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1 24 jeremybenn
/* YACC parser for C++ names, for GDB.
2
 
3
   Copyright (C) 2003, 2004, 2005, 2007, 2008 Free Software Foundation, Inc.
4
 
5
   Parts of the lexer are based on c-exp.y from GDB.
6
 
7
This file is part of GDB.
8
 
9
This program is free software; you can redistribute it and/or modify
10
it under the terms of the GNU General Public License as published by
11
the Free Software Foundation; either version 2 of the License, or
12
(at your option) any later version.
13
 
14
This program is distributed in the hope that it will be useful,
15
but WITHOUT ANY WARRANTY; without even the implied warranty of
16
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
17
GNU 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
21
Foundation, Inc., 51 Franklin Street, Fifth Floor,
22
Boston, MA 02110-1301, USA.  */
23
 
24
/* Note that malloc's and realloc's in this file are transformed to
25
   xmalloc and xrealloc respectively by the same sed command in the
26
   makefile that remaps any other malloc/realloc inserted by the parser
27
   generator.  Doing this with #defines and trying to control the interaction
28
   with include files ( and  for example) just became
29
   too messy, particularly when such includes can be inserted at random
30
   times by the parser generator.  */
31
 
32
%{
33
 
34
#include 
35
#include 
36
#include 
37
#include 
38
 
39
#include "safe-ctype.h"
40
#include "libiberty.h"
41
#include "demangle.h"
42
 
43
/* Bison does not make it easy to create a parser without global
44
   state, unfortunately.  Here are all the global variables used
45
   in this parser.  */
46
 
47
/* LEXPTR is the current pointer into our lex buffer.  PREV_LEXPTR
48
   is the start of the last token lexed, only used for diagnostics.
49
   ERROR_LEXPTR is the first place an error occurred.  GLOBAL_ERRMSG
50
   is the first error message encountered.  */
51
 
52
static const char *lexptr, *prev_lexptr, *error_lexptr, *global_errmsg;
53
 
54
/* The components built by the parser are allocated ahead of time,
55
   and cached in this structure.  */
56
 
57
#define ALLOC_CHUNK 100
58
 
59
struct demangle_info {
60
  int used;
61
  struct demangle_info *prev, *next;
62
  struct demangle_component comps[ALLOC_CHUNK];
63
};
64
 
65
static struct demangle_info *demangle_info;
66
 
67
static struct demangle_component *
68
d_grab (void)
69
{
70
  struct demangle_info *more;
71
 
72
  if (demangle_info->used >= ALLOC_CHUNK)
73
    {
74
      if (demangle_info->next == NULL)
75
        {
76
          more = malloc (sizeof (struct demangle_info));
77
          more->prev = demangle_info;
78
          more->next = NULL;
79
          demangle_info->next = more;
80
        }
81
      else
82
        more = demangle_info->next;
83
 
84
      more->used = 0;
85
      demangle_info = more;
86
    }
87
  return &demangle_info->comps[demangle_info->used++];
88
}
89
 
90
/* The parse tree created by the parser is stored here after a successful
91
   parse.  */
92
 
93
static struct demangle_component *global_result;
94
 
95
/* Prototypes for helper functions used when constructing the parse
96
   tree.  */
97
 
98
static struct demangle_component *d_qualify (struct demangle_component *, int,
99
                                             int);
100
 
101
static struct demangle_component *d_int_type (int);
102
 
103
static struct demangle_component *d_unary (const char *,
104
                                           struct demangle_component *);
105
static struct demangle_component *d_binary (const char *,
106
                                            struct demangle_component *,
107
                                            struct demangle_component *);
108
 
109
/* Flags passed to d_qualify.  */
110
 
111
#define QUAL_CONST 1
112
#define QUAL_RESTRICT 2
113
#define QUAL_VOLATILE 4
114
 
115
/* Flags passed to d_int_type.  */
116
 
117
#define INT_CHAR        (1 << 0)
118
#define INT_SHORT       (1 << 1)
119
#define INT_LONG        (1 << 2)
120
#define INT_LLONG       (1 << 3)
121
 
122
#define INT_SIGNED      (1 << 4)
123
#define INT_UNSIGNED    (1 << 5)
124
 
125
/* Remap normal yacc parser interface names (yyparse, yylex, yyerror, etc),
126
   as well as gratuitiously global symbol names, so we can have multiple
127
   yacc generated parsers in gdb.  Note that these are only the variables
128
   produced by yacc.  If other parser generators (bison, byacc, etc) produce
129
   additional global names that conflict at link time, then those parser
130
   generators need to be fixed instead of adding those names to this list. */
131
 
