[net-next-2.6.git] / scripts / genksyms / parse.y

/* C global declaration parser for genksyms.
   Copyright 1996, 1997 Linux International.

   New implementation contributed by Richard Henderson <rth@tamu.edu>
   Based on original work by Bjorn Ekwall <bj0rn@blox.se>

   This file is part of the Linux modutils.

   This program is free software; you can redistribute it and/or modify it
   under the terms of the GNU General Public License as published by the
   Free Software Foundation; either version 2 of the License, or (at your
   option) any later version.

   This program 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
   General Public License for more details.

   You should have received a copy of the GNU General Public License
   along with this program; if not, write to the Free Software Foundation,
   Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.  */


%{

#include <assert.h>
#include <malloc.h>
#include "genksyms.h"

static int is_typedef;
static int is_extern;
static char *current_name;
static struct string_list *decl_spec;

static void yyerror(const char *);

static inline void
remove_node(struct string_list **p)
{
  struct string_list *node = *p;
  *p = node->next;
  free_node(node);
}

static inline void
remove_list(struct string_list **pb, struct string_list **pe)
{
  struct string_list *b = *pb, *e = *pe;
  *pb = e;
  free_list(b, e);
}

%}

%token ASM_KEYW
%token ATTRIBUTE_KEYW
%token AUTO_KEYW
%token BOOL_KEYW
%token CHAR_KEYW
%token CONST_KEYW
%token DOUBLE_KEYW
%token ENUM_KEYW
%token EXTERN_KEYW
%token FLOAT_KEYW
%token INLINE_KEYW
%token INT_KEYW
%token LONG_KEYW
%token REGISTER_KEYW
%token RESTRICT_KEYW
%token SHORT_KEYW
%token SIGNED_KEYW
%token STATIC_KEYW
%token STRUCT_KEYW
%token TYPEDEF_KEYW
%token UNION_KEYW
%token UNSIGNED_KEYW
%token VOID_KEYW
%token VOLATILE_KEYW
%token TYPEOF_KEYW

%token EXPORT_SYMBOL_KEYW

%token ASM_PHRASE
%token ATTRIBUTE_PHRASE
%token BRACE_PHRASE
%token BRACKET_PHRASE
%token EXPRESSION_PHRASE

%token CHAR
%token DOTS
%token IDENT
%token INT
%token REAL
%token STRING
%token TYPE
%token OTHER
%token FILENAME

%%

declaration_seq:
	declaration
	| declaration_seq declaration
	;

declaration:
	{ is_typedef = 0; is_extern = 0; current_name = NULL; decl_spec = NULL; }
	declaration1
	{ free_list(*$2, NULL); *$2 = NULL; }
	;

declaration1:
	TYPEDEF_KEYW { is_typedef = 1; } simple_declaration
		{ $$ = $3; }
	| simple_declaration
	| function_definition
	| asm_definition
	| export_definition
	| error ';'				{ $$ = $2; }
	| error '}'				{ $$ = $2; }
	;

simple_declaration:
	decl_specifier_seq_opt init_declarator_list_opt ';'
		{ if (current_name) {
		    struct string_list *decl = (*$3)->next;
		    (*$3)->next = NULL;
		    add_symbol(current_name,
			       is_typedef ? SYM_TYPEDEF : SYM_NORMAL,
			       decl, is_extern);
		    current_name = NULL;
		  }
		  $$ = $3;
		}
	;

init_declarator_list_opt:
	/* empty */				{ $$ = NULL; }
	| init_declarator_list
	;

init_declarator_list:
	init_declarator
		{ struct string_list *decl = *$1;
		  *$1 = NULL;
		  add_symbol(current_name,
			     is_typedef ? SYM_TYPEDEF : SYM_NORMAL, decl, is_extern);
		  current_name = NULL;
		  $$ = $1;
		}
	| init_declarator_list ',' init_declarator
		{ struct string_list *decl = *$3;
		  *$3 = NULL;
		  free_list(*$2, NULL);
		  *$2 = decl_spec;
		  add_symbol(current_name,
			     is_typedef ? SYM_TYPEDEF : SYM_NORMAL, decl, is_extern);
		  current_name = NULL;
		  $$ = $3;
		}
	;

init_declarator:
	declarator asm_phrase_opt attribute_opt initializer_opt
		{ $$ = $4 ? $4 : $3 ? $3 : $2 ? $2 : $1; }
	;

