ocaml/camlp4/etc/pa_sml.ml

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(* camlp4r pa_extend.cmo q_MLast.cmo *)
(***********************************************************************)
(* *)
(* Camlp4 *)
(* *)
(* Daniel de Rauglaudre, projet Cristal, INRIA Rocquencourt *)
(* *)
(* Copyright 1998 Institut National de Recherche en Informatique et *)
(* Automatique. Distributed only by permission. *)
(* *)
(***********************************************************************)
(* $Id$ *)
open Stdpp;
open Pcaml;
Pcaml.no_constructors_arity.val := False;
do {
Grammar.Unsafe.reinit_gram gram (Plexer.make ());
Grammar.Unsafe.clear_entry interf;
Grammar.Unsafe.clear_entry implem;
Grammar.Unsafe.clear_entry top_phrase;
Grammar.Unsafe.clear_entry use_file;
Grammar.Unsafe.clear_entry module_type;
Grammar.Unsafe.clear_entry module_expr;
Grammar.Unsafe.clear_entry sig_item;
Grammar.Unsafe.clear_entry str_item;
Grammar.Unsafe.clear_entry expr;
Grammar.Unsafe.clear_entry patt;
Grammar.Unsafe.clear_entry ctyp;
Grammar.Unsafe.clear_entry let_binding;
};
value not_impl loc s =
raise_with_loc loc (Stream.Error ("not implemented feature [" ^ s ^ "]"))
;
value get_seq =
fun
[ <:expr< do { $list:el$ } >> -> el
| e -> [e] ]
;
value choose_tvar tpl =
let rec find_alpha v =
let s = String.make 1 v in
if List.mem_assoc s tpl then
if v = 'z' then None else find_alpha (Char.chr (Char.code v + 1))
else Some (String.make 1 v)
in
let rec make_n n =
let v = "a" ^ string_of_int n in
if List.mem_assoc v tpl then make_n (succ n) else v
in
match find_alpha 'a' with
[ Some x -> x
| None -> make_n 1 ]
;
external loc_of_node : 'a -> (int * int) = "%field0";
value mklistexp loc last =
loop True where rec loop top =
fun
[ [] ->
match last with
[ Some e -> e
| None -> <:expr< [] >> ]
| [e1 :: el] ->
let loc = if top then loc else (fst (loc_of_node e1), snd loc) in
<:expr< [$e1$ :: $loop False el$] >> ]
;
value str_declare loc =
fun
[ [d] -> d
| dl -> <:str_item< declare $list:dl$ end >> ]
;
value sig_declare loc =
fun
[ [d] -> d
| dl -> <:sig_item< declare $list:dl$ end >> ]
;
value rec separate_fun_val =
fun
[ [((_, <:expr< fun [$list:_$] >>) as x) :: l] ->
let (f, v) = separate_fun_val l in ([x :: f], v)
| [x :: l] ->
let (f, v) = separate_fun_val l in (f, [x :: v])
| [] -> ([], []) ]
;
value extract_label_types loc tn tal cdol =
let (cdl, aux) =
List.fold_right
(fun (c, tl, aux_opt) (cdl, aux) ->
match aux_opt with
