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lambda_meta_generator.ml
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lambda_meta_generator.ml
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(*
* This file is part of ocamljs, OCaml to Javascript compiler
* Copyright (C) 2007-9 Skydeck, Inc
* Copyright (C) 2010 Jake Donham
* Original file (camlp4/Camlp4Filters/Camlp4MetaGenerator.ml in
* the Objective Caml source distribution) is Copyright (C) INRIA.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public
* License along with this library; if not, write to the Free
* Software Foundation, Inc., 59 Temple Place - Suite 330, Boston,
* MA 02111-1307, USA
*)
open Camlp4
open PreCast
module MapTy = Map.Make(String)
let _loc = Loc.ghost
type t =
{ name : Ast.ident;
type_decls : Ast.ctyp MapTy.t;
acc : Ast.expr;
app : Ast.expr;
id : Ast.expr;
tup : Ast.expr;
com : Ast.expr;
str : Ast.expr;
int : Ast.expr;
flo : Ast.expr;
chr : Ast.expr;
ant : Ast.ident;
}
let ex_t i type_decls = {
name = i;
type_decls = Lazy.force type_decls;
app = <:expr< Ast.ExApp >>;
acc = <:expr< Ast.ExAcc >>;
id = <:expr< Ast.ExId >>;
tup = <:expr< Ast.ExTup >>;
com = <:expr< Ast.ExCom >>;
str = <:expr< Ast.ExStr >>;
int = <:expr< Ast.ExInt >>;
flo = <:expr< Ast.ExFlo >>;
chr = <:expr< Ast.ExChr >>;
ant = <:ident< Ast.ExAnt >>
}
let pa_t i type_decls = {
name = i;
type_decls = Lazy.force type_decls;
app = <:expr< Ast.PaApp >>;
acc = <:expr< Ast.PaAcc >>;
id = <:expr< Ast.PaId >>;
tup = <:expr< Ast.PaTup >>;
com = <:expr< Ast.PaCom >>;
str = <:expr< Ast.PaStr >>;
int = <:expr< Ast.PaInt >>;
flo = <:expr< Ast.PaFlo >>;
chr = <:expr< Ast.PaChr >>;
ant = <:ident< Ast.PaAnt >>
}
let x i = <:ident< $lid:"x"^string_of_int i$ >>
let meta_ s = <:ident< $lid:"meta_"^s$ >>
let mf_ s = "mf_" ^ s
let rec string_of_ident = function
| <:ident< $lid:s$ >> -> s
| <:ident< $uid:s$ >> -> s
| <:ident< $i1$.$i2$ >> -> "acc_" ^ (string_of_ident i1) ^ "_" ^ (string_of_ident i2)
| <:ident< $i1$($i2$) >> -> "app_" ^ (string_of_ident i1) ^ "_" ^ (string_of_ident i2)
| <:ident< $anti:_$ >> -> assert false
let fold_args ty f init =
let (_, res) =
List.fold_left begin fun (i, acc) ty ->
(succ i, f ty i acc)
end (0, init) ty
in res
let fold_right_args ty f init =
let (_, res) =
List.fold_right begin fun ty (i, acc) ->
(pred i, f ty i acc)
end ty (List.length ty - 1, init)
in res
let fold_data_ctors ty f init =
let counter () = let n = ref 0 in fun () -> let nn = !n in incr n; nn in
let tag = counter () in
let data_tag = counter () in
let rec loop acc t =
match t with
| <:ctyp< $uid:cons$ of $ty$ >> -> f (data_tag()) cons (Ast.list_of_ctyp ty []) acc
| <:ctyp< $uid:cons$ >> -> f (tag()) cons [] acc
| <:ctyp< $t1$ | $t2$ >> -> loop (loop acc t1) t2
| <:ctyp<>> -> acc
