Ocaml modules implementation

Ocaml's standard library contains various modules: List, Map, Nativeint, etc. I know that interfaces for these modules are provided (e.g. for the List module), but I am interested in the algorithms and their implementations used in modules' functions.

Where can I find that?

The List implementation is interesting to study. For example, the map function could be implemented like this:

let rec map f = function
| [] -> []
| a::l -> f a :: map f l

but is instead implemented like this:

let rec map f = function
| [] -> []
| a::l -> let r = f a in r :: map f l

What's the difference? Execute this:

List.map print_int [1;2;3] ;;
map print_int [1;2;3] ;;

The first one prints 123, but the second one prints 321! Since the evaluation of f a could produce side effects, it's important to force the correct order. This is what the official map implementation does. Indeed, the evaluation order of arguments is unspecified in OCaml even if all implementations follow the same order.

See also the Optimizing List.map post on the Jane Street blog for considerations on performance (List.map is efficient on small lists).

• Thumbs up ! (Here is the blog post, but I find it a bit too arcane for a beginner: ocaml.janestreet.com/?q=node/71 ) – gasche Oct 21 '10 at 7:53
• Can anyone clarify the difference between the first and second implementations? When I run them in OCaml and F# I receive 123 for both, never 321. Since this answer is 7 years old, maybe OCaml and F# fundamentally changed, but I doubt it? (I'm not using List.map, I'm testing the two custom map functions as-is) – jayphelps May 10 '17 at 1:37
• @gasche Any idea? – Quentin Pradet May 10 '17 at 5:41
• I can reproduce the fact that ignore (map print_int [1;2;3]) will print 321 for recent versions of OCaml with the f a :: map f li version of map. @jayphelps, something may be wrong with your testing setup. – gasche May 11 '17 at 6:42