[ Some anon_record_type ->
let new_tn = tn ^ "_" ^ c in
let loc = loc_of_node anon_record_type in
let aux_def = ((loc, new_tn), [], anon_record_type, []) in
let tl = [<:ctyp< $lid:new_tn$ >>] in
([(loc, c, tl) :: cdl], [aux_def :: aux])
| None -> ([(loc, c, tl) :: cdl], aux) ])
cdol ([], [])
in
[((loc, tn), tal, <:ctyp< [ $list:cdl$ ] >>, []) :: aux]
;
value special x =
do {
assert (String.length x > 0);
match x.[0] with
[ '+' | '<' -> True
| _ -> False ]
}
;
value idd =
let p =
parser
[ [: `("LIDENT", x) :] -> x
| [: `("UIDENT", x) :] -> x
| [: `("", x) when special x :] -> x ]
in
Grammar.Entry.of_parser Pcaml.gram "ID" p
;
value uncap s = String.uncapitalize s;
value op = Grammar.Entry.of_parser gram "op" (parser [] : Stream.t 'a -> unit);
EXTEND
GLOBAL: implem top_phrase use_file sig_item str_item ctyp patt expr
module_type module_expr;
implem:
[ [ x = interdec; EOI -> x ] ]
;
top_phrase:
[ [ ph = phrase; ";" -> Some ph
| EOI -> None ] ]
;
use_file:
[ [ l = LIST0 phrase; EOI -> (l, False) ] ]
;
phrase:
[ [ x = str_item -> x
| x = expr -> <:str_item< $exp:x$ >>
| "#"; n = LIDENT; dp = dir_param -> MLast.StDir loc n dp ] ]
;
dir_param:
[ [ -> None
| e = expr -> Some e ] ]
;
sdecs: [ [ -> not_impl loc "sdecs" ] ];
fsigb: [ [ -> not_impl loc "fsigb" ] ];
fsigconstraint_op: [ [ -> not_impl loc "fsigconstraint_op" ] ];
fct_exp: [ [ -> not_impl loc "fct_exp" ] ];
exp_pa: [ [ -> not_impl loc "exp_pa" ] ];
rvb: [ [ -> not_impl loc "rvb" ] ];
tyvarseq: [ [ -> not_impl loc "tyvarseq" ] ];
tyvar_pc: [ [ -> not_impl loc "tyvar_pc" ] ];
lident_loc:
[ [ x1 = LIDENT -> (x1, loc) ] ]
;
id:
[ [ x1 = idd -> x1
| "*" -> "*" ] ]
;
ident:
[ [ x1 = idd -> x1
| "*" -> "*"
| "=" -> "=" ] ]
;
op_op:
[ [ x1 = op -> not_impl loc "op_op 1"
| -> () ] ]
;
qid:
[ [ x1 = idd; "."; x2 = qid -> <:module_expr< $uid:x1$ . $x2$ >>
| x1 = idd -> <:module_expr< $uid:x1$ >>
| x1 = "*" -> <:module_expr< $uid:x1$ >>
| x1 = "=" -> <:module_expr< $uid:x1$ >> ] ]
;
tqid:
[ [ x1 = idd; "."; x2 = tqid -> <:module_type< $uid:x1$ . $x2$ >>
| x1 = idd -> <:module_type< $uid:x1$ >>
| x1 = "*" -> <:module_type< $uid:x1$ >>
| x1 = "=" -> <:module_type< $uid:x1$ >> ] ]
;
eqid:
[ [ x1 = UIDENT; "."; x2 = eqid -> <:expr< $uid:x1$ . $x2$ >>
| x1 = UIDENT -> <:expr< $uid:x1$ >>
| x1 = idd -> <:expr< $lid:x1$ >>
| x1 = "*" -> <:expr< $lid:x1$ >>
| x1 = "=" -> <:expr< $lid:x1$ >> ] ]
;
sqid:
[ [ x1 = idd; "."; x2 = sqid -> [x1 :: x2]
| x1 = idd -> [x1]