| _ -> assert false in
loop init ty
let fold_type_decls m f init =
MapTy.fold f m.type_decls init
let patt_of_data_ctor_decl cons tyargs =
fold_args tyargs begin fun _ i acc ->
Ast.PaApp(_loc, acc, <:patt< $id:x i$ >>)
end <:patt< $id:cons$ >>
let expr_of_data_ctor_decl cons tyargs =
fold_args tyargs begin fun _ i acc ->
<:expr< $acc$ $id:x i$ >>
end <:expr< $id:cons$ >>
let is_antiquot_data_ctor s =
let ls = String.length s in
ls > 3 && String.sub s (ls - 3) 3 = "Ant"
let rec meta_ident m = function
| <:ident< $i1$.$i2$ >> -> <:expr< Ast.IdAcc(_loc, $meta_ident m i1$, $meta_ident m i2$) >>
| <:ident< $i1$($i2$) >> -> <:expr< Ast.IdApp(_loc, $meta_ident m i1$, $meta_ident m i2$) >>
| <:ident< $anti:s$ >> -> <:expr< $anti:s$ >>
| <:ident< $lid:s$ >> -> <:expr< Ast.IdLid(_loc, $str:s$) >>
| <:ident< $uid:s$ >> -> <:expr< Ast.IdUid(_loc, $str:s$) >>
let m_app m x y = <:expr< $m.app$ _loc $x$ $y$ >>
let m_id m i = <:expr< $m.id$ _loc $i$ >>
let m_uid m s = m_id m (meta_ident m <:ident< $uid:s$ >>)
let rec pmeta_ident m = function
| <:ident< $i1$.$i2$ >> -> <:patt< Ast.IdAcc(_, $pmeta_ident m i1$, $pmeta_ident m i2$) >>
| <:ident< $i1$($i2$) >> -> <:patt< Ast.IdApp(_, $pmeta_ident m i1$, $pmeta_ident m i2$) >>
| <:ident< $anti:s$ >> -> <:patt< $anti:s$ >>
| <:ident< $lid:s$ >> -> <:patt< Ast.IdLid(_, $str:s$) >>
| <:ident< $uid:s$ >> -> <:patt< Ast.IdUid(_, $str:s$) >>
let pm_app m x y = <:patt< Ast.ExApp(_, $x$, $y$) >>
let pm_id m i = <:patt< Ast.ExId(_, $i$) >>
let pm_uid m s = pm_id m (pmeta_ident m <:ident< $uid:s$ >>)
let failure = <:expr< raise (Failure "MetaGenerator: cannot handle that kind of types") >>
let mk_meta m =
let m_name_uid x = <:ident< $m.name$.$uid:x$ >> in
fold_type_decls m begin fun tyname tydcl binding_acc ->
match tydcl with
| Ast.TyDcl (_, _, tyvars, Ast.TySum (_, ty), _) ->
let match_case =
fold_data_ctors ty begin fun tag cons tyargs acc ->
let m_name_cons = m_name_uid cons in
let p = patt_of_data_ctor_decl m_name_cons tyargs in
let e =
if cons = "BAnt" || cons = "OAnt" || cons = "LAnt" then
<:expr< $id:m.ant$ _loc x0 >>
else if is_antiquot_data_ctor cons then
expr_of_data_ctor_decl m.ant tyargs
else
let tag = <:expr< $m.int$ _loc $str:string_of_int tag$ >> in
if tyargs = []
then
(m_app m
(m_id m (meta_ident m <:ident< Lambda.Lconst >>))
(m_app m
(m_id m (meta_ident m <:ident< Lambda.Const_pointer >>))
tag))
else
let args =
fold_right_args tyargs begin fun ty i acc ->
let rec fcall_of_ctyp ty =
match ty with
| <:ctyp< $id:id$ >> ->
<:expr< $id:meta_ (string_of_ident id)$ >>
| <:ctyp< ($t1$ * $t2$) >> ->
<:expr< fun _loc (x1, x2) ->
$m.tup$ _loc
($m.com$ _loc
($fcall_of_ctyp t1$ _loc x1)
($fcall_of_ctyp t2$ _loc x2)) >>
| <:ctyp< $t1$ $t2$ >> ->
<:expr< $fcall_of_ctyp t1$ $fcall_of_ctyp t2$ >>