/* Hang on to the specifiers so that we can reuse them.  */
decl_specifier_seq_opt:
	/* empty */				{ decl_spec = NULL; }
	| decl_specifier_seq
	;

decl_specifier_seq:
	decl_specifier				{ decl_spec = *$1; }
	| decl_specifier_seq decl_specifier	{ decl_spec = *$2; }
	;

decl_specifier:
	storage_class_specifier
		{ /* Version 2 checksumming ignores storage class, as that
		     is really irrelevant to the linkage.  */
		  remove_node($1);
		  $$ = $1;
		}
	| type_specifier
	;

storage_class_specifier:
	AUTO_KEYW
	| REGISTER_KEYW
	| STATIC_KEYW
	| EXTERN_KEYW	{ is_extern = 1; $$ = $1; }
	| INLINE_KEYW	{ is_extern = 0; $$ = $1; }
	;

type_specifier:
	simple_type_specifier
	| cvar_qualifier
	| TYPEOF_KEYW '(' decl_specifier_seq '*' ')'
	| TYPEOF_KEYW '(' decl_specifier_seq ')'

	/* References to s/u/e's defined elsewhere.  Rearrange things
	   so that it is easier to expand the definition fully later.  */
	| STRUCT_KEYW IDENT
		{ remove_node($1); (*$2)->tag = SYM_STRUCT; $$ = $2; }
	| UNION_KEYW IDENT
		{ remove_node($1); (*$2)->tag = SYM_UNION; $$ = $2; }
	| ENUM_KEYW IDENT
		{ remove_node($1); (*$2)->tag = SYM_ENUM; $$ = $2; }

	/* Full definitions of an s/u/e.  Record it.  */
	| STRUCT_KEYW IDENT class_body
		{ struct string_list *s = *$3, *i = *$2, *r;
		  r = copy_node(i); r->tag = SYM_STRUCT;
		  r->next = (*$1)->next; *$3 = r; (*$1)->next = NULL;
		  add_symbol(i->string, SYM_STRUCT, s, is_extern);
		  $$ = $3;
		}
	| UNION_KEYW IDENT class_body
		{ struct string_list *s = *$3, *i = *$2, *r;
		  r = copy_node(i); r->tag = SYM_UNION;
		  r->next = (*$1)->next; *$3 = r; (*$1)->next = NULL;
		  add_symbol(i->string, SYM_UNION, s, is_extern);
		  $$ = $3;
		}
	| ENUM_KEYW IDENT BRACE_PHRASE
		{ struct string_list *s = *$3, *i = *$2, *r;
		  r = copy_node(i); r->tag = SYM_ENUM;
		  r->next = (*$1)->next; *$3 = r; (*$1)->next = NULL;
		  add_symbol(i->string, SYM_ENUM, s, is_extern);
		  $$ = $3;
		}

	/* Anonymous s/u/e definitions.  Nothing needs doing.  */
	| ENUM_KEYW BRACE_PHRASE			{ $$ = $2; }
	| STRUCT_KEYW class_body			{ $$ = $2; }
	| UNION_KEYW class_body				{ $$ = $2; }
	;

simple_type_specifier:
	CHAR_KEYW
	| SHORT_KEYW
	| INT_KEYW
	| LONG_KEYW
	| SIGNED_KEYW
	| UNSIGNED_KEYW
	| FLOAT_KEYW
	| DOUBLE_KEYW
	| VOID_KEYW
	| BOOL_KEYW
	| TYPE			{ (*$1)->tag = SYM_TYPEDEF; $$ = $1; }
	;

ptr_operator:
	'*' cvar_qualifier_seq_opt
		{ $$ = $2 ? $2 : $1; }
	;

cvar_qualifier_seq_opt:
	/* empty */					{ $$ = NULL; }
	| cvar_qualifier_seq
	;

cvar_qualifier_seq:
	cvar_qualifier
	| cvar_qualifier_seq cvar_qualifier		{ $$ = $2; }
	;