132
#define yymaxdepth cpname_maxdepth
133
#define yyparse cpname_parse
134
#define yylex   cpname_lex
135
#define yyerror cpname_error
136
#define yylval  cpname_lval
137
#define yychar  cpname_char
138
#define yydebug cpname_debug
139
#define yypact  cpname_pact
140
#define yyr1    cpname_r1
141
#define yyr2    cpname_r2
142
#define yydef   cpname_def
143
#define yychk   cpname_chk
144
#define yypgo   cpname_pgo
145
#define yyact   cpname_act
146
#define yyexca  cpname_exca
147
#define yyerrflag cpname_errflag
148
#define yynerrs cpname_nerrs
149
#define yyps    cpname_ps
150
#define yypv    cpname_pv
151
#define yys     cpname_s
152
#define yy_yys  cpname_yys
153
#define yystate cpname_state
154
#define yytmp   cpname_tmp
155
#define yyv     cpname_v
156
#define yy_yyv  cpname_yyv
157
#define yyval   cpname_val
158
#define yylloc  cpname_lloc
159
#define yyreds  cpname_reds             /* With YYDEBUG defined */
160
#define yytoks  cpname_toks             /* With YYDEBUG defined */
161
#define yyname  cpname_name             /* With YYDEBUG defined */
162
#define yyrule  cpname_rule             /* With YYDEBUG defined */
163
#define yylhs   cpname_yylhs
164
#define yylen   cpname_yylen
165
#define yydefred cpname_yydefred
166
#define yydgoto cpname_yydgoto
167
#define yysindex cpname_yysindex
168
#define yyrindex cpname_yyrindex
169
#define yygindex cpname_yygindex
170
#define yytable  cpname_yytable
171
#define yycheck  cpname_yycheck
172
 
173
int yyparse (void);
174
static int yylex (void);
175
static void yyerror (char *);
176
 
177
/* Enable yydebug for the stand-alone parser.  */
178
#ifdef TEST_CPNAMES
179
# define YYDEBUG        1
180
#endif
181
 
182
/* Helper functions.  These wrap the demangler tree interface, handle
183
   allocation from our global store, and return the allocated component.  */
184
 
185
static struct demangle_component *
186
fill_comp (enum demangle_component_type d_type, struct demangle_component *lhs,
187
           struct demangle_component *rhs)
188
{
189
  struct demangle_component *ret = d_grab ();
190
  cplus_demangle_fill_component (ret, d_type, lhs, rhs);
191
  return ret;
192
}
193
 
194
static struct demangle_component *
195
make_empty (enum demangle_component_type d_type)
196
{
197
  struct demangle_component *ret = d_grab ();
198
  ret->type = d_type;
199
  return ret;
200
}
201
 
202
static struct demangle_component *
203
make_operator (const char *name, int args)
204
{
205
  struct demangle_component *ret = d_grab ();
206
  cplus_demangle_fill_operator (ret, name, args);
207
  return ret;
208
}
209
 
210
static struct demangle_component *
211
make_dtor (enum gnu_v3_dtor_kinds kind, struct demangle_component *name)
212
{
213
  struct demangle_component *ret = d_grab ();
214
  cplus_demangle_fill_dtor (ret, kind, name);
215
  return ret;
216
}
217
 
218
static struct demangle_component *
219
make_builtin_type (const char *name)
220
{
221
  struct demangle_component *ret = d_grab ();
222
  cplus_demangle_fill_builtin_type (ret, name);
223
  return ret;
224
}
225
 
226
static struct demangle_component *
227
make_name (const char *name, int len)
228
{
229
  struct demangle_component *ret = d_grab ();
230
  cplus_demangle_fill_name (ret, name, len);
231
  return ret;
232
}
233
 
234
#define d_left(dc) (dc)->u.s_binary.left
235
#define d_right(dc) (dc)->u.s_binary.right
236
 
237
%}
238
 
239
%union
240
  {
241
    struct demangle_component *comp;
242
    struct nested {
243
      struct demangle_component *comp;
244
      struct demangle_component **last;
245
    } nested;
246
    struct {
247
      struct demangle_component *comp, *last;
248
    } nested1;
249
    struct {
250
      struct demangle_component *comp, **last;
251
      struct nested fn;
252
      struct demangle_component *start;
253
      int fold_flag;
254
    } abstract;
255
    int lval;
256
    struct {
257
      int val;
258
      struct demangle_component *type;
259
    } typed_val_int;
260
    const char *opname;
261
  }
262
 
263
%type  exp exp1 type start start_opt operator colon_name
264
%type  unqualified_name colon_ext_name
265
%type  template template_arg
266
%type  builtin_type
267
%type  typespec_2 array_indicator
268
%type  colon_ext_only ext_only_name
269
 
270
%type  demangler_special function conversion_op
271
%type  conversion_op_name
272
 
273
%type  abstract_declarator direct_abstract_declarator
274
%type  abstract_declarator_fn
275
%type  declarator direct_declarator function_arglist
276
 
277
%type  declarator_1 direct_declarator_1
278
 
279
%type  template_params function_args
280
%type  ptr_operator
281
 
282
%type  nested_name
283
 
284
%type  qualifier qualifiers qualifiers_opt
285
 
286
%type  int_part int_seq
287
 
288
%token  INT
289
%token  FLOAT
290
 
291
%token  NAME
292
%type  name
293
 
294
%token STRUCT CLASS UNION ENUM SIZEOF UNSIGNED COLONCOLON
295
%token TEMPLATE
296
%token ERROR
297
%token NEW DELETE OPERATOR
298
%token STATIC_CAST REINTERPRET_CAST DYNAMIC_CAST
299
 
