4 * Copyright (C) 2002, 2006, 2007, 2008, 2009 Yoann Padioleau
6 * This program is free software; you can redistribute it and/or
7 * modify it under the terms of the GNU General Public License (GPL)
8 * version 2 as published by the Free Software Foundation.
10 * This program is distributed in the hope that it will be useful,
11 * but WITHOUT ANY WARRANTY; without even the implied warranty of
12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13 * file license.txt for more details.
19 module LP = Lexer_parser
20 open Lexer_parser (* for the fields *)
22 open Semantic_c (* Semantic exn *)
25 (*****************************************************************************)
27 (*****************************************************************************)
29 if !Flag_parsing_c.verbose_parsing
30 then Common.warning ("PARSING: " ^ s) v
33 let pr2, pr2_once = Common.mk_pr2_wrappers Flag_parsing_c.verbose_parsing
35 (*****************************************************************************)
36 (* Parse helpers functions *)
37 (*****************************************************************************)
39 (*-------------------------------------------------------------------------- *)
41 (*-------------------------------------------------------------------------- *)
43 type shortLong = Short | Long | LongLong
46 storageD: storagebis wrap;
47 typeD: ((sign option) * (shortLong option) * (typeCbis option)) wrap;
48 qualifD: typeQualifierbis wrap;
50 (* note: have a full_info: parse_info list; to remember ordering
51 * between storage, qualifier, type ? well this info is already in
52 * the Ast_c.info, just have to sort them to get good order *)
57 typeD = (None, None, None), [];
61 let fake_pi = Common.fake_parse_info
63 let addStorageD = function
64 | ((x,ii), ({storageD = (NoSto,[])} as v)) -> { v with storageD = (x, [ii]) }
65 | ((x,ii), ({storageD = (y, ii2)} as v)) ->
66 if x =*= y then warning "duplicate storage classes" v
67 else raise (Semantic ("multiple storage classes", fake_pi))
69 let addInlineD = function
70 | ((true,ii), ({inlineD = (false,[])} as v)) -> { v with inlineD=(true,[ii])}
71 | ((true,ii), ({inlineD = (true, ii2)} as v)) -> warning "duplicate inline" v
72 | _ -> raise Impossible
75 let addTypeD = function
76 | ((Left3 Signed,ii) ,({typeD = ((Some Signed, b,c),ii2)} as v)) ->
77 warning "duplicate 'signed'" v
78 | ((Left3 UnSigned,ii) ,({typeD = ((Some UnSigned,b,c),ii2)} as v)) ->
79 warning "duplicate 'unsigned'" v
80 | ((Left3 _,ii), ({typeD = ((Some _,b,c),ii2)} as _v)) ->
81 raise (Semantic ("both signed and unsigned specified", fake_pi))
82 | ((Left3 x,ii), ({typeD = ((None,b,c),ii2)} as v)) ->
83 {v with typeD = (Some x,b,c),ii ++ ii2}
85 | ((Middle3 Short,ii), ({typeD = ((a,Some Short,c),ii2)} as v)) ->
86 warning "duplicate 'short'" v
89 (* gccext: long long allowed *)
90 | ((Middle3 Long,ii), ({typeD = ((a,Some Long ,c),ii2)} as v)) ->
91 { v with typeD = (a, Some LongLong, c),ii++ii2 }
92 | ((Middle3 Long,ii), ({typeD = ((a,Some LongLong ,c),ii2)} as v)) ->
93 warning "triplicate 'long'" v
96 | ((Middle3 _,ii), ({typeD = ((a,Some _,c),ii2)} as _v)) ->
97 raise (Semantic ("both long and short specified", fake_pi))
98 | ((Middle3 x,ii), ({typeD = ((a,None,c),ii2)} as v)) ->
99 {v with typeD = (a, Some x,c),ii++ii2}
101 | ((Right3 t,ii), ({typeD = ((a,b,Some _),ii2)} as _v)) ->
102 raise (Semantic ("two or more data types", fake_pi))
103 | ((Right3 t,ii), ({typeD = ((a,b,None),ii2)} as v)) ->
104 {v with typeD = (a,b, Some t),ii++ii2}
107 let addQualif = function
108 | ({const=true}, ({const=true} as x)) -> warning "duplicate 'const'" x
109 | ({volatile=true},({volatile=true} as x))-> warning "duplicate 'volatile'" x
110 | ({const=true}, v) -> {v with const=true}
111 | ({volatile=true}, v) -> {v with volatile=true}
113 internal_error "there is no noconst or novolatile keyword"
115 let addQualifD ((qu,ii), ({qualifD = (v,ii2)} as x)) =
116 { x with qualifD = (addQualif (qu, v),ii::ii2) }
119 (*-------------------------------------------------------------------------- *)
120 (* Declaration/Function related *)
121 (*-------------------------------------------------------------------------- *)
124 (* stdC: type section, basic integer types (and ritchie)
125 * To understand the code, just look at the result (right part of the PM)
128 let (fixDeclSpecForDecl: decl -> (fullType * (storage wrap))) = function
129 {storageD = (st,iist);
132 inlineD = (inline,iinl);
136 | (None,None,None) ->
137 (* generate fake_info, otherwise type_annotater can crash in
140 warning "type defaults to 'int'" (defaultInt, [fakeInfo fake_pi])
141 | (None, None, Some t) -> (t, iit)
143 | (Some sign, None, (None| Some (BaseType (IntType (Si (_,CInt)))))) ->
144 BaseType(IntType (Si (sign, CInt))), iit
145 | ((None|Some Signed),Some x,(None|Some(BaseType(IntType (Si (_,CInt)))))) ->
146 BaseType(IntType (Si (Signed, [Short,CShort; Long, CLong; LongLong, CLongLong] +> List.assoc x))), iit
147 | (Some UnSigned, Some x, (None| Some (BaseType (IntType (Si (_,CInt))))))->
148 BaseType(IntType (Si (UnSigned, [Short,CShort; Long, CLong; LongLong, CLongLong] +> List.assoc x))), iit
149 | (Some sign, None, (Some (BaseType (IntType CChar)))) ->
150 BaseType(IntType (Si (sign, CChar2))), iit
151 | (None, Some Long,(Some(BaseType(FloatType CDouble)))) ->
152 BaseType (FloatType (CLongDouble)), iit
154 | (Some _,_, Some _) ->
156 raise (Semantic ("signed, unsigned valid only for char and int", fake_pi))
157 | (_,Some _,(Some(BaseType(FloatType (CFloat|CLongDouble))))) ->
158 raise (Semantic ("long or short specified with floatint type", fake_pi))
159 | (_,Some Short,(Some(BaseType(FloatType CDouble)))) ->
160 raise (Semantic ("the only valid combination is long double", fake_pi))
162 | (_, Some _, Some _) ->
164 raise (Semantic ("long, short valid only for int or float", fake_pi))
166 (* if do short uint i, then gcc say parse error, strange ? it is
167 * not a parse error, it is just that we dont allow with typedef
168 * either short/long or signed/unsigned. In fact, with
169 * parse_typedef_fix2 (with et() and dt()) now I say too parse
170 * error so this code is executed only when do short struct
171 * {....} and never with a typedef cos now we parse short uint i
172 * as short ident ident => parse error (cos after first short i
173 * pass in dt() mode) *)
179 ,((st, inline),iist++iinl)
182 let fixDeclSpecForParam = function ({storageD = (st,iist)} as r) ->
183 let ((qu,ty) as v,_st) = fixDeclSpecForDecl r in
185 | (Sto Register) -> (v, true), iist
186 | NoSto -> (v, false), iist
189 (Semantic ("storage class specified for parameter of function",
192 let fixDeclSpecForMacro = function ({storageD = (st,iist)} as r) ->
193 let ((qu,ty) as v,_st) = fixDeclSpecForDecl r in
198 (Semantic ("storage class specified for macro type decl",
202 let fixDeclSpecForFuncDef x =
203 let (returnType,storage) = fixDeclSpecForDecl x in
204 (match fst (unwrap storage) with
206 raise (Semantic ("function definition declared 'typedef'", fake_pi))
207 | _ -> (returnType, storage)
211 (* parameter: (this is the context where we give parameter only when
212 * in func DEFINITION not in funct DECLARATION) We must have a name.
213 * This function ensure that we give only parameterTypeDecl with well
214 * formed Classic constructor todo?: do we accept other declaration
215 * in ? so I must add them to the compound of the deffunc. I dont
216 * have to handle typedef pb here cos C forbid to do VF f { ... }
217 * with VF a typedef of func cos here we dont see the name of the
218 * argument (in the typedef)
220 let (fixOldCDecl: fullType -> fullType) = fun ty ->
221 match Ast_c.unwrap_typeC ty with
222 | FunctionType (fullt, (params, (b, iib))) ->
224 (* stdC: If the prototype declaration declares a parameter for a
225 * function that you are defining (it is part of a function
226 * definition), then you must write a name within the declarator.