cvar_qualifier:
	CONST_KEYW | VOLATILE_KEYW | ATTRIBUTE_PHRASE
	| RESTRICT_KEYW
		{ /* restrict has no effect in prototypes so ignore it */
		  remove_node($1);
		  $$ = $1;
		}
	;

declarator:
	ptr_operator declarator			{ $$ = $2; }
	| direct_declarator
	;

direct_declarator:
	IDENT
		{ if (current_name != NULL) {
		    error_with_pos("unexpected second declaration name");
		    YYERROR;
		  } else {
		    current_name = (*$1)->string;
		    $$ = $1;
		  }
		}
	| direct_declarator '(' parameter_declaration_clause ')'
		{ $$ = $4; }
	| direct_declarator '(' error ')'
		{ $$ = $4; }
	| direct_declarator BRACKET_PHRASE
		{ $$ = $2; }
	| '(' declarator ')'
		{ $$ = $3; }
	| '(' error ')'
		{ $$ = $3; }
	;

/* Nested declarators differ from regular declarators in that they do
   not record the symbols they find in the global symbol table.  */
nested_declarator:
	ptr_operator nested_declarator		{ $$ = $2; }
	| direct_nested_declarator
	;

direct_nested_declarator:
	IDENT
	| TYPE
	| direct_nested_declarator '(' parameter_declaration_clause ')'
		{ $$ = $4; }
	| direct_nested_declarator '(' error ')'
		{ $$ = $4; }
	| direct_nested_declarator BRACKET_PHRASE
		{ $$ = $2; }
	| '(' nested_declarator ')'
		{ $$ = $3; }
	| '(' error ')'
		{ $$ = $3; }
	;

parameter_declaration_clause:
	parameter_declaration_list_opt DOTS		{ $$ = $2; }
	| parameter_declaration_list_opt
	| parameter_declaration_list ',' DOTS		{ $$ = $3; }
	;

parameter_declaration_list_opt:
	/* empty */					{ $$ = NULL; }
	| parameter_declaration_list
	;

parameter_declaration_list:
	parameter_declaration
	| parameter_declaration_list ',' parameter_declaration
		{ $$ = $3; }
	;

parameter_declaration:
	decl_specifier_seq m_abstract_declarator
		{ $$ = $2 ? $2 : $1; }
	;

m_abstract_declarator:
	ptr_operator m_abstract_declarator
		{ $$ = $2 ? $2 : $1; }
	| direct_m_abstract_declarator
	;

direct_m_abstract_declarator:
	/* empty */					{ $$ = NULL; }
	| IDENT
		{ /* For version 2 checksums, we don't want to remember
		     private parameter names.  */
		  remove_node($1);
		  $$ = $1;
		}
	/* This wasn't really a typedef name but an identifier that
	   shadows one.  */
	| TYPE
		{ remove_node($1);
		  $$ = $1;
		}
	| direct_m_abstract_declarator '(' parameter_declaration_clause ')'
		{ $$ = $4; }
	| direct_m_abstract_declarator '(' error ')'
		{ $$ = $4; }
	| direct_m_abstract_declarator BRACKET_PHRASE
		{ $$ = $2; }
	| '(' m_abstract_declarator ')'
		{ $$ = $3; }
	| '(' error ')'
		{ $$ = $3; }
	;

function_definition:
	decl_specifier_seq_opt declarator BRACE_PHRASE
		{ struct string_list *decl = *$2;
		  *$2 = NULL;
		  add_symbol(current_name, SYM_NORMAL, decl, is_extern);
		  $$ = $3;
		}
	;

initializer_opt:
	/* empty */					{ $$ = NULL; }
	| initializer
	;

/* We never care about the contents of an initializer.  */
initializer:
	'=' EXPRESSION_PHRASE
		{ remove_list($2, &(*$1)->next); $$ = $2; }
	;

class_body:
	'{' member_specification_opt '}'		{ $$ = $3; }
	| '{' error '}'					{ $$ = $3; }
	;

member_specification_opt:
	/* empty */					{ $$ = NULL; }
	| member_specification
	;

member_specification:
	member_declaration
	| member_specification member_declaration	{ $$ = $2; }
	;

member_declaration:
	decl_specifier_seq_opt member_declarator_list_opt ';'
		{ $$ = $3; }
	| error ';'
		{ $$ = $2; }
	;