| x1 = "*" -> [x1]
| x1 = "=" -> [x1] ] ]
;
tycon:
[ [ LIDENT "real" -> <:ctyp< float >>
| x1 = idd; "."; x2 = tycon -> <:ctyp< $uid:x1$ . $x2$ >>
| x1 = idd -> <:ctyp< $lid:uncap x1$ >> ] ]
;
selector:
[ [ x1 = id -> x1
| x1 = INT -> not_impl loc "selector 1" ] ]
;
tlabel:
[ [ x1 = selector; ":"; x2 = ctyp -> (loc, x1, False, x2) ] ]
;
tuple_ty:
[ [ x1 = ctyp LEVEL "ty'"; "*"; x2 = tuple_ty -> [x1 :: x2]
| x1 = ctyp LEVEL "ty'" -> [x1] ] ]
;
ctyp:
[ RIGHTA
[ x1 = ctyp; "->"; x2 = ctyp -> <:ctyp< $x1$ -> $x2$ >> ]
| [ x1 = ctyp; "*"; x2 = tuple_ty -> <:ctyp< ($list:[x1 :: x2]$) >> ]
| "ty'"
[ "'"; x1 = LIDENT -> <:ctyp< '$x1$ >>
| "{"; x1 = LIST1 tlabel SEP ","; "}" -> <:ctyp< {$list:x1$} >>
| "{"; "}" -> not_impl loc "ty' 3"
| "("; x1 = ctyp; ","; x2 = LIST1 ctyp SEP ","; ")"; x3 = tycon ->
not_impl loc "ty' 4"
| "("; x1 = ctyp; ")" -> x1
| x1 = ctyp; x2 = tycon -> <:ctyp< $x2$ $x1$ >>
| x1 = tycon -> x1 ] ]
;
rule:
[ [ x1 = patt; "=>"; x2 = expr -> (x1, None, x2) ] ]
;
elabel:
[ [ x1 = selector; "="; x2 = expr -> (<:patt< $lid:x1$ >>, x2) ] ]
;
exp_ps:
[ [ x1 = expr -> x1
| x1 = expr; ";"; x2 = expr ->
<:expr< do { $list:[x1 :: get_seq x2]$ } >> ] ]
;
expr:
[ [ "if"; x1 = expr; "then"; x2 = expr; "else"; x3 = expr ->
<:expr< if $x1$ then $x2$ else $x3$ >>
| "fn"; x1 = LIST1 rule SEP "|" -> <:expr< fun [$list:x1$] >>
| "case"; x1 = expr; "of"; x2 = LIST1 rule SEP "|" ->
<:expr< match $x1$ with [$list:x2$] >> ]
| LEFTA
[ x1 = expr; "orelse"; x2 = expr -> <:expr< $x1$ || $x2$ >> ]
| LEFTA
[ x1 = expr; "andalso"; x2 = expr -> <:expr< $x1$ && $x2$ >> ]
| LEFTA
[ x1 = expr; ":"; x2 = ctyp -> <:expr< ($x1$ : $x2$) >> ]
| "4" NONA
[ x1 = expr; "<"; x2 = expr -> <:expr< $x1$ < $x2$ >>
| x1 = expr; ">"; x2 = expr -> <:expr< $x1$ > $x2$ >>
| x1 = expr; "="; x2 = expr -> <:expr< $x1$ = $x2$ >>
| x1 = expr; ">="; x2 = expr -> <:expr< $x1$ >= $x2$ >>
| x1 = expr; "<="; x2 = expr -> <:expr< $x1$ <= $x2$ >> ]
| "5" RIGHTA
[ x1 = expr; "::"; x2 = expr -> <:expr< [$x1$ :: $x2$] >> ]
| "6" LEFTA
[ x1 = expr; "+"; x2 = expr -> <:expr< $x1$ + $x2$ >>
| x1 = expr; "-"; x2 = expr -> <:expr< $x1$ - $x2$ >> ]
| "7" LEFTA
[ x1 = expr; "*"; x2 = expr -> <:expr< $x1$ * $x2$ >>
| x1 = expr; "/"; x2 = expr -> <:expr< $x1$ / $x2$ >> ]
| LEFTA
[ x1 = expr; x2 = expr -> <:expr< $x1$ $x2$ >> ]
| [ "!"; x1 = expr -> <:expr< $x1$ . val >> ]
| [ "~"; x1 = expr -> <:expr< - $x1$ >> ]
| [ "#"; x1 = selector; x2 = expr -> <:expr< $x2$ . $lid:x1$ >> ]