227 * Otherwise, you can omit the name. *)
229 | [{p_namei = None; p_type = ty2},_] ->
230 (match Ast_c.unwrap_typeC ty2 with
234 pr2 ("SEMANTIC:parameter name omitted, but I continue");
239 (params +> List.iter (fun (param,_) ->
241 | {p_namei = None} ->
242 (* if majuscule, then certainly macro-parameter *)
243 pr2 ("SEMANTIC:parameter name omitted, but I continue");
249 (* todo? can we declare prototype in the decl or structdef,
250 ... => length <> but good kan meme *)
252 (* gcc say parse error but dont see why *)
253 raise (Semantic ("seems this is not a function", fake_pi))
256 let fixFunc (typ, compound, old_style_opt) =
257 let (cp,iicp) = compound in
259 let (name, ty, (st,iist), attrs) = typ in
261 let (qu, tybis) = ty in
263 match Ast_c.unwrap_typeC ty with
264 | FunctionType (fullt, (params,abool)) ->
265 let iifunc = Ast_c.get_ii_typeC_take_care tybis in
267 let iistart = Ast_c.fakeInfo () in
268 assert (qu =*= nullQualif);
271 | [{p_namei= None; p_type = ty2}, _] ->
272 (match Ast_c.unwrap_typeC ty2 with
273 | BaseType Void -> ()
275 (* failwith "internal errror: fixOldCDecl not good" *)
279 params +> List.iter (function
280 | ({p_namei = Some s}, _) -> ()
282 (* failwith "internal errror: fixOldCDecl not good" *)
285 (* bugfix: cf tests_c/function_pointer4.c.
286 * Apparemment en C on peut syntaxiquement ecrire ca:
288 * void a(int)(int x);
289 * mais apres gcc gueule au niveau semantique avec:
290 * xxx.c:1: error: 'a' declared as function returning a function
291 * Je ne faisais pas cette verif. Sur du code comme
292 * void METH(foo)(int x) { ...} , le parser croit (a tort) que foo
293 * est un typedef, et donc c'est parsé comme l'exemple precedent,
294 * ce qui ensuite confuse l'unparser qui n'est pas habitué
295 * a avoir dans le returnType un FunctionType et qui donc
296 * pr_elem les ii dans le mauvais sens ce qui genere au final
297 * une exception. Hence this fix to at least detect the error
298 * at parsing time (not unparsing time).
300 (match Ast_c.unwrap_typeC fullt with
302 let s = Ast_c.str_of_name name in
303 let iis = Ast_c.info_of_name name in
304 pr2 (spf "WEIRD: %s declared as function returning a function." s);
305 pr2 (spf "This is probably because of a macro. Extend standard.h");
306 raise (Semantic (spf "error: %s " s, Ast_c.parse_info_of_info iis))
310 (* it must be nullQualif,cos parser construct only this*)
312 f_type = (fullt, (params, abool));
316 f_old_c_style = old_style_opt;
318 (iifunc++iicp++[iistart]++iist)
322 ("you are trying to do a function definition but you dont give " ^
323 "any parameter", fake_pi))
326 (*-------------------------------------------------------------------------- *)
327 (* parse_typedef_fix2 *)
328 (*-------------------------------------------------------------------------- *)
331 if !Flag_parsing_c.debug_etdt then pr2 ("<" ^ s);
332 LP.disable_typedef ()
335 if !Flag_parsing_c.debug_etdt then pr2 (">" ^ s);
339 let fix_add_params_ident x =
340 let (s, ty, st, _attrs) = x in
341 match Ast_c.unwrap_typeC ty with
342 | FunctionType (fullt, (params, bool)) ->
345 | [{p_namei=None; p_type=ty2}, _] ->
346 (match Ast_c.unwrap_typeC ty2 with
347 | BaseType Void -> ()
349 (* failwith "internal errror: fixOldCDecl not good" *)
353 params +> List.iter (function
354 | ({p_namei= Some name}, _) ->
355 LP.add_ident (Ast_c.str_of_name s)
358 (* failwith "internal errror: fixOldCDecl not good" *)
365 (*-------------------------------------------------------------------------- *)
367 (*-------------------------------------------------------------------------- *)
369 let mk_e e ii = Ast_c.mk_e e ii
371 let mk_string_wrap (s,info) = (s, [info])
375 /*(*****************************************************************************)*/
377 /*(*************************************************************************)*/
381 * Some tokens are not even used in this file because they are filtered
382 * in some intermediate phase. But they still must be declared because
383 * ocamllex may generate them, or some intermediate phase may also
384 * generate them (like some functions in parsing_hacks.ml)
388 %token <Ast_c.info> TUnknown /*(* unrecognized token *)*/
390 /*(* coupling: Token_helpers.is_real_comment *)*/
391 %token <Ast_c.info> TCommentSpace TCommentNewline TComment
393 /*(*-----------------------------------------*)*/
394 /*(* the normal tokens *)*/
395 /*(*-----------------------------------------*)*/
397 %token <(string * (Ast_c.sign * Ast_c.base)) * Ast_c.info> TInt
398 %token <(string * Ast_c.floatType) * Ast_c.info> TFloat
399 %token <(string * Ast_c.isWchar) * Ast_c.info> TChar
400 %token <(string * Ast_c.isWchar) * Ast_c.info> TString
402 %token <string * Ast_c.info> TIdent
403 /*(* appears mostly after some fix_xxx in parsing_hack *)*/
404 %token <string * Ast_c.info> TypedefIdent
408 (* Some tokens like TOPar and TCPar are used as synchronisation stuff,
409 * in parsing_hack.ml. So if define special tokens like TOParDefine and
410 * TCParEOL, then take care to also modify in Token_helpers.
414 %token <Ast_c.info> TOPar TCPar TOBrace TCBrace TOCro TCCro
415 %token <Ast_c.info> TDot TComma TPtrOp
416 %token <Ast_c.info> TInc TDec
417 %token <Ast_c.assignOp * Ast_c.info> TAssign
418 %token <Ast_c.info> TEq
419 %token <Ast_c.info> TWhy TTilde TBang
420 %token <Ast_c.info> TEllipsis
421 %token <Ast_c.info> TDotDot
423 %token <Ast_c.info> TPtVirg
425 TOrLog TAndLog TOr TXor TAnd TEqEq TNotEq TInf TSup TInfEq TSupEq
427 TPlus TMinus TMul TDiv TMod
430 Tchar Tshort Tint Tdouble Tfloat Tlong Tunsigned Tsigned Tvoid
431 Tauto Tregister Textern Tstatic
435 Tbreak Telse Tswitch Tcase Tcontinue Tfor Tdo Tif Twhile Treturn
443 /*(*-----------------------------------------*)*/
444 /*(* gccext: extra tokens *)*/
445 /*(*-----------------------------------------*)*/
446 %token <Ast_c.info> Tasm
447 %token <Ast_c.info> Tattribute
448 %token <Ast_c.info> TattributeNoarg
449 %token <Ast_c.info> Tinline
450 %token <Ast_c.info> Ttypeof
452 /*(*-----------------------------------------*)*/
453 /*(* cppext: extra tokens *)*/
454 /*(*-----------------------------------------*)*/
455 /*(* coupling with Token_helpers.is_cpp_token *)*/
458 /*(*---------------*)*/
460 /*(*---------------*)*/
462 %token <Ast_c.info> TDefine
463 %token <(string * Ast_c.info)> TDefParamVariadic
465 /*(* disappear after fix_tokens_define *)*/
466 %token <Ast_c.info> TCppEscapedNewline
468 %token <Ast_c.info> TCppConcatOp
470 /*(* appear after fix_tokens_define *)*/
471 %token <Ast_c.info> TOParDefine
472 %token <Ast_c.info> TOBraceDefineInit
474 %token <(string * Ast_c.info)> TIdentDefine /*(* same *)*/
475 %token <Ast_c.info> TDefEOL /*(* same *)*/
478 /*(*---------------*)*/
480 /*(*---------------*)*/
483 /*(* used only in lexer_c, then transformed in comment or splitted in tokens *)*/
484 %token <(string * string * bool ref * Ast_c.info)> TInclude
486 /*(* tokens coming from above, generated in parse_c from TInclude, etc *)*/
487 %token <(Ast_c.info * bool ref)> TIncludeStart
488 %token <(string * Ast_c.info)> TIncludeFilename
491 /*(*---------------*)*/