member_declarator_list_opt:
	/* empty */					{ $$ = NULL; }
	| member_declarator_list
	;

member_declarator_list:
	member_declarator
	| member_declarator_list ',' member_declarator	{ $$ = $3; }
	;

member_declarator:
	nested_declarator attribute_opt			{ $$ = $2 ? $2 : $1; }
	| IDENT member_bitfield_declarator		{ $$ = $2; }
	| member_bitfield_declarator
	;

member_bitfield_declarator:
	':' EXPRESSION_PHRASE				{ $$ = $2; }
	;

attribute_opt:
	/* empty */					{ $$ = NULL; }
	| ATTRIBUTE_PHRASE
	;

asm_definition:
	ASM_PHRASE ';'					{ $$ = $2; }
	;

asm_phrase_opt:
	/* empty */					{ $$ = NULL; }
	| ASM_PHRASE
	;

export_definition:
	EXPORT_SYMBOL_KEYW '(' IDENT ')' ';'
		{ export_symbol((*$3)->string); $$ = $5; }
	;


%%

static void
yyerror(const char *e)
{
  error_with_pos("%s", e);
}
Commit	Line	Data
1da177e4 LT	1	/* C global declaration parser for genksyms.
	2	Copyright 1996, 1997 Linux International.
	3
	4	New implementation contributed by Richard Henderson <rth@tamu.edu>
	5	Based on original work by Bjorn Ekwall <bj0rn@blox.se>
	6
	7	This file is part of the Linux modutils.
	8
	9	This program is free software; you can redistribute it and/or modify it
	10	under the terms of the GNU General Public License as published by the
	11	Free Software Foundation; either version 2 of the License, or (at your
	12	option) any later version.
	13
	14	This program is distributed in the hope that it will be useful, but
	15	WITHOUT ANY WARRANTY; without even the implied warranty of
	16	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	17	General Public License for more details.
	18
	19	You should have received a copy of the GNU General Public License
	20	along with this program; if not, write to the Free Software Foundation,
	21	Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */
	22
	23
	24	%{
	25
	26	#include <assert.h>
	27	#include <malloc.h>
	28	#include "genksyms.h"
	29
	30	static int is_typedef;
	31	static int is_extern;
	32	static char *current_name;
	33	static struct string_list *decl_spec;
	34
	35	static void yyerror(const char *);
	36
	37	static inline void
	38	remove_node(struct string_list **p)
	39	{
	40	struct string_list node = p;
	41	*p = node->next;
	42	free_node(node);
	43	}
	44
	45	static inline void
	46	remove_list(struct string_list pb, struct string_list pe)
	47	{
	48	struct string_list b = pb, e = pe;
	49	*pb = e;
	50	free_list(b, e);
	51	}
	52
	53	%}
	54
	55	%token ASM_KEYW
	56	%token ATTRIBUTE_KEYW
	57	%token AUTO_KEYW
	58	%token BOOL_KEYW
	59	%token CHAR_KEYW
	60	%token CONST_KEYW
	61	%token DOUBLE_KEYW
	62	%token ENUM_KEYW
	63	%token EXTERN_KEYW
	64	%token FLOAT_KEYW
65	%token INLINE_KEYW
66	%token INT_KEYW
67	%token LONG_KEYW
68	%token REGISTER_KEYW
69	%token RESTRICT_KEYW
70	%token SHORT_KEYW
71	%token SIGNED_KEYW
72	%token STATIC_KEYW
73	%token STRUCT_KEYW
74	%token TYPEDEF_KEYW
75	%token UNION_KEYW
76	%token UNSIGNED_KEYW
77	%token VOID_KEYW
78	%token VOLATILE_KEYW
79	%token TYPEOF_KEYW
80
81	%token EXPORT_SYMBOL_KEYW
82
83	%token ASM_PHRASE
84	%token ATTRIBUTE_PHRASE
85	%token BRACE_PHRASE
86	%token BRACKET_PHRASE