| [ x1 = LIDENT ->
match x1 with
[ "true" | "false" -> <:expr< $uid:x1$ >>
| _ -> <:expr< $lid:x1$ >> ]
| x1 = UIDENT -> <:expr< $uid:x1$ >>
| x1 = UIDENT; "."; x2 = eqid -> <:expr< $uid:x1$ . $x2$ >>
| x1 = INT -> <:expr< $int:x1$ >>
| x1 = FLOAT -> <:expr< $flo:x1$ >>
| x1 = STRING -> <:expr< $str:x1$ >>
| "let"; x1 = ldecs; "in"; x2 = exp_ps; "end" ->
let (let_fun, let_val) = separate_fun_val x1 in
let x2 =
List.fold_right (fun (p, e) x2 -> <:expr< let $p$ = $e$ in $x2$ >>)
let_val x2
in
let x2 =
match let_fun with
[ [] -> x2
| _ -> <:expr< let rec $list:let_fun$ in $x2$ >> ]
in
x2
| "{"; x1 = LIST1 elabel SEP ","; "}" -> <:expr< {$list:x1$} >>
| "["; "]" -> <:expr< [] >>
| "["; x1 = expr; "]" -> <:expr< [$x1$] >>
| "["; x1 = expr; ","; x2 = LIST1 SELF SEP ","; "]" ->
mklistexp loc None [x1 :: x2]
| "("; ")" -> <:expr< () >>
| "("; x1 = expr; ","; x2 = LIST1 SELF SEP ","; ")" ->
<:expr< ($list:[x1::x2]$) >>
| "("; x1 = expr; ")" -> x1 ] ]
;
fixity:
[ [ "infix" -> not_impl loc "fixity 1"
| "infix"; x1 = INT -> not_impl loc "fixity 2"
| "infixr" -> not_impl loc "fixity 3"
| "infixr"; x1 = INT -> ("infixr", Some x1)
| "nonfix" -> not_impl loc "fixity 5" ] ]
;
patt:
[ [ x1 = patt; "as"; x2 = patt -> <:patt< ($x1$ as $x2$) >> ]
| LEFTA
[ x1 = patt; ":"; x2 = ctyp -> <:patt< ($x1$ : $x2$) >> ]
| RIGHTA
[ x1 = patt; "::"; x2 = patt -> <:patt< [$x1$ :: $x2$] >> ]
| [ x1 = patt; x2 = patt -> <:patt< $x1$ $x2$ >> ]
| "apat"
[ x1 = INT -> <:patt< $int:x1$ >>
| x1 = UIDENT -> <:patt< $uid:x1$ >>
| x1 = id -> <:patt< $lid:x1$ >>
| "_" -> <:patt< _ >>
| "["; "]" -> <:patt< [] >>
| "["; x1 = patt; "]" -> <:patt< [$x1$] >>
| "("; ")" -> <:patt< () >>
| "("; x1 = patt; ","; x2 = LIST1 SELF SEP ","; ")" ->
<:patt< ($list:[x1::x2]$) >>
| "("; x1 = patt; ")" -> x1 ] ]
;
vb:
[ [ "lazy"; x1 = patt; "="; x2 = expr -> not_impl loc "vb 1"
| x1 = patt; "="; x2 = expr -> (x1, x2) ] ]
;
constrain:
[ [ -> None
| ":"; x1 = ctyp -> Some x1 ] ]
;
fb:
[ [ xl = LIST1 clause SEP "|" ->
let (fname, l) =
List.fold_left
(fun (fname, l) ((x1, loc), x2, x3, x4) ->
let fname =
match fname with
[ Some fname ->
if x1 <> fname then
raise_with_loc loc
(Stream.Error ("'" ^ fname ^ "' expected"))
else Some fname
| _ -> Some x1 ]
in
let x4 =
match x3 with
[ Some t -> <:expr< ($x4$ : $t$) >>
| _ -> x4 ]
in
let l = [(x2, None, x4) :: l] in
(fname, l))
(None, []) xl
in
match fname with
[ Some fname ->