300
/* Special type cases, put in to allow the parser to distinguish different
301
   legal basetypes.  */
302
%token SIGNED_KEYWORD LONG SHORT INT_KEYWORD CONST_KEYWORD VOLATILE_KEYWORD DOUBLE_KEYWORD BOOL
303
%token ELLIPSIS RESTRICT VOID FLOAT_KEYWORD CHAR WCHAR_T
304
 
305
%token  ASSIGN_MODIFY
306
 
307
/* C++ */
308
%token TRUEKEYWORD
309
%token FALSEKEYWORD
310
 
311
/* Non-C++ things we get from the demangler.  */
312
%token  DEMANGLER_SPECIAL
313
%token CONSTRUCTION_VTABLE CONSTRUCTION_IN
314
%token  GLOBAL
315
 
316
%{
317
enum {
318
  GLOBAL_CONSTRUCTORS = DEMANGLE_COMPONENT_LITERAL + 20,
319
  GLOBAL_DESTRUCTORS = DEMANGLE_COMPONENT_LITERAL + 21
320
};
321
%}
322
 
323
/* Precedence declarations.  */
324
 
325
/* Give NAME lower precedence than COLONCOLON, so that nested_name will
326
   associate greedily.  */
327
%nonassoc NAME
328
 
329
/* Give NEW and DELETE lower precedence than ']', because we can not
330
   have an array of type operator new.  This causes NEW '[' to be
331
   parsed as operator new[].  */
332
%nonassoc NEW DELETE
333
 
334
/* Give VOID higher precedence than NAME.  Then we can use %prec NAME
335
   to prefer (VOID) to (function_args).  */
336
%nonassoc VOID
337
 
338
/* Give VOID lower precedence than ')' for similar reasons.  */
339
%nonassoc ')'
340
 
341
%left ','
342
%right '=' ASSIGN_MODIFY
343
%right '?'
344
%left OROR
345
%left ANDAND
346
%left '|'
347
%left '^'
348
%left '&'
349
%left EQUAL NOTEQUAL
350
%left '<' '>' LEQ GEQ
351
%left LSH RSH
352
%left '@'
353
%left '+' '-'
354
%left '*' '/' '%'
355
%right UNARY INCREMENT DECREMENT
356
 
357
/* We don't need a precedence for '(' in this reduced grammar, and it
358
   can mask some unpleasant bugs, so disable it for now.  */
359
 
360
%right ARROW '.' '[' /* '(' */
361
%left COLONCOLON
362
 
363
 
364
%%
365
 
366
result          :       start
367
                        { global_result = $1; }
368
                ;
369
 
370
start           :       type
371
 
372
                |       demangler_special
373
 
374
                |       function
375
 
376
                ;
377
 
378
start_opt       :       /* */
379
                        { $$ = NULL; }
380
                |       COLONCOLON start
381
                        { $$ = $2; }
382
                ;
383
 
384
function
385
                /* Function with a return type.  declarator_1 is used to prevent
386
                   ambiguity with the next rule.  */
387
                :       typespec_2 declarator_1
388
                        { $$ = $2.comp;
389
                          *$2.last = $1;
390
                        }
391
 
392
                /* Function without a return type.  We need to use typespec_2
393
                   to prevent conflicts from qualifiers_opt - harmless.  The
394
                   start_opt is used to handle "function-local" variables and
395
                   types.  */
396
                |       typespec_2 function_arglist start_opt
397
                        { $$ = fill_comp (DEMANGLE_COMPONENT_TYPED_NAME, $1, $2.comp);
398
                          if ($3) $$ = fill_comp (DEMANGLE_COMPONENT_LOCAL_NAME, $$, $3); }
399
                |       colon_ext_only function_arglist start_opt
400
                        { $$ = fill_comp (DEMANGLE_COMPONENT_TYPED_NAME, $1, $2.comp);
401
                          if ($3) $$ = fill_comp (DEMANGLE_COMPONENT_LOCAL_NAME, $$, $3); }
402
 
403
                |       conversion_op_name start_opt
404
                        { $$ = $1.comp;
405
                          if ($2) $$ = fill_comp (DEMANGLE_COMPONENT_LOCAL_NAME, $$, $2); }
406
                |       conversion_op_name abstract_declarator_fn
407
                        { if ($2.last)
408
                            {
409
                               /* First complete the abstract_declarator's type using
410
                                  the typespec from the conversion_op_name.  */
411
                              *$2.last = *$1.last;
412
                              /* Then complete the conversion_op_name with the type.  */
413
                              *$1.last = $2.comp;
414
                            }
415
                          /* If we have an arglist, build a function type.  */
416
                          if ($2.fn.comp)
417
                            $$ = fill_comp (DEMANGLE_COMPONENT_TYPED_NAME, $1.comp, $2.fn.comp);
418
                          else
419
                            $$ = $1.comp;
420
                          if ($2.start) $$ = fill_comp (DEMANGLE_COMPONENT_LOCAL_NAME, $$, $2.start);
421
                        }
422
                ;
423
 
