From: Leo White <lpw25@cam.ac.uk>
To: Gabriel Scherer <gabriel.scherer@gmail.com>
Cc: Carl Eastlund <ceastlund@janestreet.com>,
caml users <caml-list@inria.fr>
Subject: Re: [Caml-list] Weird type error involving 'include' and applicative functors
Date: Mon, 16 Feb 2015 18:03:23 +0000 [thread overview]
Message-ID: <87a90d68es.fsf@study.localdomain> (raw)
In-Reply-To: <CAPFanBFiBB7qQT=3NCQv6TNN4ovw6nA3RJQ_yEKPhbLLyT1dOA@mail.gmail.com> (Gabriel Scherer's message of "Sun, 15 Feb 2015 11:26:56 +0100")
Gabriel gives an accurate accout of what is going on. To me, it looks
like the type-checker should probably accept this, so I would submit it
as a bug (I suspect a missing call to Env.normalize_path somewhere, but
perhaps there is something more significant going on here).
Regards,
Leo
Gabriel Scherer <gabriel.scherer@gmail.com> writes:
> That is one of the dark corners of the module system.
>
> I don't know whether an ideal type-checker should accept your last
> definition or not. It is non-intuitive that some are accepted and
> others rejected; some things in the module system are non-intuitive
> for good reasons, some others because of implementation limitations,
> and it's not always clear to non-experts which is which).˙But I can
> explain why the last definition is harder for the type-checker to
> accept than the other.
>
> # module A = struct
> module T = struct end
> module C = struct
> include Make(T)
> end
> include C
> end
> ;;
> module A :
> sig
> module T : sig end
> module C : sig type t = Make(T).t end
> type t = Make(T).t
> end
>
> # module B = struct
> module C = struct
> module T = struct end
> include Make(T)
> end
> include C
> end
> ;;
> module B :
> sig
> module C : sig module T : sig end type t = Make(T).t end
> module T = C.T
> type t = Make(T).t
> end
>
>
> Note the important difference in the inferred signatures in both
> cases. Both modules have
> type t = Make(T).t
> but, in the first case, this is the *same module T* that is mentioned
> in the signature of T, while in the second case, there are two
> different modules, C.T and T (the latter being generated by the
> "include", with an equation that it is equal to the former).
>
> The reasoning to check against your signature
> sig
> type t
> module C : S with type t = t
> end
> is thus more complicated in the second case: the type-checker would
> need to use the equation (T = C.T) to check that indeed C.t is equal
> to t.
>
> I think this is due to the rather contorted way you define C first in
> the implementations and include it later, while in the signature first
> define t and then C. Note that the following signature, which is
> morally equivalent, accepts both implementations (and thus all the
> functors in your file):
> sig
> module C : S
> type t = C.t
> end
>
>
> On Fri, Feb 13, 2015 at 10:40 PM, Carl Eastlund
> <ceastlund@janestreet.com> wrote:
>> This seems to be a compiler bug, but let me know if I've missed something.
>> The behavior I see is that Make_ok1 and Make_ok2 compile fine, but the very
>> similar functor Make_bad does not. I get this compile error:
>>
>> ========================================
>>
>> Error: Signature mismatch:
>> Modules do not match:
>> sig
>> module C : sig module T : sig end type t = Make(T).t end
>> module T = C.T
>> type t = Make(T).t
>> end
>> is not included in
>> sig type t module C : sig type t = t end end
>> In module C:
>> Modules do not match:
>> sig module T : sig end type t = Make(T).t end
>> is not included in
>> sig type t = C.t end
>> In module C:
>> Type declarations do not match:
>> type t = Make(T).t
>> is not included in
>> type t = t
>>
>> ========================================
>>
>> And here is the code:
>>
>> ========================================
>>
>> module type S = sig type t end
>> module Make (M : sig end) : S = struct type t end
>>
>> module Make_ok1 (M : sig end) : sig
>>
>> type t
>> module A : S with type t = t
>>
>> end = struct
>>
>> module A = struct
>> include Make (struct end)
>> end
>> include A
>>
>> end
>>
>> module Make_ok2 (M : sig end) : sig
>>
>> type t
>> module B : S with type t = t
>>
>> end = struct
>>
>> module T = struct end
>> module B = struct
>> include Make (T)
>> end
>> include B
>>
>> end
>>
>> module Make_bad (M : sig end) : sig
>>
>> type t
>> module C : S with type t = t
>>
>> end = struct
>>
>> module C = struct
>> module T = struct end
>> include Make (T)
>> end
>> include C
>>
>> end
>>
>> ========================================
>>
>> --
>> Carl Eastlund
next prev parent reply other threads:[~2015-02-16 18:03 UTC|newest]
Thread overview: 8+ messages / expand[flat|nested] mbox.gz Atom feed top
2015-02-13 21:40 Carl Eastlund
2015-02-15 10:26 ` Gabriel Scherer
2015-02-16 18:03 ` Leo White [this message]
2015-02-17 21:40 ` Milan Stanojević
2015-02-19 18:21 ` Milan Stanojević
2015-02-19 18:23 ` Milan Stanojević
2015-02-24 4:38 ` Jacques Garrigue
2015-02-24 5:54 ` Jacques Garrigue
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