493 /*(*---------------*)*/
495 /*(* coupling: Token_helpers.is_cpp_instruction *)*/
496 %token <((int * int) option ref * Ast_c.info)>
497 TIfdef TIfdefelse TIfdefelif TEndif
498 %token <(bool * (int * int) option ref * Ast_c.info)>
499 TIfdefBool TIfdefMisc TIfdefVersion
501 /*(*---------------*)*/
503 /*(*---------------*)*/
506 %token <string * Ast_c.info> TUndef
508 %token <Ast_c.info> TCppDirectiveOther
510 /*(*---------------*)*/
512 /*(*---------------*)*/
514 /*(* appear after fix_tokens_cpp, cf also parsing_hacks#hint *)*/
516 %token <(string * Ast_c.info)> TMacroAttr
517 %token <(string * Ast_c.info)> TMacroStmt
518 %token <(string * Ast_c.info)> TMacroIdentBuilder
519 /*(* no need value for the moment *)*/
520 %token <(string * Ast_c.info)> TMacroString
521 %token <(string * Ast_c.info)> TMacroDecl
522 %token <Ast_c.info> TMacroDeclConst
524 %token <(string * Ast_c.info)> TMacroIterator
526 %token <(string * Ast_c.info)> TMacroTop
527 %token <(string * Ast_c.info)> TMacroStructDecl
530 %token <(string * Ast_c.info)> TMacroAttrStorage
533 /*(*---------------*)*/
535 /*(*---------------*)*/
538 /*(* should disappear after parsing_hack *)*/
539 %token <Ast_c.info> TCommentSkipTagStart TCommentSkipTagEnd
542 /*(* appear after parsing_hack *)*/
543 %token <Ast_c.info> TCParEOL
545 %token <Ast_c.info> TAction
548 /*(* TCommentMisc still useful ? obsolete ? *)*/
549 %token <Ast_c.info> TCommentMisc
550 %token <(Token_c.cppcommentkind * Ast_c.info)> TCommentCpp
553 /*(*-----------------------------------------*)*/
554 %token <Ast_c.info> EOF
556 /*(*-----------------------------------------*)*/
558 /*(* must be at the top so that it has the lowest priority *)*/
569 %left TInf TSup TInfEq TSupEq
574 /*(*************************************************************************)*/
575 /*(* Rules type declaration *)*/
576 /*(*************************************************************************)*/
578 %start main celem statement expr type_name
579 %type <Ast_c.program> main
580 %type <Ast_c.toplevel> celem
582 %type <Ast_c.statement> statement
583 %type <Ast_c.expression> expr
584 %type <Ast_c.fullType> type_name
587 /*(*************************************************************************)*/
590 * toplevel (obsolete)
596 * - left part (type_spec, qualif),
597 * - right part (declarator, abstract declarator)
598 * - aux part (parameters)
599 * declaration, storage, initializers
605 * generic workarounds (obrace, cbrace for context setting)
609 /*(*************************************************************************)*/
611 /*(*************************************************************************)*/
613 /*(*************************************************************************)*/
614 /*(* no more used; now that use error recovery *)*/
616 main: translation_unit EOF { $1 }
619 | external_declaration
620 { !LP._lexer_hint.context_stack <- [LP.InTopLevel]; [$1] }
621 | translation_unit external_declaration
622 { !LP._lexer_hint.context_stack <- [LP.InTopLevel]; $1 ++ [$2] }
626 /*(*************************************************************************)*/
628 /*(*************************************************************************)*/
630 /*(* Why this ? Why not s/ident/TIdent ? cos there is multiple namespaces in C,
631 * so a label can have the same name that a typedef, same for field and tags
632 * hence sometimes the use of ident instead of TIdent.
636 | TypedefIdent { $1 }
643 (* cppext: string concatenation of idents
644 * also cppext: gccext: ##args for variadic macro
649 { RegularName (mk_string_wrap $1) }
650 | ident_extra_cpp { $1 }
654 { RegularName (mk_string_wrap $1) }
656 { RegularName (mk_string_wrap $1) }
657 | ident_extra_cpp { $1 }
660 | TIdent TCppConcatOp identifier_cpp_list
662 CppConcatenatedName (
664 | [] -> raise Impossible
665 | (x,concatnull)::xs ->
666 assert(null concatnull);
667 (mk_string_wrap $1, [])::(x,[$2])::xs
670 | TCppConcatOp TIdent
671 { CppVariadicName (fst $2, [$1; snd $2]) }
672 | TMacroIdentBuilder TOPar param_define_list TCPar
673 { CppIdentBuilder ((fst $1, [snd $1;$2;$4]), $3) }
676 | TIdent { [mk_string_wrap $1, []] }
677 | identifier_cpp_list TCppConcatOp TIdent { $1 ++ [mk_string_wrap $3, [$2]] }
679 /*(*************************************************************************)*/
681 /*(*************************************************************************)*/
685 | expr TComma assign_expr { mk_e (Sequence ($1,$3)) [$2] }
687 /*(* bugfix: in C grammar they put unary_expr, but in fact it must be
688 * cast_expr, otherwise (int * ) xxx = &yy; is not allowed
692 | cast_expr TAssign assign_expr { mk_e(Assignment ($1,fst $2,$3)) [snd $2]}
693 | cast_expr TEq assign_expr { mk_e(Assignment ($1,SimpleAssign,$3)) [$2]}
695 /*(* gccext: allow optional then part hence gcc_opt_expr
696 * bugfix: in C grammar they put TDotDot cond_expr, but in fact it must be
697 * assign_expr, otherwise pnp ? x : x = 0x388 is not allowed
702 | arith_expr TWhy gcc_opt_expr TDotDot assign_expr
703 { mk_e (CondExpr ($1,$3,$5)) [$2;$4] }
708 | arith_expr TMul arith_expr { mk_e(Binary ($1, Arith Mul, $3)) [$2] }
709 | arith_expr TDiv arith_expr { mk_e(Binary ($1, Arith Div, $3)) [$2] }
710 | arith_expr TMod arith_expr { mk_e(Binary ($1, Arith Mod, $3)) [$2] }
711 | arith_expr TPlus arith_expr { mk_e(Binary ($1, Arith Plus, $3)) [$2] }
712 | arith_expr TMinus arith_expr { mk_e(Binary ($1, Arith Minus, $3)) [$2] }
713 | arith_expr TShl arith_expr { mk_e(Binary ($1, Arith DecLeft, $3)) [$2] }
714 | arith_expr TShr arith_expr { mk_e(Binary ($1, Arith DecRight, $3)) [$2] }
715 | arith_expr TInf arith_expr { mk_e(Binary ($1, Logical Inf, $3)) [$2] }
716 | arith_expr TSup arith_expr { mk_e(Binary ($1, Logical Sup, $3)) [$2] }
717 | arith_expr TInfEq arith_expr { mk_e(Binary ($1, Logical InfEq, $3)) [$2] }
718 | arith_expr TSupEq arith_expr { mk_e(Binary ($1, Logical SupEq, $3)) [$2] }
719 | arith_expr TEqEq arith_expr { mk_e(Binary ($1, Logical Eq, $3)) [$2] }
720 | arith_expr TNotEq arith_expr { mk_e(Binary ($1, Logical NotEq, $3)) [$2] }
721 | arith_expr TAnd arith_expr { mk_e(Binary ($1, Arith And, $3)) [$2] }
722 | arith_expr TOr arith_expr { mk_e(Binary ($1, Arith Or, $3)) [$2] }
723 | arith_expr TXor arith_expr { mk_e(Binary ($1, Arith Xor, $3)) [$2] }
724 | arith_expr TAndLog arith_expr { mk_e(Binary ($1, Logical AndLog, $3)) [$2] }
725 | arith_expr TOrLog arith_expr { mk_e(Binary ($1, Logical OrLog, $3)) [$2] }
729 | topar2 type_name tcpar2 cast_expr { mk_e(Cast ($2, $4)) [$1;$3] }
732 | postfix_expr { $1 }
733 | TInc unary_expr { mk_e(Infix ($2, Inc)) [$1] }
734 | TDec unary_expr { mk_e(Infix ($2, Dec)) [$1] }
735 | unary_op cast_expr { mk_e(Unary ($2, fst $1)) [snd $1] }
736 | Tsizeof unary_expr { mk_e(SizeOfExpr ($2)) [$1] }
737 | Tsizeof topar2 type_name tcpar2 { mk_e(SizeOfType ($3)) [$1;$2;$4] }
740 | TAnd { GetRef, $1 }
742 | TPlus { UnPlus, $1 }
743 | TMinus { UnMinus, $1 }
744 | TTilde { Tilde, $1 }
746 /*(* gccext: have that a lot in old kernel to get address of local label.
747 * cf gcc manual "local labels as values".