424
demangler_special
425
                :       DEMANGLER_SPECIAL start
426
                        { $$ = make_empty ($1);
427
                          d_left ($$) = $2;
428
                          d_right ($$) = NULL; }
429
                |       CONSTRUCTION_VTABLE start CONSTRUCTION_IN start
430
                        { $$ = fill_comp (DEMANGLE_COMPONENT_CONSTRUCTION_VTABLE, $2, $4); }
431
                |       GLOBAL
432
                        { $$ = make_empty ($1.val);
433
                          d_left ($$) = $1.type;
434
                          d_right ($$) = NULL; }
435
                ;
436
 
437
operator        :       OPERATOR NEW
438
                        { $$ = make_operator ("new", 1); }
439
                |       OPERATOR DELETE
440
                        { $$ = make_operator ("delete", 1); }
441
                |       OPERATOR NEW '[' ']'
442
                        { $$ = make_operator ("new[]", 1); }
443
                |       OPERATOR DELETE '[' ']'
444
                        { $$ = make_operator ("delete[]", 1); }
445
                |       OPERATOR '+'
446
                        { $$ = make_operator ("+", 2); }
447
                |       OPERATOR '-'
448
                        { $$ = make_operator ("-", 2); }
449
                |       OPERATOR '*'
450
                        { $$ = make_operator ("*", 2); }
451
                |       OPERATOR '/'
452
                        { $$ = make_operator ("/", 2); }
453
                |       OPERATOR '%'
454
                        { $$ = make_operator ("%", 2); }
455
                |       OPERATOR '^'
456
                        { $$ = make_operator ("^", 2); }
457
                |       OPERATOR '&'
458
                        { $$ = make_operator ("&", 2); }
459
                |       OPERATOR '|'
460
                        { $$ = make_operator ("|", 2); }
461
                |       OPERATOR '~'
462
                        { $$ = make_operator ("~", 1); }
463
                |       OPERATOR '!'
464
                        { $$ = make_operator ("!", 1); }
465
                |       OPERATOR '='
466
                        { $$ = make_operator ("=", 2); }
467
                |       OPERATOR '<'
468
                        { $$ = make_operator ("<", 2); }
469
                |       OPERATOR '>'
470
                        { $$ = make_operator (">", 2); }
471
                |       OPERATOR ASSIGN_MODIFY
472
                        { $$ = make_operator ($2, 2); }
473
                |       OPERATOR LSH
474
                        { $$ = make_operator ("<<", 2); }
475
                |       OPERATOR RSH
476
                        { $$ = make_operator (">>", 2); }
477
                |       OPERATOR EQUAL
478
                        { $$ = make_operator ("==", 2); }
479
                |       OPERATOR NOTEQUAL
480
                        { $$ = make_operator ("!=", 2); }
481
                |       OPERATOR LEQ
482
                        { $$ = make_operator ("<=", 2); }
483
                |       OPERATOR GEQ
484
                        { $$ = make_operator (">=", 2); }
485
                |       OPERATOR ANDAND
486
                        { $$ = make_operator ("&&", 2); }
487
                |       OPERATOR OROR
488
                        { $$ = make_operator ("||", 2); }
489
                |       OPERATOR INCREMENT
490
                        { $$ = make_operator ("++", 1); }
491
                |       OPERATOR DECREMENT
492
                        { $$ = make_operator ("--", 1); }
493
                |       OPERATOR ','
494
                        { $$ = make_operator (",", 2); }
495
                |       OPERATOR ARROW '*'
496
                        { $$ = make_operator ("->*", 2); }
497
                |       OPERATOR ARROW
498
                        { $$ = make_operator ("->", 2); }
499
                |       OPERATOR '(' ')'
500
                        { $$ = make_operator ("()", 0); }
501
                |       OPERATOR '[' ']'
502
                        { $$ = make_operator ("[]", 2); }
503
                ;
504
 
505
                /* Conversion operators.  We don't try to handle some of
506
                   the wackier demangler output for function pointers,
507
                   since it's not clear that it's parseable.  */
508
conversion_op
509
                :       OPERATOR typespec_2
510
                        { $$ = fill_comp (DEMANGLE_COMPONENT_CAST, $2, NULL); }
511
                ;
512
 
513
conversion_op_name
514
                :       nested_name conversion_op
515
                        { $$.comp = $1.comp;
516
                          d_right ($1.last) = $2;
517
                          $$.last = &d_left ($2);
518
                        }
519
                |       conversion_op
520
                        { $$.comp = $1;
521
                          $$.last = &d_left ($1);
522
                        }
523
                |       COLONCOLON nested_name conversion_op
524
                        { $$.comp = $2.comp;
525
                          d_right ($2.last) = $3;
526
                          $$.last = &d_left ($3);
527
                        }
528
                |       COLONCOLON conversion_op
529
                        { $$.comp = $2;
530
                          $$.last = &d_left ($2);
531
                        }
532
                ;
533
 