87	%token EXPRESSION_PHRASE
88
89	%token CHAR
90	%token DOTS
91	%token IDENT
92	%token INT
93	%token REAL
94	%token STRING
95	%token TYPE
96	%token OTHER
97	%token FILENAME
98
99	%%
100
101	declaration_seq:
102	declaration
103	\| declaration_seq declaration
104	;
105
106	declaration:
107	{ is_typedef = 0; is_extern = 0; current_name = NULL; decl_spec = NULL; }
108	declaration1
109	{ free_list($2, NULL); $2 = NULL; }
110	;
111
112	declaration1:
113	TYPEDEF_KEYW { is_typedef = 1; } simple_declaration
114	{ $$ = $3; }
115	\| simple_declaration
116	\| function_definition
117	\| asm_definition
118	\| export_definition
119	\| error ';' { $$ = $2; }
120	\| error '}' { $$ = $2; }
121	;
122
123	simple_declaration:
124	decl_specifier_seq_opt init_declarator_list_opt ';'
125	{ if (current_name) {
126	struct string_list decl = ($3)->next;
127	(*$3)->next = NULL;
128	add_symbol(current_name,
129	is_typedef ? SYM_TYPEDEF : SYM_NORMAL,
130	decl, is_extern);
131	current_name = NULL;
132	}
133	$$ = $3;
134	}
135	;
136
137	init_declarator_list_opt:
138	/* empty */ { $$ = NULL; }
139	\| init_declarator_list
140	;
141
142	init_declarator_list:
143	init_declarator
144	{ struct string_list decl = $1;
145	*$1 = NULL;
146	add_symbol(current_name,
147	is_typedef ? SYM_TYPEDEF : SYM_NORMAL, decl, is_extern);
148	current_name = NULL;
149	$$ = $1;
150	}
151	\| init_declarator_list ',' init_declarator
152	{ struct string_list decl = $3;
153	*$3 = NULL;
154	free_list(*$2, NULL);
155	*$2 = decl_spec;
156	add_symbol(current_name,
157	is_typedef ? SYM_TYPEDEF : SYM_NORMAL, decl, is_extern);
158	current_name = NULL;
159	$$ = $3;
160	}
161	;
162
163	init_declarator:
164	declarator asm_phrase_opt attribute_opt initializer_opt
165	{ $$ = $4 ? $4 : $3 ? $3 : $2 ? $2 : $1; }
166	;
167
168	/* Hang on to the specifiers so that we can reuse them. */
169	decl_specifier_seq_opt:
170	/* empty */ { decl_spec = NULL; }
171	\| decl_specifier_seq
172	;
173
174	decl_specifier_seq:
175	decl_specifier { decl_spec = *$1; }
176	\| decl_specifier_seq decl_specifier { decl_spec = *$2; }
177	;
178
179	decl_specifier:
180	storage_class_specifier
181	{ /* Version 2 checksumming ignores storage class, as that
182	is really irrelevant to the linkage. */
183	remove_node($1);
184	$$ = $1;
185	}
186	\| type_specifier
187	;
188
189	storage_class_specifier:
190	AUTO_KEYW
191	\| REGISTER_KEYW
192	\| STATIC_KEYW
193	\| EXTERN_KEYW { is_extern = 1; $$ = $1; }
194	\| INLINE_KEYW { is_extern = 0; $$ = $1; }
195	;
196
197	type_specifier:
198	simple_type_specifier
199	\| cvar_qualifier
a89a0a23	200	\| TYPEOF_KEYW '(' decl_specifier_seq '*' ')'
1da177e4 LT	201	\| TYPEOF_KEYW '(' decl_specifier_seq ')'
	202
	203	/* References to s/u/e's defined elsewhere. Rearrange things
	204	so that it is easier to expand the definition fully later. */
	205	\| STRUCT_KEYW IDENT
	206	{ remove_node($1); (*$2)->tag = SYM_STRUCT; $$ = $2; }
	207	\| UNION_KEYW IDENT
	208	{ remove_node($1); (*$2)->tag = SYM_UNION; $$ = $2; }
	209	\| ENUM_KEYW IDENT
	210	{ remove_node($1); (*$2)->tag = SYM_ENUM; $$ = $2; }
	211
	212	/* Full definitions of an s/u/e. Record it. */