749 | TAndLog { GetRefLabel, $1 }
754 | primary_expr { $1 }
755 | postfix_expr TOCro expr TCCro
756 { mk_e(ArrayAccess ($1, $3)) [$2;$4] }
757 | postfix_expr TOPar argument_list_ne TCPar
758 { mk_e(FunCall ($1, $3)) [$2;$4] }
759 | postfix_expr TOPar TCPar { mk_e(FunCall ($1, [])) [$2;$3] }
760 | postfix_expr TDot ident_cpp { mk_e(RecordAccess ($1,$3)) [$2] }
761 | postfix_expr TPtrOp ident_cpp { mk_e(RecordPtAccess ($1,$3)) [$2] }
762 | postfix_expr TInc { mk_e(Postfix ($1, Inc)) [$2] }
763 | postfix_expr TDec { mk_e(Postfix ($1, Dec)) [$2] }
765 /*(* gccext: also called compound literals *)*/
766 | topar2 type_name tcpar2 TOBrace TCBrace
767 { mk_e(Constructor ($2, [])) [$1;$3;$4;$5] }
768 | topar2 type_name tcpar2 TOBrace initialize_list gcc_comma_opt TCBrace
769 { mk_e(Constructor ($2, List.rev $5)) ([$1;$3;$4;$7] ++ $6) }
772 | identifier_cpp { mk_e(Ident ($1)) [] }
774 { let (str,(sign,base)) = fst $1 in
775 mk_e(Constant (Int (str,Si(sign,base)))) [snd $1] }
776 | TFloat { mk_e(Constant (Float (fst $1))) [snd $1] }
777 | TString { mk_e(Constant (String (fst $1))) [snd $1] }
778 | TChar { mk_e(Constant (Char (fst $1))) [snd $1] }
779 | TOPar expr TCPar { mk_e(ParenExpr ($2)) [$1;$3] } /*(* forunparser: *)*/
781 /*(* gccext: cppext: TODO better ast ? *)*/
782 | TMacroString { mk_e(Constant (MultiString [fst $1])) [snd $1] }
783 | string_elem string_list
784 { mk_e(Constant (MultiString ["TODO: MultiString"])) ($1 ++ $2) }
786 /*(* gccext: allow statement as expressions via ({ statement }) *)*/
787 | TOPar compound TCPar { mk_e(StatementExpr ($2)) [$1;$3] }
791 /*(*----------------------------*)*/
793 /*(*----------------------------*)*/
796 /*(* to avoid conflicts have to introduce a _not_empty (ne) version *)*/
798 | assign_expr { Left $1 }
799 | parameter_decl { Right (ArgType $1) }
800 | action_higherordermacro_ne { Right (ArgAction $1) }
804 | assign_expr { Left $1 }
805 | parameter_decl { Right (ArgType $1) }
806 /*(* had conflicts before, but julia fixed them *)*/
807 | action_higherordermacro { Right (ArgAction $1) }
809 action_higherordermacro_ne:
812 then ActMisc [Ast_c.fakeInfo()]
817 action_higherordermacro:
820 then ActMisc [Ast_c.fakeInfo()]
825 /*(*----------------------------*)*/
826 /*(* workarounds *)*/
827 /*(*----------------------------*)*/
829 /*(* would like evalInt $1 but require too much info *)*/
830 const_expr: cond_expr { $1 }
833 topar2: TOPar { et "topar2" (); $1 }
834 tcpar2: TCPar { et "tcpar2" (); $1 (*TODO? et ? sure ? c pas dt plutot ? *) }
838 /*(*************************************************************************)*/
840 /*(*************************************************************************)*/
842 statement: statement2 { mk_st (fst $1) (snd $1) }
845 | labeled { Labeled (fst $1), snd $1 }
846 | compound { Compound (fst $1), snd $1 }
847 | expr_statement { ExprStatement(fst $1), snd $1 }
848 | selection { Selection (fst $1), snd $1 ++ [fakeInfo()] }
849 | iteration { Iteration (fst $1), snd $1 ++ [fakeInfo()] }
850 | jump TPtVirg { Jump (fst $1), snd $1 ++ [$2] }
853 | Tasm TOPar asmbody TCPar TPtVirg { Asm $3, [$1;$2;$4;$5] }
854 | Tasm Tvolatile TOPar asmbody TCPar TPtVirg { Asm $4, [$1;$2;$3;$5;$6] }
857 | TMacroStmt { MacroStmt, [snd $1] }
862 /*(* note that case 1: case 2: i++; would be correctly parsed, but with
863 * a Case (1, (Case (2, i++))) :(
866 | ident_cpp TDotDot statement { Label ($1, $3), [$2] }
867 | Tcase const_expr TDotDot statement { Case ($2, $4), [$1; $3] }
868 | Tcase const_expr TEllipsis const_expr TDotDot statement
869 { CaseRange ($2, $4, $6), [$1;$3;$5] } /*(* gccext: allow range *)*/
870 | Tdefault TDotDot statement { Default $3, [$1; $2] }
873 /*(* gccext: allow toto: }
874 * was generating each 30 shift/Reduce conflicts,
875 * mais ca va, ca fait ce qu'il faut.
876 * update: julia fixed the problem by introducing end_labeled
877 * and modifying below stat_or_decl_list
880 { Label ($1, (mk_st (ExprStatement None) Ast_c.noii)), [$2] }
881 | Tcase const_expr TDotDot
882 { Case ($2, (mk_st (ExprStatement None) Ast_c.noii)), [$1;$3] }
884 { Default (mk_st (ExprStatement None) Ast_c.noii), [$1; $2] }
890 compound: tobrace compound2 tcbrace { $2, [$1; $3] }
894 (* cppext: because of cpp, some stuff looks like declaration but are in
895 * fact statement but too hard to figure out, and if parse them as
896 * expression, then we force to have first decls and then exprs, then
897 * will have a parse error. So easier to let mix decl/statement.
898 * Moreover it helps to not make such a difference between decl and
899 * statement for further coccinelle phases to factorize code.
903 | stat_or_decl_list { $1 }
907 | stat_or_decl { [$1] }
908 /*(* gccext: to avoid conflicts, cf end_labeled above *)*/
909 | end_labeled { [StmtElem (mk_st (Labeled (fst $1)) (snd $1))] }
910 /*(* old: conflicts | stat_or_decl_list stat_or_decl { $1 ++ [$2] } *)*/
911 | stat_or_decl stat_or_decl_list { $1 :: $2 }
914 | decl { StmtElem (mk_st (Decl ($1 Ast_c.LocalDecl)) Ast_c.noii) }
915 | statement { StmtElem $1 }
918 | function_definition { StmtElem (mk_st (NestedFunc $1) Ast_c.noii) }
922 { CppDirectiveStmt $1 }
923 | cpp_ifdef_directive/*(* stat_or_decl_list ...*)*/
931 | TPtVirg { None, [$1] }
932 | expr TPtVirg { Some $1, [$2] }
935 | Tif TOPar expr TCPar statement %prec SHIFTHERE
936 { If ($3, $5, (mk_st (ExprStatement None) Ast_c.noii)), [$1;$2;$4] }
937 | Tif TOPar expr TCPar statement Telse statement
938 { If ($3, $5, $7), [$1;$2;$4;$6] }
939 | Tswitch TOPar expr TCPar statement
940 { Switch ($3,$5), [$1;$2;$4] }
943 | Twhile TOPar expr TCPar statement
944 { While ($3,$5), [$1;$2;$4] }
945 | Tdo statement Twhile TOPar expr TCPar TPtVirg
946 { DoWhile ($2,$5), [$1;$3;$4;$6;$7] }
947 | Tfor TOPar expr_statement expr_statement TCPar statement
948 { For ($3,$4,(None, []),$6), [$1;$2;$5]}
949 | Tfor TOPar expr_statement expr_statement expr TCPar statement
950 { For ($3,$4,(Some $5, []),$7), [$1;$2;$6] }
951 /*(* c++ext: for(int i = 0; i < n; i++)*)*/
952 | Tfor TOPar decl expr_statement expr_opt TCPar statement
954 (* pr2 "DECL in for"; *)
955 MacroIteration ("toto", [], $7),[$1;$2;$6] (* TODOfake ast, TODO need decl2 ? *)
958 | TMacroIterator TOPar argument_list_ne TCPar statement
959 { MacroIteration (fst $1, $3, $5), [snd $1;$2;$4] }
960 | TMacroIterator TOPar TCPar statement
961 { MacroIteration (fst $1, [], $4), [snd $1;$2;$3] }
963 /*(* the ';' in the caller grammar rule will be appended to the infos *)*/
965 | Tgoto ident_cpp { Goto ($2), [$1] }
966 | Tcontinue { Continue, [$1] }
967 | Tbreak { Break, [$1] }
968 | Treturn { Return, [$1] }
969 | Treturn expr { ReturnExpr $2, [$1] }
970 | Tgoto TMul expr { GotoComputed $3, [$1;$2] }
974 /*(*----------------------------*)*/
976 /*(*----------------------------*)*/
978 | TString { [snd $1] }
979 /*(* cppext: ex= printk (KERN_INFO "xxx" UTS_RELEASE) *)*/
980 | TMacroString { [snd $1] }
984 | string_list colon_asm_list { $1, $2 }
985 | string_list { $1, [] } /*(* in old kernel *)*/
988 colon_asm: TDotDot colon_option_list { Colon $2, [$1] }
991 | TString { ColonMisc, [snd $1] }
992 | TString TOPar asm_expr TCPar { ColonExpr $3, [snd $1; $2;$4] }
993 /*(* cppext: certainly a macro *)*/
994 | TOCro identifier TCCro TString TOPar asm_expr TCPar
995 { ColonExpr $6, [$1;snd $2;$3;snd $4; $5; $7 ] }
996 | identifier { ColonMisc, [snd $1] }
997 | /*(* empty *)*/ { ColonMisc, [] }
999 asm_expr: assign_expr { $1 }
1001 /*(*************************************************************************)*/
1003 /*(*************************************************************************)*/
1006 /*(*-----------------------------------------------------------------------*)*/
1007 /*(* Type spec, left part of a type *)*/
1008 /*(*-----------------------------------------------------------------------*)*/
1010 | Tvoid { Right3 (BaseType Void), [$1] }
1011 | Tchar { Right3 (BaseType (IntType CChar)), [$1]}
1012 | Tint { Right3 (BaseType (IntType (Si (Signed,CInt)))), [$1]}
1013 | Tfloat { Right3 (BaseType (FloatType CFloat)), [$1]}
1014 | Tdouble { Right3 (BaseType (FloatType CDouble)), [$1] }
1015 | Tshort { Middle3 Short, [$1]}
1016 | Tlong { Middle3 Long, [$1]}
1017 | Tsigned { Left3 Signed, [$1]}
1018 | Tunsigned { Left3 UnSigned, [$1]}
1019 | struct_or_union_spec { Right3 (fst $1), snd $1 }
1020 | enum_spec { Right3 (fst $1), snd $1 }
1023 (* parse_typedef_fix1: cant put: TIdent {} cos it make the grammar
1024 * ambiguous, generates lots of conflicts => we must
1025 * use some tricks: we make the lexer and parser cooperate, cf lexerParser.ml.
