`for`

loops are not supposed to return values, they only do an operation a fixed number of times then return `()`

(unit). If you want to iterate and finally return something, you may :

have outside the loop a reference where you put the final result when you get it, then after the loop return the reference content

use a recursive function directly

use a higher-order function that will encapsulate the traversal for you, and let you concentrate on the application logic

The higher-function is nice if your data structure supports it. Simple traversal functions such as `fold_left`

, however, don't support stopping the iteration prematurely. If you wish to support this (and clearly it would be interesting in your use case), you must use a traversal with premature exit support. For easy functions such as yours, a simple recursive function is probably the simplest.

In F# it should also be possible to write your function in imperative style, using `yield`

to turn it into a generator, then finally forcing the generator to get the result. This could be seen as a counterpart of the OCaml technique of using an exception to jump out of the loop.

*Edit:* A nice solution to avoid the "premature stop" questions is to use a lazy intermediate data structure, which will only be built up to the first satisfying result. This is elegant and good scripting style, but still less efficient than direct exit support or simple recursion. I guess it depends on your needs; is this function to be used in a critical path?

**Edit:** following are some code sample. They're OCaml and the data structures are different (some of them use libraries from Batteries), but the ideas are the same.

```
(* using a reference as accumulator *)
let most_significant_bit input_bits =
let result = ref None in
for i = Array.length input_bits - 1 downto 0 do
if input_bits.(i) then
if !result = None then
result := Some i
done;
!result
let most_significant_bit input_bits =
let result = ref None in
for i = 0 to Array.length input_bits - 1 do
if input_bits.(i) then
(* only the last one will be kept *)
result := Some i
done;
!result
(* simple recursive version *)
let most_significant_bit input_bits =
let rec loop = function
| -1 -> None
| i ->
if input_bits.(i) then Some i
else loop (i - 1)
in
loop (Array.length input_bits - 1)
(* higher-order traversal *)
open Batteries_uni
let most_significant_bit input_bits =
Array.fold_lefti
(fun result i ->
if input_bits.(i) && result = None then Some i else result)
None input_bits
(* traversal using an intermediate lazy data structure
(a --- b) is the decreasing enumeration of integers in [b; a] *)
open Batteries_uni
let most_significant_bit input_bits =
(Array.length input_bits - 1) --- 0
|> Enum.Exceptionless.find (fun i -> input_bits.(i))
(* using an exception to break out of the loop; if I understand
correctly, exceptions are rather discouraged in F# for efficiency
reasons. I proposed to use `yield` instead and then force the
generator, but this has no direct OCaml equivalent. *)
exception Result of int
let most_significant_bit input_bits =
try
for i = Array.length input_bits - 1 downto 0 do
if input_bits.(i) then raise (Result i)
done;
None
with Result i -> Some i
```