From: Gabriel Scherer <gabriel.scherer@gmail.com>
To: caml users <caml-list@inria.fr>
Subject: [Caml-list] typing mutually recursive classes
Date: Wed, 24 Oct 2012 23:04:35 +0200 [thread overview]
Message-ID: <CAPFanBFbxCSQsDj9XYcGtPeH0xv8APfaCY3_ggeMjYq8FmYYfg@mail.gmail.com> (raw)
In-Reply-To: <CAPFanBHdh8xKsZC6fs2oXEOitjKLhZzVUdVmYT+6d0jL46YM0w@mail.gmail.com>
(I previously sent this reply to Christopher privately, by mistake.
Apologies for double-sending.)
I'm no expert of the typing of the object-oriented features of OCaml,
but my understanding is that #foo is a syntactic sugar for the
expansion of foo's type with an added row variable. For example, if
"foo" has the object type < a : int; b : bool >, #foo would be a
synonym for < a : int; b : bool; .. >. For #foo to mean anything,
"foo" must be already defined, so I'm not surprised that it fails when
defining a recursive class. The following already fails:
class test = object
method id : 'a. (#test as 'a) -> 'a = fun x -> x
end
What would you expand #test to in this definition? On the other hand,
just using "test" makes sense in a recursive type.
Note that you might be able to work around this limitation by using
recursive modules as a way to "pre-declare" the interface of your
classes. The following type-checks:
module rec M : sig
class element : 'a -> #M.registry -> object
method registry : M.registry
end
class registry : object
method register : 'a . (#element as 'a) -> unit
end
end = struct
class element id (registry : #M.registry) =
object
method registry = (registry :> M.registry)
end
class registry = object
val mutable set = []
method register :'a. (#element as 'a) -> unit =
fun s ->
set <- (s :> element) :: set
end
end
Now, is adding recursive modules to an already too complicated typing
problem a good idea? Frankly, I don't think so. I would personally go
for the version without #foo types and with explicit casting.
On Wed, Oct 24, 2012 at 9:32 PM, Christopher Zimmermann
<madroach@gmerlin.de> wrote:
> On Wed, 24 Oct 2012 20:40:27 +0200
> Gabriel Scherer <gabriel.scherer@gmail.com> wrote:
>
>> I don't really understand what you are trying to achieve with this
>> #foo types.
>
> It's the simplest statement possible to demonstrate the typing error I
> ran into. Even simpler:
>
> class type a = object end
> and b =
> object
> method foo: 'a. (#a as 'a) -> unit
> end
>
> fails, but
>
> class type a = object end
> class type b =
> object
> method foo: 'a. (#a as 'a) -> unit
> end
>
>
> works fine. Why?
>
>> What would even be the type of "set" in your example? You
>> cannot hold a mutable reference to a polymorphic type (#element list),
>> so I'm not sure what you would have but (element list).
> That's correct. It should read
> val mutable set = []
> method register :'a. (#element as 'a) -> unit =
> fun s ->
> set <- (s : #element :> element) :: set
>
>> If you're
>> going to coerce your elements into the common (element) supertype
>> anyway, why insist on having flexible bounds? You could just use
>> (registry) and (element), coerce when needed (foo :> element), and get
>> rid of those pesky typing issues.
>
> That's my current workaround for this issue. But I would prefer a
> solution where the coercion happens in the registry.
>
>>
>> On Wed, Oct 24, 2012 at 8:03 PM, Christopher Zimmermann
>> <madroach@gmerlin.de> wrote:
>> > Hi,
>> >
>> > I have a problem with typing a system of mutually recursive classes.
>> >
>> > This piece of code fails to compile:
>> >
>> > class a =
>> > object end
>> > and b =
>> > object
>> > method foo: a -> int =
>> > fun s -> 3
>> > end;;
>> >
>> > Error: The universal type variable 'a cannot be generalized:
>> > it escapes its scope.
>> >
>> >
>> > But this compiles fine:
>> >
>> > class a =
>> > object end
>> > class b =
>> > object
>> > method foo: 'a. (#a as 'a) -> int =
>> > fun s -> 3
>> > end;;
>> >
>> >
>> > What I actually want to do is this:
>> >
>> > class element id (registry :#registry) =
>> > object
>> > method registry = registry
>> > end
>> >
>> > and registry =
>> > object
>> > val set = []
>> > method register :'a. (#element as 'a) -> unit =
>> > fun s ->
>> > set <- s :: set
>> > end
>> >
>> >
>> > Any ideas how to do this without parametrizing the classes?
>> >
>> > Christopher
prev parent reply other threads:[~2012-10-24 21:05 UTC|newest]
Thread overview: 6+ messages / expand[flat|nested] mbox.gz Atom feed top
2012-10-24 18:03 Christopher Zimmermann
2012-10-24 18:40 ` Gabriel Scherer
2012-10-24 19:32 ` [Caml-list] " Christopher Zimmermann
2012-10-24 20:35 ` Didier Cassirame
2012-10-24 21:30 ` Didier Cassirame
[not found] ` <CAPFanBHdh8xKsZC6fs2oXEOitjKLhZzVUdVmYT+6d0jL46YM0w@mail.gmail.com>
2012-10-24 21:04 ` Gabriel Scherer [this message]
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