1027 * parse_typedef_fix2: this is not enough, and you must use
1028 * parse_typedef_fix2 to fully manage typedef problems in grammar.
1030 * parse_typedef_fix3:
1032 * parse_typedef_fix4: try also to do now some consistency checking in
1036 { let name = RegularName (mk_string_wrap $1) in
1037 Right3 (TypeName (name, Ast_c.noTypedefDef())),[] }
1039 | Ttypeof TOPar assign_expr TCPar { Right3 (TypeOfExpr ($3)), [$1;$2;$4] }
1040 | Ttypeof TOPar type_name TCPar { Right3 (TypeOfType ($3)), [$1;$2;$4] }
1042 /*(*----------------------------*)*/
1043 /*(* workarounds *)*/
1044 /*(*----------------------------*)*/
1046 type_spec: type_spec2 { dt "type" (); $1 }
1048 /*(*-----------------------------------------------------------------------*)*/
1049 /*(* Qualifiers *)*/
1050 /*(*-----------------------------------------------------------------------*)*/
1053 | Tconst { {const=true ; volatile=false}, $1 }
1054 | Tvolatile { {const=false ; volatile=true}, $1 }
1056 | Trestrict { (* TODO *) {const=false ; volatile=false}, $1 }
1059 /*(*-----------------------------------------------------------------------*)*/
1060 /*(* gccext: attributes *)*/
1061 /*(*-----------------------------------------------------------------------*)*/
1064 | Tattribute TOPar /*stuff*/ TCPar { raise Todo }
1066 | TMacroAttr { Attribute (fst $1), [snd $1] }
1069 | TMacroAttrStorage { $1 }
1072 | type_qualif { $1 }
1074 | TMacroAttr { {const=true ; volatile=false}, snd $1 }
1076 /*(*-----------------------------------------------------------------------*)*/
1077 /*(* Declarator, right part of a type + second part of decl (the ident) *)*/
1078 /*(*-----------------------------------------------------------------------*)*/
1081 (* declarator return a couple:
1082 * (name, partial type (a function to be applied to return type))
1084 * when int* f(int) we must return Func(Pointer int,int) and not
1085 * Pointer (Func(int,int)
1089 | pointer direct_d { (fst $2, fun x -> x +> $1 +> (snd $2) ) }
1092 /*(* so must do int * const p; if the pointer is constant, not the pointee *)*/
1094 | TMul { fun x -> mk_ty (Pointer x) [$1] }
1095 | TMul pointer { fun x -> mk_ty (Pointer ($2 x)) [$1] }
1096 | TMul type_qualif_list
1097 { fun x -> ($2.qualifD, mk_tybis (Pointer x) [$1])}
1098 | TMul type_qualif_list pointer
1099 { fun x -> ($2.qualifD, mk_tybis (Pointer ($3 x)) [$1]) }
1104 { ($1, fun x -> x) }
1105 | TOPar declarator TCPar /*(* forunparser: old: $2 *)*/
1106 { (fst $2, fun x -> mk_ty (ParenType ((snd $2) x)) [$1;$3]) }
1107 | direct_d tocro tccro
1108 { (fst $1,fun x->(snd $1) (mk_ty (Array (None,x)) [$2;$3])) }
1109 | direct_d tocro const_expr tccro
1110 { (fst $1,fun x->(snd $1) (mk_ty (Array (Some $3,x)) [$2;$4])) }
1111 | direct_d topar tcpar
1114 (mk_ty (FunctionType (x,(([],(false, []))))) [$2;$3]))
1116 | direct_d topar parameter_type_list tcpar
1117 { (fst $1,fun x->(snd $1)
1118 (mk_ty (FunctionType (x, $3)) [$2;$4]))
1122 /*(*----------------------------*)*/
1123 /*(* workarounds *)*/
1124 /*(*----------------------------*)*/
1126 tocro: TOCro { et "tocro" ();$1 }
1127 tccro: TCCro { dt "tccro" ();$1 }
1129 /*(*-----------------------------------------------------------------------*)*/
1130 abstract_declarator:
1132 | direct_abstract_declarator { $1 }
1133 | pointer direct_abstract_declarator { fun x -> x +> $2 +> $1 }
1135 direct_abstract_declarator:
1136 | TOPar abstract_declarator TCPar /*(* forunparser: old: $2 *)*/
1137 { fun x -> mk_ty (ParenType ($2 x)) [$1;$3] }
1140 { fun x -> mk_ty (Array (None, x)) [$1;$2] }
1141 | TOCro const_expr TCCro
1142 { fun x -> mk_ty (Array (Some $2, x)) [$1;$3] }
1143 | direct_abstract_declarator TOCro TCCro
1144 { fun x -> $1 (mk_ty (Array (None, x)) [$2;$3]) }
1145 | direct_abstract_declarator TOCro const_expr TCCro
1146 { fun x -> $1 (mk_ty (Array (Some $3,x)) [$2;$4]) }
1148 { fun x -> mk_ty (FunctionType (x, ([], (false, [])))) [$1;$2] }
1149 | topar parameter_type_list tcpar
1150 { fun x -> mk_ty (FunctionType (x, $2)) [$1;$3] }
1151 /*(* subtle: here must also use topar, not TOPar, otherwise if have for
1152 * instance (xxx ( * )(xxx)) cast, then the second xxx may still be a Tident
1153 * but we want to reduce topar, to set the InParameter so that
1154 * parsing_hack can get a chance to change the type of xxx into a typedef.
1155 * That's an example where parsing_hack and the lookahead of ocamlyacc does
1156 * not go very well together ... we got the info too late. We got
1157 * a similar pb with xxx xxx; declaration, cf parsing_hack.ml and the
1158 * "disable typedef cos special case ..." message.
