et, tot, dt

! DO WHILE LOOP (whoops, I just now see you're using g77
! so this may or may not work)
i = 0
et = 0.
tot = 10.
dt = 1.
do while (et<tot)
i = i+1
et = real(i)*dt
! main code goes here
! ....
! ....
write(*,'("et is currently ", f5.2)')et
end do

! Old kind of WHILE LOOP
i = 0
et = 0.
tot = 10.
dt = 1.
10 if(et<tot) then
i = i + 1
et = real(i)*dt
! main code goes here
! ....
! ....
write(*,'("et is currently ", f5.2)')et
goto 10
end if

end program various_do_loops
``````
-
See the edit above for the initializations/declarations. The complete code is large enough that it is impractical to post. Note that there are no error messages, I simply happen to notice that the program runs significantly longer using one strategy of loop counting and would like to understand why this is. –  astay13 Sep 9 '11 at 14:16