| <:ctyp< '$s$ >> -> <:expr< $lid:mf_ s$ >>
| _ -> failure in
m_app m
(m_app m (m_uid m "::")
<:expr< $fcall_of_ctyp ty$ _loc $id:x i$ >>)
acc
end (m_uid m "[]") in
m_app m
(m_app m
(m_id m (meta_ident m <:ident< Lambda.Lprim >>))
(m_app m
(m_app m
(m_id m (meta_ident m <:ident< Lambda.Pmakeblock >>))
tag)
(m_id m (meta_ident m <:ident< Asttypes.Immutable >>))))
args
in <:match_case< $p$ -> $e$ | $acc$ >>
end <:match_case<>> in
let funct =
List.fold_right begin fun tyvar acc ->
match tyvar with
| <:ctyp< +'$s$ >> | <:ctyp< -'$s$ >> | <:ctyp< '$s$ >> ->
<:expr< fun $lid:mf_ s$ -> $acc$ >>
| _ -> assert false
end tyvars <:expr< fun _loc -> fun [ $match_case$ ] >>
in <:binding< $binding_acc$ and $lid:"meta_"^tyname$ = $funct$ >>
| Ast.TyDcl (_, _, _, _, _) -> binding_acc
| _ -> assert false
end <:binding<>>
let mk_abs_meta m =
let m_name_uid x = <:ident< $uid:x$ >> in
fold_type_decls m begin fun tyname tydcl binding_acc ->
match tydcl with
| Ast.TyDcl (_, _, tyvars, Ast.TySum (_, ty), _) ->
let match_case =
fold_data_ctors ty begin fun tag cons tyargs acc ->
let m_name_cons = m_name_uid cons in
let p =
fold_args tyargs begin fun _ i acc ->
<:patt< Ast.ExApp(_, $acc$, $id:x i$) >>
end (pm_id m (pmeta_ident m m_name_cons)) in
let e =
let tag = <:expr< $m.int$ _loc $str:string_of_int tag$ >> in
if tyargs = []
then
(m_app m
(m_id m (meta_ident m <:ident< Lambda.Lconst >>))
(m_app m
(m_id m (meta_ident m <:ident< Lambda.Const_pointer >>))
tag))
else
let args =
fold_right_args tyargs begin fun ty i acc ->
let rec fcall_of_ctyp ty =
match ty with
| <:ctyp< $id:id$ >> ->
<:expr< $id:meta_ (string_of_ident id)$ >>
| <:ctyp< ($t1$ * $t2$) >> ->
<:expr< fun _loc -> fun
[ Ast.ExTup (_, Ast.ExCom (_, x1, x2)) ->
$m.tup$ _loc
($m.com$ _loc
($fcall_of_ctyp t1$ _loc x1)
($fcall_of_ctyp t2$ _loc x2))
| _ -> invalid_arg "tuple"
]
>>
| <:ctyp< $t1$ $t2$ >> ->
<:expr< $fcall_of_ctyp t1$ $fcall_of_ctyp t2$ >>
| <:ctyp< '$s$ >> -> <:expr< $lid:mf_ s$ >>
| _ -> failure in
m_app m
(m_app m (m_uid m "::")
<:expr< $fcall_of_ctyp ty$ _loc $id:x i$ >>)
acc
end (m_uid m "[]") in
m_app m
(m_app m
(m_id m (meta_ident m <:ident< Lambda.Lprim >>))
(m_app m
(m_app m
(m_id m (meta_ident m <:ident< Lambda.Pmakeblock >>))
tag)
(m_id m (meta_ident m <:ident< Asttypes.Immutable >>))))
args
in <:match_case< $p$ -> $e$ | $acc$ >>
end <:match_case<
Ast.ExAnt (_loc, s) -> $id:m.ant$ (_loc, s)
| _ -> invalid_arg $`str:"meta_" ^ tyname$
>> in
let funct =
List.fold_right begin fun tyvar acc ->
match tyvar with
| <:ctyp< +'$s$ >> | <:ctyp< -'$s$ >> | <:ctyp< '$s$ >> ->
<:expr< fun $lid:mf_ s$ -> $acc$ >>
| _ -> assert false
end tyvars <:expr< fun _loc -> fun [ $match_case$ ] >>
in <:binding< $binding_acc$ and $lid:"meta_"^tyname$ = $funct$ >>
| Ast.TyDcl (_, _, _, _, _) -> binding_acc