1160 | direct_abstract_declarator topar tcpar
1161 { fun x -> $1 (mk_ty (FunctionType (x, (([], (false, []))))) [$2;$3]) }
1162 | direct_abstract_declarator topar parameter_type_list tcpar
1163 { fun x -> $1 (mk_ty (FunctionType (x, $3)) [$2;$4]) }
1165 /*(*-----------------------------------------------------------------------*)*/
1166 /*(* Parameters (use decl_spec not type_spec just for 'register') *)*/
1167 /*(*-----------------------------------------------------------------------*)*/
1168 parameter_type_list:
1169 | parameter_list { ($1, (false, []))}
1170 | parameter_list TComma TEllipsis { ($1, (true, [$2;$3])) }
1174 | decl_spec declaratorp
1175 { let ((returnType,hasreg),iihasreg) = fixDeclSpecForParam $1 in
1176 let (name, ftyp) = $2 in
1177 { p_namei = Some (name);
1178 p_type = ftyp returnType;
1179 p_register = (hasreg, iihasreg);
1182 | decl_spec abstract_declaratorp
1183 { let ((returnType,hasreg), iihasreg) = fixDeclSpecForParam $1 in
1185 p_type = $2 returnType;
1186 p_register = hasreg, iihasreg;
1190 { let ((returnType,hasreg), iihasreg) = fixDeclSpecForParam $1 in
1192 p_type = returnType;
1193 p_register = hasreg, iihasreg;
1198 /*(*----------------------------*)*/
1199 /*(* workarounds *)*/
1200 /*(*----------------------------*)*/
1202 parameter_decl: parameter_decl2 { et "param" (); $1 }
1203 | attributes parameter_decl2 { et "param" (); $2 }
1206 | declarator { LP.add_ident (str_of_name (fst $1)); $1 }
1208 | attributes declarator { LP.add_ident (str_of_name (fst $2)); $2 }
1209 | declarator attributes { LP.add_ident (str_of_name (fst $1)); $1 }
1211 abstract_declaratorp:
1212 | abstract_declarator { $1 }
1214 | attributes abstract_declarator { $2 }
1216 /*(*-----------------------------------------------------------------------*)*/
1217 /*(* helper type rules *)*/
1218 /*(*-----------------------------------------------------------------------*)*/
1220 /*(* for struct and also typename *)*/
1221 /*(* cant put decl_spec cos no storage is allowed for field struct *)*/
1223 | type_spec { addTypeD ($1, nullDecl) }
1224 | type_qualif { {nullDecl with qualifD = (fst $1,[snd $1])}}
1225 | type_spec spec_qualif_list { addTypeD ($1,$2) }
1226 | type_qualif spec_qualif_list { addQualifD ($1,$2) }
1228 spec_qualif_list: spec_qualif_list2 { dt "spec_qualif" (); $1 }
1231 /*(* for pointers in direct_declarator and abstract_declarator *)*/
1233 | type_qualif_attr { {nullDecl with qualifD = (fst $1,[snd $1])} }
1234 | type_qualif_list type_qualif_attr { addQualifD ($2,$1) }
1241 /*(*-----------------------------------------------------------------------*)*/
1242 /*(* xxx_type_id *)*/
1243 /*(*-----------------------------------------------------------------------*)*/
1247 { let (returnType, _) = fixDeclSpecForDecl $1 in returnType }
1248 | spec_qualif_list abstract_declaratort
1249 { let (returnType, _) = fixDeclSpecForDecl $1 in $2 returnType }
1253 abstract_declaratort:
1254 | abstract_declarator { $1 }
1256 | attributes abstract_declarator { $2 }
1259 /*(*************************************************************************)*/
1260 /*(* declaration and initializers *)*/
1261 /*(*************************************************************************)*/
1266 let (returnType,storage) = fixDeclSpecForDecl $1 in
1267 let iistart = Ast_c.fakeInfo () in
1268 DeclList ([{v_namei = None; v_type = returnType;
1269 v_storage = unwrap storage; v_local = local;
1270 v_attr = Ast_c.noattr;
1271 v_type_bis = ref None;
1273 ($2::iistart::snd storage))
1275 | decl_spec init_declarator_list TPtVirg
1277 let (returnType,storage) = fixDeclSpecForDecl $1 in
1278 let iistart = Ast_c.fakeInfo () in
1280 ($2 +> List.map (fun ((((name,f),attrs), ini), iivirg) ->
1281 let s = str_of_name name in
1285 | Some (ini, iini) -> Some (iini, ini)
1287 if fst (unwrap storage) =*= StoTypedef
1288 then LP.add_typedef s;
1289 {v_namei = Some (name, iniopt);
1290 v_type = f returnType;
1291 v_storage = unwrap storage;
1294 v_type_bis = ref None;
1298 ), ($3::iistart::snd storage))
1302 | TMacroDecl TOPar argument_list TCPar TPtVirg
1304 MacroDecl ((fst $1, $3), [snd $1;$2;$4;$5;fakeInfo()]) }
1305 | Tstatic TMacroDecl TOPar argument_list TCPar TPtVirg
1307 MacroDecl ((fst $2, $4), [snd $2;$3;$5;$6;fakeInfo();$1]) }
1308 | Tstatic TMacroDeclConst TMacroDecl TOPar argument_list TCPar TPtVirg
1310 MacroDecl ((fst $3, $5), [snd $3;$4;$6;$7;fakeInfo();$1;$2])}
1313 /*(*-----------------------------------------------------------------------*)*/
1315 | storage_class_spec { {nullDecl with storageD = (fst $1, [snd $1]) } }
1316 | type_spec { addTypeD ($1,nullDecl) }
1317 | type_qualif { {nullDecl with qualifD = (fst $1, [snd $1]) } }
1318 | Tinline { {nullDecl with inlineD = (true, [$1]) } }
1319 | storage_class_spec decl_spec2 { addStorageD ($1, $2) }
1320 | type_spec decl_spec2 { addTypeD ($1, $2) }
1321 | type_qualif decl_spec2 { addQualifD ($1, $2) }
1322 | Tinline decl_spec2 { addInlineD ((true, $1), $2) }
1324 /*(* can simplify by putting all in _opt ? must have at least one otherwise
1325 * decl_list is ambiguous ? (no cos have ';' between decl)
1329 storage_class_spec2:
1330 | Tstatic { Sto Static, $1 }
1331 | Textern { Sto Extern, $1 }
1332 | Tauto { Sto Auto, $1 }
1333 | Tregister { Sto Register,$1 }
1334 | Ttypedef { StoTypedef, $1 }
1338 | storage_class_spec2 { $1 }
1339 | storage_class_spec2 attribute_storage_list { $1 (* TODO *) }
1343 /*(*----------------------------*)*/
1344 /*(* workarounds *)*/
1345 /*(*----------------------------*)*/
1347 decl: decl2 { et "decl" (); $1 }
1348 decl_spec: decl_spec2 { dt "declspec" (); $1 }
1350 /*(*-----------------------------------------------------------------------*)*/
1351 /*(* declarators (right part of type and variable) *)*/
1352 /*(*-----------------------------------------------------------------------*)*/
1354 | declaratori { ($1, None) }
1355 | declaratori teq initialize { ($1, Some ($3, $2)) }
1359 /*(*----------------------------*)*/
1360 /*(* workarounds *)*/
1361 /*(*----------------------------*)*/
1362 teq: TEq { et "teq" (); $1 }
1364 init_declarator: init_declarator2 { dt "init" (); $1 }
1367 /*(*----------------------------*)*/
1369 /*(*----------------------------*)*/
1372 | declarator { LP.add_ident (str_of_name (fst $1)); $1, Ast_c.noattr }
1374 | declarator gcc_asm_decl { LP.add_ident (str_of_name (fst $1)); $1, Ast_c.noattr }
1376 | attributes declarator { LP.add_ident (str_of_name (fst $2)); $2, $1 }
1377 | declarator attributes { LP.add_ident (str_of_name (fst $1)); $1, Ast_c.noattr (* TODO *) }
1382 | Tasm TOPar asmbody TCPar { }
1383 | Tasm Tvolatile TOPar asmbody TCPar { }
1386 /*(*-----------------------------------------------------------------------*)*/
1390 | tobrace_ini initialize_list gcc_comma_opt_struct tcbrace_ini
1391 { InitList (List.rev $2), [$1;$4]++$3 }
1392 | tobrace_ini tcbrace_ini
1393 { InitList [], [$1;$2] } /*(* gccext: *)*/
1397 (* opti: This time we use the weird order of non-terminal which requires in
1398 * the "caller" to do a List.rev cos quite critical. With this weird order it
1399 * allows yacc to use a constant stack space instead of exploding if we would
1400 * do a 'initialize2 Tcomma initialize_list'.