	213	\| STRUCT_KEYW IDENT class_body
	214	{ struct string_list s = $3, i = $2, *r;
	215	r = copy_node(i); r->tag = SYM_STRUCT;
	216	r->next = ($1)->next; $3 = r; (*$1)->next = NULL;
	217	add_symbol(i->string, SYM_STRUCT, s, is_extern);
	218	$$ = $3;
	219	}
	220	\| UNION_KEYW IDENT class_body
	221	{ struct string_list s = $3, i = $2, *r;
	222	r = copy_node(i); r->tag = SYM_UNION;
	223	r->next = ($1)->next; $3 = r; (*$1)->next = NULL;
	224	add_symbol(i->string, SYM_UNION, s, is_extern);
	225	$$ = $3;
	226	}
	227	\| ENUM_KEYW IDENT BRACE_PHRASE
	228	{ struct string_list s = $3, i = $2, *r;
	229	r = copy_node(i); r->tag = SYM_ENUM;
	230	r->next = ($1)->next; $3 = r; (*$1)->next = NULL;
	231	add_symbol(i->string, SYM_ENUM, s, is_extern);
	232	$$ = $3;
	233	}
	234
	235	/* Anonymous s/u/e definitions. Nothing needs doing. */
	236	\| ENUM_KEYW BRACE_PHRASE { $$ = $2; }
	237	\| STRUCT_KEYW class_body { $$ = $2; }
	238	\| UNION_KEYW class_body { $$ = $2; }
	239	;
	240
	241	simple_type_specifier:
	242	CHAR_KEYW
	243	\| SHORT_KEYW
	244	\| INT_KEYW
	245	\| LONG_KEYW
	246	\| SIGNED_KEYW
	247	\| UNSIGNED_KEYW
	248	\| FLOAT_KEYW
	249	\| DOUBLE_KEYW
	250	\| VOID_KEYW
	251	\| BOOL_KEYW
	252	\| TYPE { (*$1)->tag = SYM_TYPEDEF; $$ = $1; }
	253	;
	254
	255	ptr_operator:
	256	'*' cvar_qualifier_seq_opt
	257	{ $$ = $2 ? $2 : $1; }
	258	;
	259
	260	cvar_qualifier_seq_opt:
	261	/* empty */ { $$ = NULL; }
	262	\| cvar_qualifier_seq
	263	;
	264
265	cvar_qualifier_seq:
266	cvar_qualifier
267	\| cvar_qualifier_seq cvar_qualifier { $$ = $2; }
268	;
269
270	cvar_qualifier:
271	CONST_KEYW \| VOLATILE_KEYW \| ATTRIBUTE_PHRASE
272	\| RESTRICT_KEYW
273	{ /* restrict has no effect in prototypes so ignore it */
274	remove_node($1);
275	$$ = $1;
276	}
277	;
278
279	declarator:
280	ptr_operator declarator { $$ = $2; }
281	\| direct_declarator
282	;
283
284	direct_declarator:
285	IDENT
286	{ if (current_name != NULL) {
287	error_with_pos("unexpected second declaration name");
288	YYERROR;
289	} else {
290	current_name = (*$1)->string;
291	$$ = $1;
292	}
293	}
294	\| direct_declarator '(' parameter_declaration_clause ')'
295	{ $$ = $4; }
296	\| direct_declarator '(' error ')'
297	{ $$ = $4; }
298	\| direct_declarator BRACKET_PHRASE
299	{ $$ = $2; }
300	\| '(' declarator ')'
301	{ $$ = $3; }
302	\| '(' error ')'
303	{ $$ = $3; }
304	;
305
306	/* Nested declarators differ from regular declarators in that they do
307	not record the symbols they find in the global symbol table. */
308	nested_declarator:
309	ptr_operator nested_declarator { $$ = $2; }
310	\| direct_nested_declarator
311	;
312
313	direct_nested_declarator:
314	IDENT
315	\| TYPE
316	\| direct_nested_declarator '(' parameter_declaration_clause ')'
317	{ $$ = $4; }
318	\| direct_nested_declarator '(' error ')'
319	{ $$ = $4; }
320	\| direct_nested_declarator BRACKET_PHRASE
321	{ $$ = $2; }
322	\| '(' nested_declarator ')'
323	{ $$ = $3; }
324	\| '(' error ')'
325	{ $$ = $3; }
326	;
327
328	parameter_declaration_clause:
329	parameter_declaration_list_opt DOTS { $$ = $2; }
330	\| parameter_declaration_list_opt