| _ -> assert false
end <:binding<>>
let find_type_decls =
object
inherit Ast.fold as super
val accu = MapTy.empty
method get = accu
method ctyp = function
| Ast.TyDcl (_, name, _, _, _) as t -> {< accu = MapTy.add name t accu >}
| t -> super#ctyp t
end
let filter st =
let type_decls = lazy (find_type_decls#str_item st)#get in
object
inherit Ast.map as super
method module_expr me =
let mk_meta_module m =
let bi = mk_meta m in
<:module_expr<
struct
value meta_string _loc s = $m.str$ _loc s;
value meta_int _loc s = $m.int$ _loc s;
value meta_float _loc s = $m.flo$ _loc s;
value meta_char _loc s = $m.chr$ _loc s;
value meta_bool _loc b =
$m_app m
(m_id m (meta_ident m <:ident< Lambda.Lconst >>))
(m_app m
(m_id m (meta_ident m <:ident< Lambda.Const_pointer >>))
<:expr< $m.int$ _loc (if b then "1" else "0") >>)$;
value rec meta_list mf_a _loc = fun
[ [] -> $m_uid m "[]"$
| [ x :: xs ] -> $m_app m (m_app m (m_uid m "::") <:expr< mf_a _loc x >>) <:expr< meta_list mf_a _loc xs >>$
];
value rec $bi$;
end >> in
let mk_abs_meta_module m =
let bi = mk_abs_meta m in
<:module_expr<
struct
value meta_string _loc = fun
[ Ast.ExStr (_loc, s) -> $m.str$ _loc s
| Ast.ExAnt (_loc, s) -> $id:m.ant$ (_loc, s)
| _ -> invalid_arg "meta_string"
];
value meta_int _loc = fun
[ Ast.ExInt (loc, s) -> $m.int$ _loc s
| Ast.ExAnt (_loc, s) -> $id:m.ant$ (_loc, s)
| _ -> invalid_arg "meta_int"
];
value meta_float _loc = fun
[ Ast.ExFlo (_loc, s) -> $m.flo$ _loc s
| Ast.ExAnt (_loc, s) -> $id:m.ant$ (_loc, s)
| _ -> invalid_arg "meta_float"
];
value meta_char _loc = fun
[ Ast.ExChr (_loc, s) -> $m.chr$ _loc s
| Ast.ExAnt (_loc, s) -> $id:m.ant$ (_loc, s)
| _ -> invalid_arg "meta_char"
];
(*
value meta_bool _loc b =
Lambda.Lconst
(Lambda.Const_pointer
($m.int$ _loc (match b with false -> "0" | true -> "1")));
*)
value meta_bool _loc = fun
[ <:expr< false >> -> $m_uid m "False"$
| <:expr< true >> -> $m_uid m "True"$
| Ast.ExAnt (_loc, s) -> $id:m.ant$ (_loc, s)
| _ -> invalid_arg "meta_bool"
];
value rec meta_list mf_a _loc = fun
[ <:expr< [] >> -> $m_uid m "[]"$
| <:expr< [ $x$ :: $xs$ ] >> -> $m_app m (m_app m (m_uid m "::") <:expr< mf_a _loc x >>) <:expr< meta_list mf_a _loc xs >>$
| Ast.ExAnt (_loc, s) -> $id:m.ant$ (_loc, s)
| _ -> invalid_arg "meta_list"
];
value rec $bi$;
end >> in
match super#module_expr me with
| <:module_expr< LambdaMetaGeneratorExpr($id:i$) >> ->
mk_meta_module (ex_t i type_decls)
| <:module_expr< LambdaAbstractMetaGeneratorExpr($id:i$) >> ->
mk_abs_meta_module (ex_t i type_decls)
| <:module_expr< LambdaMetaGeneratorPatt($id:i$) >> ->
mk_meta_module (pa_t i type_decls)
| <:module_expr< LambdaAbstractMetaGeneratorPatt($id:i$) >> ->
mk_abs_meta_module (pa_t i type_decls)
| me -> me
end#str_item st
;;
AstFilters.register_str_item_filter filter