1404 | initialize2 { [$1, []] }
1405 | initialize_list TComma initialize2 { ($3, [$2])::$1 }
1408 /*(* gccext: condexpr and no assign_expr cos can have ambiguity with comma *)*/
1412 | tobrace_ini initialize_list gcc_comma_opt_struct tcbrace_ini
1413 { InitList (List.rev $2), [$1;$4]++$3 }
1414 | tobrace_ini tcbrace_ini
1415 { InitList [], [$1;$2] }
1417 /*(* gccext: labeled elements, a.k.a designators *)*/
1418 | designator_list TEq initialize2
1419 { InitDesignators ($1, $3), [$2] }
1421 /*(* gccext: old format *)*/
1422 | ident TDotDot initialize2
1423 { InitFieldOld (fst $1, $3), [snd $1; $2] } /*(* in old kernel *)*/
1425 | TOCro const_expr TCCro initialize2
1426 { InitIndexOld ($2, $4), [$1;$3] }
1431 /*(* they can be nested, can have a .x[3].y *)*/
1434 { DesignatorField (fst $2), [$1;snd $2] }
1435 | TOCro const_expr TCCro
1436 { DesignatorIndex ($2), [$1;$3] }
1437 | TOCro const_expr TEllipsis const_expr TCCro
1438 { DesignatorRange ($2, $4), [$1;$3;$5] }
1441 /*(*----------------------------*)*/
1442 /*(* workarounds *)*/
1443 /*(*----------------------------*)*/
1445 gcc_comma_opt_struct:
1447 | /*(* empty *)*/ { [Ast_c.fakeInfo() +> Ast_c.rewrap_str ","] }
1456 /*(*************************************************************************)*/
1458 /*(*************************************************************************)*/
1461 | struct_or_union ident tobrace_struct struct_decl_list_gcc tcbrace_struct
1462 { StructUnion (fst $1, Some (fst $2), $4), [snd $1;snd $2;$3;$5] }
1463 | struct_or_union tobrace_struct struct_decl_list_gcc tcbrace_struct
1464 { StructUnion (fst $1, None, $3), [snd $1;$2;$4] }
1465 | struct_or_union ident
1466 { StructUnionName (fst $1, fst $2), [snd $1;snd $2] }
1469 | Tstruct { Struct, $1 }
1470 | Tunion { Union, $1 }
1472 | Tstruct attributes { Struct, $1 (* TODO *) }
1473 | Tunion attributes { Union, $1 (* TODO *) }
1478 | field_declaration { DeclarationField $1 }
1479 | TPtVirg { EmptyField $1 }
1481 /*(* no conflict ? no need for a TMacroStruct ? apparently not as at struct
1482 * the rule are slightly different.
1484 | identifier TOPar argument_list TCPar TPtVirg
1485 { MacroDeclField ((fst $1, $3), [snd $1;$2;$4;$5;fakeInfo()]) }
1489 { CppDirectiveStruct $1 }
1490 | cpp_ifdef_directive/*(* struct_decl_list ... *)*/
1495 | spec_qualif_list struct_declarator_list TPtVirg
1497 let (returnType,storage) = fixDeclSpecForDecl $1 in
1498 if fst (unwrap storage) <> NoSto
1499 then internal_error "parsing dont allow this";
1501 FieldDeclList ($2 +> (List.map (fun (f, iivirg) ->
1502 f returnType, iivirg))
1504 (* dont need to check if typedef or func initialised cos
1505 * grammar dont allow typedef nor initialiser in struct
1509 | spec_qualif_list TPtVirg
1511 (* gccext: allow empty elements if it is a structdef or enumdef *)
1512 let (returnType,storage) = fixDeclSpecForDecl $1 in
1513 if fst (unwrap storage) <> NoSto
1514 then internal_error "parsing dont allow this";
1516 FieldDeclList ([(Simple (None, returnType)) , []], [$2])
1525 { (fun x -> Simple (Some (fst $1), (snd $1) x)) }
1526 | dotdot const_expr2
1527 { (fun x -> BitField (None, x, $1, $2)) }
1528 | declaratorsd dotdot const_expr2
1529 { (fun x -> BitField (Some (fst $1), ((snd $1) x), $2, $3)) }
1532 /*(*----------------------------*)*/
1533 /*(* workarounds *)*/
1534 /*(*----------------------------*)*/
1536 | declarator { (*also ? LP.add_ident (fst (fst $1)); *) $1 }
1538 | attributes declarator { $2 }
1539 | declarator attributes { $1 }
1544 struct_or_union_spec: s_or_u_spec2 { dt "su" (); $1 }
1545 struct_or_union: struct_or_union2 { et "su" (); $1 }
1546 struct_decl: struct_decl2 { et "struct" (); $1 }
1548 dotdot: TDotDot { et "dotdot" (); $1 }
1549 const_expr2: const_expr { dt "const_expr2" (); $1 }
1551 struct_decl_list_gcc:
1552 | struct_decl_list { $1 }
1553 | /*(* empty *)*/ { [] } /*(* gccext: allow empty struct *)*/
1556 /*(*************************************************************************)*/
1558 /*(*************************************************************************)*/
1560 | Tenum tobrace_enum enumerator_list gcc_comma_opt tcbrace_enum
1561 { Enum (None, $3), [$1;$2;$5] ++ $4 }
1562 | Tenum ident tobrace_enum enumerator_list gcc_comma_opt tcbrace_enum
1563 { Enum (Some (fst $2), $4), [$1; snd $2; $3;$6] ++ $5 }
1565 { EnumName (fst $2), [$1; snd $2] }
1568 | idente { $1, None }
1569 | idente TEq const_expr { $1, Some ($2, $3) }
1572 /*(*----------------------------*)*/
1573 /*(* workarounds *)*/
1574 /*(*----------------------------*)*/
1576 idente: ident_cpp { LP.add_ident (str_of_name $1); $1 }
1580 /*(*************************************************************************)*/
1582 /*(*************************************************************************)*/
1583 function_definition: function_def { fixFunc $1 }
1586 | decl { [$1 Ast_c.LocalDecl] }
1587 | decl_list decl { $1 ++ [$2 Ast_c.LocalDecl] }
1589 /* hack : to drop when a better solution is found */
1592 | cpp_directive_list cpp_directive { }
1595 | start_fun compound { LP.del_scope(); ($1, $2, None) }
1596 | start_fun cpp_directive_list compound { LP.del_scope(); ($1, $3, None) }
1597 | start_fun decl_list compound {
1598 (* TODO: undo the typedef added ? *)
1603 start_fun: start_fun2
1605 fix_add_params_ident $1;
1606 (* toreput? !LP._lexer_hint.toplevel <- false; *)
1610 start_fun2: decl_spec declaratorfd
1611 { let (returnType,storage) = fixDeclSpecForFuncDef $1 in
1612 let (id, attrs) = $2 in
1613 (fst id, fixOldCDecl ((snd id) returnType) , storage, attrs)
1616 /*(*----------------------------*)*/
1617 /*(* workarounds *)*/
1618 /*(*----------------------------*)*/
1620 /* It would be very nice if we could make declarator aware that this is
1621 coming from a function definition. Then on the ( and ) cases, it could
1622 set the state to something other than InParameter. Then the case
1623 (TIdent (s, i1)::(TComma _|TCPar _)::_ , (TComma _ |TOPar _)::_ )
1624 in parsing_hacks.ml would not have to consider K&R variable declarations
1625 as typedefs. Unfortunately, doing something about this problem seems to
1626 introduce conflicts in the parser. */
1629 | declarator { et "declaratorfd" (); $1, Ast_c.noattr }
1631 | attributes declarator { et "declaratorfd" (); $2, $1 }
1632 | declarator attributes { et "declaratorfd" (); $1, Ast_c.noattr }
1636 /*(*************************************************************************)*/
1637 /*(* cpp directives *)*/
1638 /*(*************************************************************************)*/
1641 | TIncludeStart TIncludeFilename
1643 let (i1, in_ifdef) = $1 in
1646 (* redo some lexing work :( *)
1649 | _ when s =~ "^\"\\(.*\\)\"$" ->
1650 Local (Common.split "/" (matched1 s))
1651 | _ when s =~ "^\\<\\(.*\\)\\>$" ->
1652 NonLocal (Common.split "/" (matched1 s))
1656 Include { i_include = (inc_file, [i1;i2]);
1657 i_rel_pos = Ast_c.noRelPos();
1658 i_is_in_ifdef = !in_ifdef;
1659 i_content = Ast_c.noi_content;
1663 | TDefine TIdentDefine define_val TDefEOL
1664 { Define ((fst $2, [$1; snd $2;$4]), (DefineVar, $3)) }
1667 (* The TOParDefine is introduced to avoid ambiguity with previous rules.
1668 * A TOParDefine is a TOPar that was just next to the ident.
1670 | TDefine TIdentDefine TOParDefine param_define_list TCPar define_val TDefEOL
1672 ((fst $2, [$1; snd $2;$7]),
1673 (DefineFunc ($4, [$3;$5]), $6))
1676 | TUndef { Undef (fst $1, [snd $1]) }
1677 | TCppDirectiveOther { PragmaAndCo ([$1]) }
1683 /*(* perhaps better to use assign_expr ? but in that case need
1684 * do a assign_expr_of_string in parse_c
1687 | expr { DefineExpr $1 }
1688 | statement { DefineStmt $1 }
1689 | decl { DefineStmt (mk_st (Decl ($1 Ast_c.NotLocalDecl)) Ast_c.noii) }
1692 * | TypedefIdent { DefineType (nQ,(TypeName(fst $1,noTypedefDef()),[snd $1]))}
1694 * | spec_qualif_list TMul
1695 * { let (returnType, _) = fixDeclSpecForDecl $1 in DefineType returnType }
1699 { let returnType = fixDeclSpecForMacro $1 in
1700 DefineType returnType
1702 | decl_spec abstract_declarator
1703 { let returnType = fixDeclSpecForMacro $1 in
1704 let typ = $2 returnType in
1708 /* can be in conflict with decl_spec, maybe change fixDeclSpecForMacro
1709 * to also allow storage ?