(<:patt< $lid:fname$ >>, <:expr< fun [ $list:List.rev l$ ] >>)
| None -> assert False ]
| "lazy"; x1 = LIST1 clause SEP "|" -> not_impl loc "fb 2" ] ]
;
clause:
[ [ x1 = lident_loc; x2 = patt LEVEL "apat"; x3 = patt LEVEL "apat";
x4 = constrain; "="; x5 = expr ->
let x2 =
match x2 with
[ <:patt< $lid:s$ >> -> s
| _ -> raise (Stream.Error "bad clause") ]
in
((x2, loc), <:patt< ($lid:fst x1$, $x3$) >>, x4, x5)
| x1 = lident_loc; x2 = patt LEVEL "apat"; x3 = constrain; "=";
x4 = expr ->
(x1, x2, x3, x4)
| x1 = patt LEVEL "apat"; x2 = idd_loc; x3 = patt LEVEL "apat";
x4 = constrain; "="; x5 = expr ->
(x2, <:patt< ($x1$, $x3$) >>, x4, x5) ] ]
;
idd_loc:
[ [ x1 = idd -> (x1, loc) ] ]
;
tb:
[ [ x1 = tyvars; x2 = idd; "="; x3 = ctyp ->
((loc, uncap x2), x1, x3, []) ] ]
;
tyvars:
[ [ "'"; x1 = LIDENT -> [(x1, (False, False))]
| "("; x1 = tyvar_pc; ")" -> x1
| -> [] ] ]
;
db1:
[ [ x1 = tyvars; x2 = ident; "="; x3 = dbrhs ->
let x2 = uncap x2 in
extract_label_types loc x2 x1 x3
| "lazy"; x1 = tyvars; x2 = ident; "="; x3 = dbrhs ->
not_impl loc "db 2" ] ]
;
db:
[ [ x1 = LIST1 db1 SEP "and" ->
List.fold_right (fun td tdl -> td @ tdl) x1 [] ] ]
;
dbrhs:
[ [ x1 = LIST1 constr SEP "|" -> x1
| "datatype"; x1 = tycon -> not_impl loc "dbrhs 2" ] ]
;
constr:
[ [ x1 = op_op; x2 = ident -> (x2, [], None)
| x1 = op_op; x2 = ident; "of"; x3 = ctyp ->
match x3 with
[ <:ctyp< {$list:_$} >> -> (x2, [], Some x3)
| _ -> (x2, [x3], None) ] ] ]
;
eb:
[ [ x1 = op_op; x2 = ident -> (x2, [])
| x1 = op_op; x2 = ident; "of"; x3 = ctyp -> (x2, [x3]) ] ]
;
ldec1:
[ [ "val"; x1 = LIST1 vb SEP "and" -> x1
| "fun"; x1 = LIST1 fb SEP "and" -> x1 ] ]
;
ldecs:
[ [ -> []
| x1 = ldec1; x2 = ldecs -> x1 @ x2
| ";"; x1 = ldecs -> x1
| "local"; x1 = ldecs; "in"; x2 = ldecs; "end"; x3 = ldecs ->
not_impl loc "ldecs 4" ] ]
;
spec_s:
[ [ -> []
| x1 = sig_item; x2 = spec_s -> [x1 :: x2]
| ";"; x1 = spec_s -> x1 ] ]
;
sig_item:
[ [ "structure"; x1 = LIST1 strspec SEP "and" -> sig_declare loc x1
| "functor"; x1 = LIST1 fctspec SEP "and" -> sig_declare loc x1
| "datatype"; x1 = db -> <:sig_item< type $list:x1$ >>
| "type"; x1 = LIST1 tyspec SEP "and" -> <:sig_item< type $list:x1$ >>
| "val"; x1 = LIST1 valspec SEP "and" -> sig_declare loc x1
| "exception"; x1 = LIST1 exnspec SEP "and" -> sig_declare loc x1
| "sharing"; x1 = LIST1 sharespec SEP "and" -> not_impl loc "sig_item 5"
| "include"; x1 = module_type -> <:sig_item< include $x1$ >> ] ]
;
strspec:
[ [ x1 = ident; ":"; x2 = module_type ->
