I'd like to throw an exception from within C code which provides more
information to Caml than just a string.
If I do it that way:
=== Caml ===
exception Test_exn of int * int
external test_raise_tuple: bool -> (int*int) = "caml_test_raise_tuple"
let _ = Callback.register_exception "ocaml_exn_test" (Test_exn (0,0));;
=== C ===
CAMLprim caml_test_raise_tuple(value x)
{
CAMLparam1(x);
int cx;
cx=Int_val(x);
fprintf(stderr,"DDD x=%d\n",cx);
CAMLlocal1(ex);
ex=alloc_tuple(2);
Store_field(ex,0,Val_int(2));
Store_field(ex,1,Val_int(4));
if(cx)
{
raise_with_arg(*caml_named_value("ocaml_exn_test"), ex);
}
else
{
CAMLreturn(ex);
}
}
======
..then just returning the tuple works as expected,
but throwing the tuple gives me crazy values - like
Test_exn (67385386, 1408)
instead of
Test_exn (2,4).
Does anyone have an idea what is going on here, and how to repair this?
Maybe I just missed something essential in the documentation. I tried to
find an example in existing OCaml libraries where this is used, but
somehow I was out of luck there so far... All I found about this
issue is this bit of documentation in ocaml's byterun/memory.h:
===>
Your function may raise an exception or return a [value] with the
[CAMLreturn] macro. Its argument is simply the [value] returned by
your function. Do NOT directly return a [value] with the [return]
keyword. If your function returns void, use [CAMLreturn0].
<===
..and the definition says:
===>
#define CAMLreturn(result) do{ \
caml_local_roots = caml__frame; \
return (result); \
}while(0)
<===
I tried a few obvious and non-obvious things related to what I see in
there, but without success so far. So, how does one do that?
--
regards, t...@cip.physik.uni-muenchen.de (o_
Thomas Fischbacher - http://www.cip.physik.uni-muenchen.de/~tf //\
(lambda (n) ((lambda (p q r) (p p q r)) (lambda (g x y) V_/_
(if (= x 0) y (g g (- x 1) (* x y)))) n 1)) (Debian GNU)
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It's the usual gotcha with variant constructor that have multiple
arguments. The exception you defines has two arguments, whereas
exception Test_exn of (int * int)
has only one argument -- a tuple. It's not the same thing.
> external test_raise_tuple: bool -> (int*int) = "caml_test_raise_tuple"
>
> let _ = Callback.register_exception "ocaml_exn_test" (Test_exn (0,0));;
>
> === C ===
>
> CAMLprim caml_test_raise_tuple(value x)
> {
> CAMLparam1(x);
> int cx;
>
> cx=Int_val(x);
> fprintf(stderr,"DDD x=%d\n",cx);
>
> CAMLlocal1(ex);
> ex=alloc_tuple(2);
>
> Store_field(ex,0,Val_int(2));
> Store_field(ex,1,Val_int(4));
>
> if(cx)
> {
> raise_with_arg(*caml_named_value("ocaml_exn_test"), ex);
here you are raising an exception with one tuple argument, this
doesn't match the exception you defined.
There's no function to directly create an exception value with
multiple argument, you have to do this (IIRC, not tested) :
ex = alloc(3, 0);
Store_field(ex, 0, *caml_named_value("ocaml_exn_test");
Store_field(ex, 1, Val_int(2));
Store_field(ex, 2, Val_int(4));
caml_raise(ex);
> ===>
> Your function may raise an exception or return a [value] with the
> [CAMLreturn] macro. Its argument is simply the [value] returned by
> your function. Do NOT directly return a [value] with the [return]
> keyword. If your function returns void, use [CAMLreturn0].
> <===
actually it's ok to raise exception directly (ie, not through
CAMLreturn), the runtime takes care of releasing the local GC roots.
--
Olivier
> > exception Test_exn of int * int
>
> It's the usual gotcha with variant constructor that have multiple
> arguments. The exception you defines has two arguments, whereas
>
> exception Test_exn of (int * int)
>
> has only one argument -- a tuple. It's not the same thing.