1710 | storage_class_spec { DefineTodo }
1711 | Tinline { DefineTodo }
1714 /*(* a few special cases *)*/
1715 | stat_or_decl stat_or_decl_list { DefineTodo }
1717 | statement statement { DefineTodo }
1718 | decl function_definition { DefineTodo }
1724 | function_definition { DefineFunction $1 }
1726 | TOBraceDefineInit initialize_list gcc_comma_opt_struct TCBrace comma_opt
1727 { DefineInit (InitList (List.rev $2), [$1;$4]++$3++$5) }
1729 /*(* note: had a conflict before when were putting TInt instead of expr *)*/
1730 | Tdo statement Twhile TOPar expr TCPar
1734 then pr2 "WEIRD: in macro and have not a while(0)";
1736 DefineDoWhileZero (($2,$5), [$1;$3;$4;$6])
1739 | Tasm TOPar asmbody TCPar { DefineTodo }
1740 | Tasm Tvolatile TOPar asmbody TCPar { DefineTodo }
1742 /*(* aliases macro *)*/
1743 | TMacroAttr { DefineTodo }
1745 | /*(* empty *)*/ { DefineEmpty }
1751 | TIdent { mk_string_wrap $1 }
1752 | TypedefIdent { mk_string_wrap $1 }
1753 | TDefParamVariadic { mk_string_wrap $1 }
1754 | TEllipsis { "...", [$1] }
1755 /*(* they reuse keywords :( *)*/
1756 | Tregister { "register", [$1] }
1761 cpp_ifdef_directive:
1763 { let (tag,ii) = $1 in
1764 IfdefDirective ((Ifdef, IfdefTag (Common.some !tag)), [ii]) }
1766 { let (tag,ii) = $1 in
1767 IfdefDirective ((IfdefElse, IfdefTag (Common.some !tag)), [ii]) }
1769 { let (tag,ii) = $1 in
1770 IfdefDirective ((IfdefElseif, IfdefTag (Common.some !tag)), [ii]) }
1772 { let (tag,ii) = $1 in
1773 IfdefDirective ((IfdefEndif, IfdefTag (Common.some !tag)), [ii]) }
1776 { let (_b, tag,ii) = $1 in
1777 IfdefDirective ((Ifdef, IfdefTag (Common.some !tag)), [ii]) }
1779 { let (_b, tag,ii) = $1 in
1780 IfdefDirective ((Ifdef, IfdefTag (Common.some !tag)), [ii]) }
1782 { let (_b, tag,ii) = $1 in
1783 IfdefDirective ((Ifdef, IfdefTag (Common.some !tag)), [ii]) }
1788 /*(* no conflict ? no need for a TMacroTop ? apparently not as at toplevel
1789 * the rule are slightly different, they cant be statement and so expr
1790 * at the top, only decl or function definition.
1792 | identifier TOPar argument_list TCPar TPtVirg
1794 Declaration (MacroDecl ((fst $1, $3), [snd $1;$2;$4;$5;fakeInfo()]))
1795 (* old: MacroTop (fst $1, $3, [snd $1;$2;$4;$5]) *)
1798 /*(* TCParEOL to fix the end-of-stream bug of ocamlyacc *)*/
1799 | identifier TOPar argument_list TCParEOL
1800 { MacroTop (fst $1, $3, [snd $1;$2;$4;fakeInfo()]) }
1802 /*(* ex: EXPORT_NO_SYMBOLS; *)*/
1803 | identifier TPtVirg { EmptyDef [snd $1;$2] }
1807 /*(*************************************************************************)*/
1809 /*(*************************************************************************)*/
1811 external_declaration:
1812 | function_definition { Definition $1 }
1813 | decl { Declaration ($1 Ast_c.NotLocalDecl) }
1817 | external_declaration { $1 }
1824 | cpp_ifdef_directive /* (*external_declaration_list ...*)*/
1827 /*(* can have asm declaration at toplevel *)*/
1828 | Tasm TOPar asmbody TCPar TPtVirg { EmptyDef [$1;$2;$4;$5] }
1831 (* in ~/kernels/src/linux-2.5.2/drivers/isdn/hisax/isdnl3.c sometimes
1832 * the function ends with }; instead of just }
1833 * can also remove this rule and report "parse error" pb to morton
1835 | TPtVirg { EmptyDef [$1] }
1838 | EOF { FinalDef $1 }
1843 /*(*************************************************************************)*/
1844 /*(* some generic workarounds *)*/
1845 /*(*************************************************************************)*/
1847 tobrace: TOBrace { LP.push_context LP.InFunction; LP.new_scope (); $1 }
1848 tcbrace: TCBrace { LP.pop_context(); LP.del_scope (); $1 }
1850 tobrace_enum: TOBrace { LP.push_context LP.InEnum; $1 }
1851 tcbrace_enum: TCBrace { LP.pop_context (); $1 }
1853 tobrace_ini: TOBrace { LP.push_context LP.InInitializer; $1 }
1854 tcbrace_ini: TCBrace { LP.pop_context (); $1 }
1856 tobrace_struct: TOBrace { LP.push_context LP.InStruct; $1}
1857 tcbrace_struct: TCBrace { LP.pop_context (); $1 }
1863 { LP.new_scope ();et "topar" ();
1864 LP.push_context LP.InParameter;
1868 { LP.del_scope ();dt "tcpar" ();
1876 /*(*************************************************************************)*/
1877 /*(* xxx_list, xxx_opt *)*/
1878 /*(*************************************************************************)*/
1884 | statement_list { ([], $1) }
1885 | decl_list { ($1, []) }
1886 | decl_list statement_list { ($1,$2) }
1888 statement_list: stat_or_decl_list { $1 }
1895 | decl_list decl { $1 ++ [$2] }
1898 | statement { [$1] }
1899 | statement_list statement { $1 ++ [$2] }
1907 | string_elem { $1 }
1908 | string_list string_elem { $1 ++ $2 }
1911 | colon_asm { [$1] }
1912 | colon_asm_list colon_asm { $1 ++ [$2] }
1915 | colon_option { [$1, []] }
1916 | colon_option_list TComma colon_option { $1 ++ [$3, [$2]] }
1920 | argument_ne { [$1, []] }
1921 | argument_list_ne TComma argument { $1 ++ [$3, [$2]] }
1924 | argument { [$1, []] }
1925 | argument_list TComma argument { $1 ++ [$3, [$2]] }
1929 | assign_expr { [$1, []] }
1930 | expression_list TComma assign_expr { $1 ++ [$3, [$2]] }
1935 | struct_decl { [$1] }
1936 | struct_decl_list struct_decl { $1 ++ [$2] }
1939 struct_declarator_list:
1940 | struct_declarator { [$1, []] }
1941 | struct_declarator_list TComma struct_declarator { $1 ++ [$3, [$2]] }
1945 | enumerator { [$1, []] }
1946 | enumerator_list TComma enumerator { $1 ++ [$3, [$2]] }
1949 init_declarator_list:
1950 | init_declarator { [$1, []] }
1951 | init_declarator_list TComma init_declarator { $1 ++ [$3, [$2]] }
1955 | parameter_decl { [$1, []] }
1956 | parameter_list TComma parameter_decl { $1 ++ [$3, [$2]] }
1960 | TAction taction_list_ne { $1 :: $2 }
1963 /*old: was generating conflict, hence now taction_list_ne
1964 | (* empty *) { [] }
1966 | taction_list TAction { $1 ++ [$2] }
1969 | TAction taction_list { $1 :: $2 }
1972 | /*(* empty *)*/ { [] }
1973 | param_define { [$1, []] }
1974 | param_define_list TComma param_define { $1 ++ [$3, [$2]] }
1977 | designator { [$1] }
1978 | designator_list designator { $1 ++ [$2] }
1981 | attribute { [$1] }
1982 | attribute_list attribute { $1 ++ [$2] }
1984 attribute_storage_list:
1985 | attribute_storage { [$1] }
1986 | attribute_storage_list attribute_storage { $1 ++ [$2] }
1989 attributes: attribute_list { $1 }
1993 /*(* gccext: which allow a trailing ',' in enum, as in perl *)*/
1996 | /*(* empty *)*/ { [] }
2000 | /*(* empty *)*/ { [] }
2010 | /*(* empty *)*/ { None }
2021 | /*(* empty *)*/ { None }