<:sig_item< module $x1$ : $x2$ >> ] ]
;
fctspec:
[ [ x1 = ident; x2 = fsig -> <:sig_item< module $x1$ : $x2$ >> ] ]
;
tyspec:
[ [ x1 = tyvars; x2 = idd ->
((loc, uncap x2), x1, <:ctyp< '$choose_tvar x1$ >>, [])
| x1 = tyvars; x2 = idd; "="; x3 = ctyp -> not_impl loc "tyspec 2" ] ]
;
valspec:
[ [ x1 = op_op; x2 = ident; ":"; x3 = ctyp ->
<:sig_item< value $x2$ : $x3$ >> ] ]
;
exnspec:
[ [ x1 = ident -> <:sig_item< exception $x1$ >>
| x1 = ident; "of"; x2 = ctyp ->
<:sig_item< exception $x1$ of $x2$ >> ] ]
;
sharespec:
[ [ "type"; x1 = patheqn -> not_impl loc "sharespec 1"
| x1 = patheqn -> not_impl loc "sharespec 2" ] ]
;
patheqn:
[ [ x1 = qid; "="; x2 = qid -> [x1; x2]
| x1 = qid; "="; x2 = patheqn -> [x1 :: x2] ] ]
;
whspec:
[ [ "type"; x1 = tyvars; x2 = sqid; "="; x3 = ctyp ->
MLast.WcTyp loc x2 x1 x3
| x1 = sqid; "="; x2 = tqid -> MLast.WcMod loc x1 x2 ] ]
;
module_type:
[ [ x1 = ident -> <:module_type< $uid:x1$ >>
| "sig"; x1 = spec_s; "end" -> <:module_type< sig $list:x1$ end >>
| x1 = module_type; "where"; x2 = LIST1 whspec SEP "and" ->
<:module_type< $x1$ with $list:x2$ >> ] ]
;
sigconstraint_op:
[ [ -> None
| ":"; x1 = module_type -> Some x1
| ":>"; x1 = module_type -> not_impl loc "sigconstraint_op 3" ] ]
;
sigb:
[ [ x1 = ident; "="; x2 = module_type ->
<:str_item< module type $x1$ = $x2$ >> ] ]
;
fsig:
[ [ ":"; x1 = ident -> not_impl loc "fsig 1"
| x1 = fparamList; ":"; x2 = module_type -> not_impl loc "fsig 2" ] ]
;
module_expr:
[ [ x1 = qid -> x1
| "struct"; x1 = strdecs; "end" -> <:module_expr< struct $list:x1$ end >>
| x1 = qid; x2 = arg_fct -> <:module_expr< $x1$ $x2$ >>
| "let"; x1 = strdecs; "in"; x2 = module_expr; "end" ->
not_impl loc "str 4"
| x1 = module_expr; ":"; x2 = module_type -> not_impl loc "str 5"
| x1 = module_expr; x2 = ":>"; x3 = module_type ->
not_impl loc "str 6" ] ]
;
arg_fct:
[ [ "("; x1 = strdecs; ")"; x2 = arg_fct -> not_impl loc "arg_fct 1"
| "("; x1 = module_expr; ")"; x2 = arg_fct -> not_impl loc "arg_fct 2"
| "("; x1 = module_expr; ")" -> x1
| "("; x2 = strdecs; ")" -> not_impl loc "arg_fct 4" ] ]
;
strdecs:
[ [ x1 = str_item LEVEL "strdec"; x2 = strdecs -> [x1 :: x2]
| ";"; x1 = strdecs -> x1
| -> [] ] ]
;
str_item:
[ [ "signature"; x1 = LIST1 sigb SEP "and" -> str_declare loc x1
| "funsig"; x1 = fsigb -> not_impl loc "sdec 3" ]
| "strdec"
[ "structure"; x1 = LIST1 strb SEP "and" -> str_declare loc x1
| "functor"; x1 = LIST1 fctb SEP "and" -> str_declare loc x1