534
/* DEMANGLE_COMPONENT_NAME */
535
/* This accepts certain invalid placements of '~'.  */
536
unqualified_name:       operator
537
                |       operator '<' template_params '>'
538
                        { $$ = fill_comp (DEMANGLE_COMPONENT_TEMPLATE, $1, $3.comp); }
539
                |       '~' NAME
540
                        { $$ = make_dtor (gnu_v3_complete_object_dtor, $2); }
541
                ;
542
 
543
/* This rule is used in name and nested_name, and expanded inline there
544
   for efficiency.  */
545
/*
546
scope_id        :       NAME
547
                |       template
548
                ;
549
*/
550
 
551
colon_name      :       name
552
                |       COLONCOLON name
553
                        { $$ = $2; }
554
                ;
555
 
556
/* DEMANGLE_COMPONENT_QUAL_NAME */
557
/* DEMANGLE_COMPONENT_CTOR / DEMANGLE_COMPONENT_DTOR ? */
558
name            :       nested_name NAME %prec NAME
559
                        { $$ = $1.comp; d_right ($1.last) = $2; }
560
                |       NAME %prec NAME
561
                |       nested_name template %prec NAME
562
                        { $$ = $1.comp; d_right ($1.last) = $2; }
563
                |       template %prec NAME
564
                ;
565
 
566
colon_ext_name  :       colon_name
567
                |       colon_ext_only
568
                ;
569
 
570
colon_ext_only  :       ext_only_name
571
                |       COLONCOLON ext_only_name
572
                        { $$ = $2; }
573
                ;
574
 
575
ext_only_name   :       nested_name unqualified_name
576
                        { $$ = $1.comp; d_right ($1.last) = $2; }
577
                |       unqualified_name
578
                ;
579
 
580
nested_name     :       NAME COLONCOLON
581
                        { $$.comp = make_empty (DEMANGLE_COMPONENT_QUAL_NAME);
582
                          d_left ($$.comp) = $1;
583
                          d_right ($$.comp) = NULL;
584
                          $$.last = $$.comp;
585
                        }
586
                |       nested_name NAME COLONCOLON
587
                        { $$.comp = $1.comp;
588
                          d_right ($1.last) = make_empty (DEMANGLE_COMPONENT_QUAL_NAME);
589
                          $$.last = d_right ($1.last);
590
                          d_left ($$.last) = $2;
591
                          d_right ($$.last) = NULL;
592
                        }
593
                |       template COLONCOLON
594
                        { $$.comp = make_empty (DEMANGLE_COMPONENT_QUAL_NAME);
595
                          d_left ($$.comp) = $1;
596
                          d_right ($$.comp) = NULL;
597
                          $$.last = $$.comp;
598
                        }
599
                |       nested_name template COLONCOLON
600
                        { $$.comp = $1.comp;
601
                          d_right ($1.last) = make_empty (DEMANGLE_COMPONENT_QUAL_NAME);
602
                          $$.last = d_right ($1.last);
603
                          d_left ($$.last) = $2;
604
                          d_right ($$.last) = NULL;
605
                        }
606
                ;
607
 
608
/* DEMANGLE_COMPONENT_TEMPLATE */
609
/* DEMANGLE_COMPONENT_TEMPLATE_ARGLIST */
610
template        :       NAME '<' template_params '>'
611
                        { $$ = fill_comp (DEMANGLE_COMPONENT_TEMPLATE, $1, $3.comp); }
612
                ;
613
 
614
template_params :       template_arg
615
                        { $$.comp = fill_comp (DEMANGLE_COMPONENT_TEMPLATE_ARGLIST, $1, NULL);
616
                        $$.last = &d_right ($$.comp); }
617
                |       template_params ',' template_arg
618
                        { $$.comp = $1.comp;
619
                          *$1.last = fill_comp (DEMANGLE_COMPONENT_TEMPLATE_ARGLIST, $3, NULL);
620
                          $$.last = &d_right (*$1.last);
621
                        }
622
                ;
623
 
624
/* "type" is inlined into template_arg and function_args.  */
625
 
626
/* Also an integral constant-expression of integral type, and a
627
   pointer to member (?) */
628
template_arg    :       typespec_2
629
                |       typespec_2 abstract_declarator
630
                        { $$ = $2.comp;
631
                          *$2.last = $1;
632
                        }
633
                |       '&' start
634
                        { $$ = fill_comp (DEMANGLE_COMPONENT_UNARY, make_operator ("&", 1), $2); }
635
                |       '&' '(' start ')'
636
                        { $$ = fill_comp (DEMANGLE_COMPONENT_UNARY, make_operator ("&", 1), $3); }
637
                |       exp
638
                ;
639
 
