The special purpose would be if you need a lazy value but you sometimes have an already computed (non-lazy) value. You can use
lazy_from_val to turn an already computed value into a (forced) lazy version of your value.
let f lazyint =
Lazy.force lazyint + 42
let li = lazy 4;;
# f li;;
- : int = 46
# f 14;;
Error: This expression has type int but an expression was expected of type
int Lazy.t = int lazy_t
# f (Lazy.lazy_from_val 14);;
- : int = 56
In this (contrived) example, you might wish to call
f with an ordinary integer value (14, in this example). You can do it, but you need to use
Lazy.lazy_from_val to make it work.
The key difference is that
lazy takes an expression of type
'a and creates a suspended computation (in essence, a closure) of type
Lazy.lazy_from_val takes a pre-computed value of type
'a and converts it to a (pre-forced) value of type
'a lazy_t. If the expression has side-effects, the difference between the two can be seen.
# let p () = print_string "here\n"; 3 ;;
val p : unit -> int = <fun>
# let l1 = lazy (p ());;
val l1 : int lazy_t = <lazy>
# let l2 = Lazy.lazy_from_val (p ());;
val l2 : int Lazy.t = lazy 3
# f l1;;
- : int = 45
# f l2;;
- : int = 45
You could implement lazy operations directly using explicit closures and references. As Matthias Benkard points out, OCaml's lazy mechanism uses special syntax to make it less cumbersome to work with. I.e.,
lazy is an OCaml keyword, not a function.