| "local"; x1 = sdecs; "in"; x2 = sdecs; "end" ->
not_impl loc "sdec 5" ]
| [ "val"; x1 = LIST1 vb SEP "and" -> <:str_item< value $list:x1$ >>
| "val"; x1 = tyvarseq; x3 = LIST1 vb SEP "and" ->
not_impl loc "ldec 2"
| "val"; "rec"; x1 = rvb -> not_impl loc "ldec 3"
| "val"; "rec"; x1 = tyvarseq; x2 = rvb -> not_impl loc "ldec 4"
| "fun"; x1 = LIST1 fb SEP "and" -> <:str_item< value rec $list:x1$ >>
| "fun"; x1 = tyvarseq; x2 = fb -> not_impl loc "ldec 6"
| "type"; x1 = LIST1 tb SEP "and" -> <:str_item< type $list:x1$ >>
| "datatype"; x1 = db -> <:str_item< type $list:x1$ >>
| "datatype"; x1 = db; "withtype"; x2 = tb ->
<:str_item< type $list:x1 @ [x2]$ >>
| "abstype"; x1 = db; "with"; x2 = ldecs; "end" -> not_impl loc "ldec 10"
| "abstype"; x1 = db; "withtype"; x2 = tb; "with"; x3 = ldecs; "end" ->
not_impl loc "ldec 11"
| "exception"; x1 = LIST1 eb SEP "and" ->
let dl =
List.map
(fun (s, tl) -> <:str_item< exception $s$ of $list:tl$ >>) x1
in
str_declare loc dl
| "open"; x1 = LIST1 sqid ->
let dl = List.map (fun sl -> <:str_item< open $sl$ >>) x1 in
str_declare loc dl
| x1 = fixity; x2 = idd ->
match x1 with
[ ("infixr", Some n) ->
do {
List.iter
(fun s ->
EXTEND
expr: LEVEL $n$
[ [ x1 = expr; $s$; x2 = expr ->
<:expr< $lid:s$ ($x1$, $x2$) >> ] ]
;
END)
[x2];
str_declare loc []
}
| _ -> not_impl loc "ldec 14" ]
| "overload"; x1 = ident; ":"; x2 = ctyp; "as"; x3 = exp_pa ->
not_impl loc "ldec 15" ] ]
;
strb:
[ [ x1 = ident; x2 = sigconstraint_op; "="; x3 = module_expr ->
let x3 =
match x2 with
[ Some x2 -> <:module_expr< ($x3$ : $x2$) >>
| None -> x3 ]
in
<:str_item< module $x1$ = $x3$ >> ] ]
;
fparam:
[ [ x1 = idd; ":"; x2 = module_type -> (x1, x2)
| x1 = spec_s ->
match x1 with
[ [<:sig_item< module $x1$ : $x2$ >>] -> (x1, x2)
| _ -> not_impl loc "fparam 2" ] ] ]
;
fparamList:
[ [ "("; x1 = fparam; ")" -> [x1]
| "("; x1 = fparam; ")"; x2 = fparamList -> [x1 :: x2] ] ]
;
fctb:
[ [ x1 = ident; x2 = fparamList; x3 = sigconstraint_op; "=";
x4 = module_expr ->
let x4 =
match x3 with
[ Some x3 -> <:module_expr< ($x4$ : $x3$) >>
| None -> x4 ]
in
let x4 =
List.fold_right
(fun (i, s) x4 -> <:module_expr< functor ($i$ : $s$) -> $x4$ >>)
x2 x4
in
<:str_item< module $x1$ = $x4$ >>
| x1 = ident; x2 = fsigconstraint_op; "="; x3 = fct_exp ->
not_impl loc "fctb 2" ] ]
;
interdec:
[ [ x = LIST1 [ s = str_item -> (s, loc) ] -> (x, False)
| x = expr -> not_impl loc "interdec 2" ] ]
;
END;