331	\| parameter_declaration_list ',' DOTS { $$ = $3; }
332	;
333
334	parameter_declaration_list_opt:
335	/* empty */ { $$ = NULL; }
336	\| parameter_declaration_list
337	;
338
339	parameter_declaration_list:
340	parameter_declaration
341	\| parameter_declaration_list ',' parameter_declaration
342	{ $$ = $3; }
343	;
344
345	parameter_declaration:
346	decl_specifier_seq m_abstract_declarator
347	{ $$ = $2 ? $2 : $1; }
348	;
349
350	m_abstract_declarator:
351	ptr_operator m_abstract_declarator
352	{ $$ = $2 ? $2 : $1; }
353	\| direct_m_abstract_declarator
354	;
355
356	direct_m_abstract_declarator:
357	/* empty */ { $$ = NULL; }
358	\| IDENT
359	{ /* For version 2 checksums, we don't want to remember
360	private parameter names. */
361	remove_node($1);
362	$$ = $1;
363	}
364	/* This wasn't really a typedef name but an identifier that
365	shadows one. */
366	\| TYPE
367	{ remove_node($1);
368	$$ = $1;
369	}
370	\| direct_m_abstract_declarator '(' parameter_declaration_clause ')'
371	{ $$ = $4; }
372	\| direct_m_abstract_declarator '(' error ')'
373	{ $$ = $4; }
374	\| direct_m_abstract_declarator BRACKET_PHRASE
375	{ $$ = $2; }
376	\| '(' m_abstract_declarator ')'
377	{ $$ = $3; }
378	\| '(' error ')'
379	{ $$ = $3; }
380	;
381
382	function_definition:
383	decl_specifier_seq_opt declarator BRACE_PHRASE
384	{ struct string_list decl = $2;
385	*$2 = NULL;
386	add_symbol(current_name, SYM_NORMAL, decl, is_extern);
387	$$ = $3;
388	}
389	;
390
391	initializer_opt:
392	/* empty */ { $$ = NULL; }
393	\| initializer
394	;
395
396	/* We never care about the contents of an initializer. */
397	initializer:
398	'=' EXPRESSION_PHRASE
399	{ remove_list($2, &(*$1)->next); $$ = $2; }
400	;
401
402	class_body:
403	'{' member_specification_opt '}' { $$ = $3; }
404	\| '{' error '}' { $$ = $3; }
405	;
406
407	member_specification_opt:
408	/* empty */ { $$ = NULL; }
409	\| member_specification
410	;
411
412	member_specification:
413	member_declaration
414	\| member_specification member_declaration { $$ = $2; }
415	;
416
417	member_declaration:
418	decl_specifier_seq_opt member_declarator_list_opt ';'
419	{ $$ = $3; }
420	\| error ';'
421	{ $$ = $2; }
422	;
423
424	member_declarator_list_opt:
425	/* empty */ { $$ = NULL; }
426	\| member_declarator_list
427	;
428
429	member_declarator_list:
430	member_declarator
431	\| member_declarator_list ',' member_declarator { $$ = $3; }
432	;
433
434	member_declarator:
435	nested_declarator attribute_opt { $$ = $2 ? $2 : $1; }
436	\| IDENT member_bitfield_declarator { $$ = $2; }
437	\| member_bitfield_declarator
438	;
439
440	member_bitfield_declarator:
441	':' EXPRESSION_PHRASE { $$ = $2; }
442	;
443
444	attribute_opt:
445	/* empty */ { $$ = NULL; }
446	\| ATTRIBUTE_PHRASE
447	;
448
449	asm_definition:
450	ASM_PHRASE ';' { $$ = $2; }
451	;
452
453	asm_phrase_opt:
454	/* empty */ { $$ = NULL; }
455	\| ASM_PHRASE
456	;
457
458	export_definition:
459	EXPORT_SYMBOL_KEYW '(' IDENT ')' ';'
460	{ export_symbol((*$3)->string); $$ = $5; }
461	;
462
463
464	%%
465
466	static void
467	yyerror(const char *e)
468	{
469	error_with_pos("%s", e);
470	}