Oh dear. Indeed, if I just put parens around int * int, then everything is fine.
I don't know how other readers on the list think about this, but somehow
I consider this a pretty bad tripwire. After all, I would not have
expected behaviour like this:
# type foo =
| Foo1 of int * int
| Foo2 of (int * int)
;;
type foo = Foo1 of int * int | Foo2 of (int * int)
# Foo1 (2,3);;
- : foo = Foo1 (2, 3)
# Foo2 (2,3);;
- : foo = Foo2 (2, 3)
# let x = (2,3) in Foo1 x;;
Characters 17-23:
let x = (2,3) in Foo1 x;;
^^^^^^
The constructor Foo1 expects 2 argument(s),
but is here applied to 1 argument(s)
# let x = (2,3) in Foo2 x;;
- : foo = Foo2 (2, 3)
# Foo1 2 3;;
Characters 7-8:
Foo1 2 3;;
^
Syntax error
While it is certainly nice that there is an OCaml equivalent (I presume)
of what would be written in Haskell as:
data Foo =
Foo1 (Int,Int)
| Foo2 Int Int
deriving Show
Main> :load /tmp/1.hs
Main> Foo1 (2,3)
Foo1 (2,3)
Main> Foo2 2 3
Foo2 2 3
(I did not know about this so far!), the syntax used by ocaml certainly is
quite misleading. As well, it seems to be a bit un-orthogonal here: after
all, I cannot do this in OCaml (while it is allowed in Haskell, and might
also be quite useful occasionally):
# Foo1 2;;
Characters 0-6:
Foo1 2;;
^^^^^^
The constructor Foo1 expects 2 argument(s),
but is here applied to 1 argument(s)
Just as a further question, not to be meant as a suggestion or wishlist
item: would it be conceivable that, at some point in the future, all the
ocaml tools that operate on .ml files could accept different
official "syntax variants" (say, the present one and a cleaned up syntax
to be defined in the future), and dispatch between parsers via some
command line argument or argv[0]? So that minor issues with the syntax
could be repaired, should they turn out to be a problem.
> actually it's ok to raise exception directly (ie, not through
> CAMLreturn), the runtime takes care of releasing the local GC roots.
Many thanks again for your explanation.
--
regards, t...@cip.physik.uni-muenchen.de (o_
Thomas Fischbacher - http://www.cip.physik.uni-muenchen.de/~tf //\
(lambda (n) ((lambda (p q r) (p p q r)) (lambda (g x y) V_/_
(if (= x 0) y (g g (- x 1) (* x y)))) n 1)) (Debian GNU)
_______________________________________________
This exists, and is called camlp4. I'm not sure which, if any, of the tools
that operate on .ml files doesn't "support" it via easy command line flags.
There is even a revised syntax shipped with camlp4 which has curried variant
constructors like Haskell. Unfortunately, there's a lot of stuff in there I
disagree with, like extra bracketing of many constructs.
Here it is:
http://pauillac.inria.fr/caml/camlp4/manual/manual007.html
Forgive me if you already know of this and I misinterpreted your question.
- Kenn
> This exists, and is called camlp4. I'm not sure which, if any, of the tools
> that operate on .ml files doesn't "support" it via easy command line flags.
>
> There is even a revised syntax shipped with camlp4 which has curried variant
> constructors like Haskell. Unfortunately, there's a lot of stuff in there I
> disagree with, like extra bracketing of many constructs.
Many thanks for that tip! I really missed that so far - I knew about
camlp4's existence, but just did not have an incentive to have a closer
look. Well, now I have.
> http://pauillac.inria.fr/caml/camlp4/manual/manual007.html
I would say that I'd agree with ~85% of what's in there, so for me it's
definitely an improvement. Thanks.
--
regards, t...@cip.physik.uni-muenchen.de (o_
Thomas Fischbacher - http://www.cip.physik.uni-muenchen.de/~tf //\
(lambda (n) ((lambda (p q r) (p p q r)) (lambda (g x y) V_/_
(if (= x 0) y (g g (- x 1) (* x y)))) n 1)) (Debian GNU)
_______________________________________________