This might sound like a School assignment but it is not!

I have made a recursive function returning a value from the Fibonacci Sequence.

```
let rec FoneFive n =
match n with
| 1 | 2 -> 1
| n -> FoneFive(n-1) + FoneFive(n-2)
printfn "%A" (FoneFive 6)
```

What is going on in this recursive function? `FoneFive 6`

gives 8 as it should. But why?

The way I see it: It starts with n=6 and concludes that 6 is not 1 or 2. So it calls `FoneFive(n-1) + FoneFive(n-2)`

. (This is probably where I get it wrong. But the way I see it is that this return nothing unless n is 1 or 2. So from my point of view it will narrow both down n = 1 or 2 and there by say 1 + 1 which of course is 2.)

Can someone tell me how it returns 8 ?

`FoneFive(n-1) + FoneFive(n-2)`

. That means the call with`n=6`

makes calls with`n=5`

and`n=4`

, which in turn make calls with smaller`n`

, until you get to calls with 1 or 2 and can return an actual value. Track it through by hand, or with a debugger, to see how you get to 8. – pjs Oct 13 '16 at 14:40`n`

was 3. Then you'd return`FoneFive(n-1) + FoneFive(n-2)`

=`FoneFive(2) + FoneFive(1)`

=`1 + 1`

= 2. So you can see that`FoneFive(3)`

returns 2. That contradicts your last statement, so hopefully gives you the intuition to see why other values greater than`n=3`

work too – Ben Aaronson Oct 13 '16 at 14:58