640
function_args   :       typespec_2
641
                        { $$.comp = fill_comp (DEMANGLE_COMPONENT_ARGLIST, $1, NULL);
642
                          $$.last = &d_right ($$.comp);
643
                        }
644
                |       typespec_2 abstract_declarator
645
                        { *$2.last = $1;
646
                          $$.comp = fill_comp (DEMANGLE_COMPONENT_ARGLIST, $2.comp, NULL);
647
                          $$.last = &d_right ($$.comp);
648
                        }
649
                |       function_args ',' typespec_2
650
                        { *$1.last = fill_comp (DEMANGLE_COMPONENT_ARGLIST, $3, NULL);
651
                          $$.comp = $1.comp;
652
                          $$.last = &d_right (*$1.last);
653
                        }
654
                |       function_args ',' typespec_2 abstract_declarator
655
                        { *$4.last = $3;
656
                          *$1.last = fill_comp (DEMANGLE_COMPONENT_ARGLIST, $4.comp, NULL);
657
                          $$.comp = $1.comp;
658
                          $$.last = &d_right (*$1.last);
659
                        }
660
                |       function_args ',' ELLIPSIS
661
                        { *$1.last
662
                            = fill_comp (DEMANGLE_COMPONENT_ARGLIST,
663
                                           make_builtin_type ("..."),
664
                                           NULL);
665
                          $$.comp = $1.comp;
666
                          $$.last = &d_right (*$1.last);
667
                        }
668
                ;
669
 
670
function_arglist:       '(' function_args ')' qualifiers_opt %prec NAME
671
                        { $$.comp = fill_comp (DEMANGLE_COMPONENT_FUNCTION_TYPE, NULL, $2.comp);
672
                          $$.last = &d_left ($$.comp);
673
                          $$.comp = d_qualify ($$.comp, $4, 1); }
674
                |       '(' VOID ')' qualifiers_opt
675
                        { $$.comp = fill_comp (DEMANGLE_COMPONENT_FUNCTION_TYPE, NULL, NULL);
676
                          $$.last = &d_left ($$.comp);
677
                          $$.comp = d_qualify ($$.comp, $4, 1); }
678
                |       '(' ')' qualifiers_opt
679
                        { $$.comp = fill_comp (DEMANGLE_COMPONENT_FUNCTION_TYPE, NULL, NULL);
680
                          $$.last = &d_left ($$.comp);
681
                          $$.comp = d_qualify ($$.comp, $3, 1); }
682
                ;
683
 
684
/* Should do something about DEMANGLE_COMPONENT_VENDOR_TYPE_QUAL */
685
qualifiers_opt  :       /* epsilon */
686
                        { $$ = 0; }
687
                |       qualifiers
688
                ;
689
 
690
qualifier       :       RESTRICT
691
                        { $$ = QUAL_RESTRICT; }
692
                |       VOLATILE_KEYWORD
693
                        { $$ = QUAL_VOLATILE; }
694
                |       CONST_KEYWORD
695
                        { $$ = QUAL_CONST; }
696
                ;
697
 
698
qualifiers      :       qualifier
699
                |       qualifier qualifiers
700
                        { $$ = $1 | $2; }
701
                ;
702
 
703
/* This accepts all sorts of invalid constructions and produces
704
   invalid output for them - an error would be better.  */
705
 
706
int_part        :       INT_KEYWORD
707
                        { $$ = 0; }
708
                |       SIGNED_KEYWORD
709
                        { $$ = INT_SIGNED; }
710
                |       UNSIGNED
711
                        { $$ = INT_UNSIGNED; }
712
                |       CHAR
713
                        { $$ = INT_CHAR; }
714
                |       LONG
715
                        { $$ = INT_LONG; }
716
                |       SHORT
717
                        { $$ = INT_SHORT; }
718
                ;
719
 
720
int_seq         :       int_part
721
                |       int_seq int_part
722
                        { $$ = $1 | $2; if ($1 & $2 & INT_LONG) $$ = $1 | INT_LLONG; }
723
                ;
724
 
725
builtin_type    :       int_seq
726
                        { $$ = d_int_type ($1); }
727
                |       FLOAT_KEYWORD
728
                        { $$ = make_builtin_type ("float"); }
729
                |       DOUBLE_KEYWORD
730
                        { $$ = make_builtin_type ("double"); }
731
                |       LONG DOUBLE_KEYWORD
732
                        { $$ = make_builtin_type ("long double"); }
733
                |       BOOL
734
                        { $$ = make_builtin_type ("bool"); }
735
                |       WCHAR_T
736
                        { $$ = make_builtin_type ("wchar_t"); }
737
                |       VOID
738
                        { $$ = make_builtin_type ("void"); }
739
                ;
740
 
