So I've noticed it is possible to reconstruct any patterns with "let" expressions, even when it's a function declaration.
It can be pretty useful in cases like:
let [c; f; x] = map (fun _ -> scanf " %f" id) (1--3) in ...
However, this emits a warning because the pattern isn't exhaustive: indeed, it could fail. But in my case, that is exactly the intended behavior when the pattern doesn't match (and my assertion about the input is wrong): the statement should fail (and the failure could possibly be caught at some point up the stack).
I don't like having those warnings (and I don't want to globally turn them off!) so I'm forced to fall back on the very cumbersome (and no safer):
let c, f, x = match (map (fun _ -> scanf " %f" id) (1--3)) with | [c; f; x] -> c, f, x | _ -> failwith "wrong assertion" in ...
Isn't there a way to get the succinct syntax of the first alternative without the scary warnings? Or another construct that would involve less typing than a full-blown match statement?
Note: I think it would also be nice to be able to specify a function only takes a given alternative of a sum type without emitting a warning at the declaration site. It would be for the caller to ensure he uses the right argument, or he would get a warning...
type ast = Id of string | Var of string * int let foo (Var(s,n)) = ... foo (Var("bar", 42)) (* ok *) foo (Id "bar") (* warning; or even error *)
(This is because to me having a signature like "foo s n" doesn't make it clear foo is intended to be used with the data of a Var-constructed ast.)