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For the final rule, explicit annotation for higher-order functions, consider the following definition of a function apply.

# let apply g = g ~x:1 2 + 3;;  
val apply : (x:int -> int -> int) -> int = <fun>

I do not understand the above line and thus the following stuff:

Note that the compiler infers that the function ~g has a labeled, not an optional argument. The syntax g ~x:1 is the same, regardless of whether the label x is labeled or optional, but the two are not the same.

# apply (fun ?(x = 0) y -> x + y);; Characters 6-31:
apply (fun ?(x = 0) y -> x + y);; ^^^^^^^^^^^^^^^^^^^^^^^^^

This function should have type x:int -> int -> int but its first argument is labeled ~?x

The compiler will always prefer to infer that an argument is labeled, not optional. If you want the other behavior, you can specify the type explicitly.

# let apply (g : ?x:int -> int -> int) = g ~x:1 2 + 3;; val apply : (?x:int -> int -> int) -> int = <fun>
# apply (fun ?(x = 0) y -> x + y);;
- : int = 6

Is there anyone able to help?

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Did you look at Real World Ocaml, while it's not a gentle intro, it's very well written realworldocaml.org –  Gene T Sep 28 '13 at 14:29

1 Answer 1

Try the ? syntax instead.

let apply g = g ?x:(Some 1) 2 + 3

The other reasonable approach is to give g a type signature.

let apply (g : ?x:int -> int -> int) = ...
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There is a typo: it should be g ?x:(Some 1) 2 + 3 –  camlspotter Sep 27 '13 at 2:25
Thank you for your reply. I just started to learn ocaml. Basically, for the first line: # let apply g = g !x:1 2 +3;; I think it is defining a function 'apply' with parameter g. Then g is a function with two parameters. one is labeled: ~x:1. Then I get confused. Let alone the following discussions on optional parameters. –  user2821649 Sep 27 '13 at 15:22

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