741
ptr_operator    :       '*' qualifiers_opt
742
                        { $$.comp = make_empty (DEMANGLE_COMPONENT_POINTER);
743
                          $$.comp->u.s_binary.left = $$.comp->u.s_binary.right = NULL;
744
                          $$.last = &d_left ($$.comp);
745
                          $$.comp = d_qualify ($$.comp, $2, 0); }
746
                /* g++ seems to allow qualifiers after the reference?  */
747
                |       '&'
748
                        { $$.comp = make_empty (DEMANGLE_COMPONENT_REFERENCE);
749
                          $$.comp->u.s_binary.left = $$.comp->u.s_binary.right = NULL;
750
                          $$.last = &d_left ($$.comp); }
751
                |       nested_name '*' qualifiers_opt
752
                        { $$.comp = make_empty (DEMANGLE_COMPONENT_PTRMEM_TYPE);
753
                          $$.comp->u.s_binary.left = $1.comp;
754
                          /* Convert the innermost DEMANGLE_COMPONENT_QUAL_NAME to a DEMANGLE_COMPONENT_NAME.  */
755
                          *$1.last = *d_left ($1.last);
756
                          $$.comp->u.s_binary.right = NULL;
757
                          $$.last = &d_right ($$.comp);
758
                          $$.comp = d_qualify ($$.comp, $3, 0); }
759
                |       COLONCOLON nested_name '*' qualifiers_opt
760
                        { $$.comp = make_empty (DEMANGLE_COMPONENT_PTRMEM_TYPE);
761
                          $$.comp->u.s_binary.left = $2.comp;
762
                          /* Convert the innermost DEMANGLE_COMPONENT_QUAL_NAME to a DEMANGLE_COMPONENT_NAME.  */
763
                          *$2.last = *d_left ($2.last);
764
                          $$.comp->u.s_binary.right = NULL;
765
                          $$.last = &d_right ($$.comp);
766
                          $$.comp = d_qualify ($$.comp, $4, 0); }
767
                ;
768
 
769
array_indicator :       '[' ']'
770
                        { $$ = make_empty (DEMANGLE_COMPONENT_ARRAY_TYPE);
771
                          d_left ($$) = NULL;
772
                        }
773
                |       '[' INT ']'
774
                        { $$ = make_empty (DEMANGLE_COMPONENT_ARRAY_TYPE);
775
                          d_left ($$) = $2;
776
                        }
777
                ;
778
 
779
/* Details of this approach inspired by the G++ < 3.4 parser.  */
780
 
781
/* This rule is only used in typespec_2, and expanded inline there for
782
   efficiency.  */
783
/*
784
typespec        :       builtin_type
785
                |       colon_name
786
                ;
787
*/
788
 
789
typespec_2      :       builtin_type qualifiers
790
                        { $$ = d_qualify ($1, $2, 0); }
791
                |       builtin_type
792
                |       qualifiers builtin_type qualifiers
793
                        { $$ = d_qualify ($2, $1 | $3, 0); }
794
                |       qualifiers builtin_type
795
                        { $$ = d_qualify ($2, $1, 0); }
796
 
797
                |       name qualifiers
798
                        { $$ = d_qualify ($1, $2, 0); }
799
                |       name
800
                |       qualifiers name qualifiers
801
                        { $$ = d_qualify ($2, $1 | $3, 0); }
802
                |       qualifiers name
803
                        { $$ = d_qualify ($2, $1, 0); }
804
 
805
                |       COLONCOLON name qualifiers
806
                        { $$ = d_qualify ($2, $3, 0); }
807
                |       COLONCOLON name
808
                        { $$ = $2; }
809
                |       qualifiers COLONCOLON name qualifiers
810
                        { $$ = d_qualify ($3, $1 | $4, 0); }
811
                |       qualifiers COLONCOLON name
812
                        { $$ = d_qualify ($3, $1, 0); }
813
                ;
814
 
815
abstract_declarator
816
                :       ptr_operator
817
                        { $$.comp = $1.comp; $$.last = $1.last;
818
                          $$.fn.comp = NULL; $$.fn.last = NULL; }
819
                |       ptr_operator abstract_declarator
820
                        { $$ = $2; $$.fn.comp = NULL; $$.fn.last = NULL;
821
                          if ($2.fn.comp) { $$.last = $2.fn.last; *$2.last = $2.fn.comp; }
822
                          *$$.last = $1.comp;
823
                          $$.last = $1.last; }
824
                |       direct_abstract_declarator
825
                        { $$.fn.comp = NULL; $$.fn.last = NULL;
826
                          if ($1.fn.comp) { $$.last = $1.fn.last; *$1.last = $1.fn.comp; }
827
                        }
828
                ;
829
 
830
direct_abstract_declarator
831
                :       '(' abstract_declarator ')'
832
                        { $$ = $2; $$.fn.comp = NULL; $$.fn.last = NULL; $$.fold_flag = 1;
833
                          if ($2.fn.comp) { $$.last = $2.fn.last; *$2.last = $2.fn.comp; }
834
                        }
835
                |       direct_abstract_declarator function_arglist
836
                        { $$.fold_flag = 0;
837
                          if ($1.fn.comp) { $$.last = $1.fn.last; *$1.last = $1.fn.comp; }
838
                          if ($1.fold_flag)
839
                            {
840
                              *$$.last = $2.comp;
841
                              $$.last = $2.last;
842
                            }
843
                          else
844
                            $$.fn = $2;
845
                        }
846
                |       direct_abstract_declarator array_indicator
847
                        { $$.fn.comp = NULL; $$.fn.last = NULL; $$.fold_flag = 0;
848
                          if ($1.fn.comp) { $$.last = $1.fn.last; *$1.last = $1.fn.comp; }
849
                          *$1.last = $2;
850
                          $$.last = &d_right ($2);
851
                        }
852
                |       array_indicator
853
                        { $$.fn.comp = NULL; $$.fn.last = NULL; $$.fold_flag = 0;
854
                          $$.comp = $1;
855
                          $$.last = &d_right ($1);
856
                        }
857
                /* G++ has the following except for () and (type).  Then
858
                   (type) is handled in regcast_or_absdcl and () is handled
859
                   in fcast_or_absdcl.
860
 
861
                   However, this is only useful for function types, and
862
                   generates reduce/reduce conflicts with direct_declarator.
863
                   We're interested in pointer-to-function types, and in
864
                   functions, but not in function types - so leave this
865
                   out.  */
866
                /* |    function_arglist */
867
                ;
868
 
869
abstract_declarator_fn
870
                :       ptr_operator
871
                        { $$.comp = $1.comp; $$.last = $1.last;
872
                          $$.fn.comp = NULL; $$.fn.last = NULL; $$.start = NULL; }
873
                |       ptr_operator abstract_declarator_fn
874
                        { $$ = $2;
875
                          if ($2.last)
876
                            *$$.last = $1.comp;
877
                          else
878
                            $$.comp = $1.comp;
879
                          $$.last = $1.last;
880
                        }
881
                |       direct_abstract_declarator
882
                        { $$.comp = $1.comp; $$.last = $1.last; $$.fn = $1.fn; $$.start = NULL; }
883
                |       direct_abstract_declarator function_arglist COLONCOLON start
884
                        { $$.start = $4;
885
                          if ($1.fn.comp) { $$.last = $1.fn.last; *$1.last = $1.fn.comp; }
886
                          if ($1.fold_flag)
887
                            {
888
                              *$$.last = $2.comp;
889
                              $$.last = $2.last;
890
                            }
891
                          else
892
                            $$.fn = $2;
893
                        }
894
                |       function_arglist start_opt
895
                        { $$.fn = $1;
896
                          $$.start = $2;
897
                          $$.comp = NULL; $$.last = NULL;
898
                        }
899
                ;
900
 
901
type            :       typespec_2
902
                |       typespec_2 abstract_declarator
903
                        { $$ = $2.comp;
904
                          *$2.last = $1;
905
                        }
906
                ;
907
 
908
declarator      :       ptr_operator declarator
909
                        { $$.comp = $2.comp;
910
                          $$.last = $1.last;
911
                          *$2.last = $1.comp; }
912
                |       direct_declarator
913
                ;
914
 
915
direct_declarator
916
                :       '(' declarator ')'
917
                        { $$ = $2; }
918
                |       direct_declarator function_arglist
919
                        { $$.comp = $1.comp;
920
                          *$1.last = $2.comp;
921
                          $$.last = $2.last;
922
                        }
923
                |       direct_declarator array_indicator
924
                        { $$.comp = $1.comp;
925
                          *$1.last = $2;
926
                          $$.last = &d_right ($2);
927
                        }
928
                |       colon_ext_name
929
                        { $$.comp = make_empty (DEMANGLE_COMPONENT_TYPED_NAME);
930
                          d_left ($$.comp) = $1;
931
                          $$.last = &d_right ($$.comp);
932
                        }
933
                ;
934
 
935
/* These are similar to declarator and direct_declarator except that they
936
   do not permit ( colon_ext_name ), which is ambiguous with a function
937
   argument list.  They also don't permit a few other forms with redundant
938
   parentheses around the colon_ext_name; any colon_ext_name in parentheses
939
   must be followed by an argument list or an array indicator, or preceded
940
   by a pointer.  */
941
declarator_1    :       ptr_operator declarator_1
942
                        { $$.comp = $2.comp;
943
                          $$.last = $1.last;
944
                          *$2.last = $1.comp; }
945
                |       colon_ext_name
946
                        { $$.comp = make_empty (DEMANGLE_COMPONENT_TYPED_NAME);
947
                          d_left ($$.comp) = $1;
948
                          $$.last = &d_right ($$.comp);
949
                        }
950
                |       direct_declarator_1
951
 
952
                        /* Function local variable or type.  The typespec to
953
                           our left is the type of the containing function.
954
                           This should be OK, because function local types
955
                           can not be templates, so the return types of their
956
                           members will not be mangled.  If they are hopefully
957
                           they'll end up to the right of the ::.  */
958
                |       colon_ext_name function_arglist COLONCOLON start
959
                        { $$.comp = fill_comp (DEMANGLE_COMPONENT_TYPED_NAME, $1, $2.comp);
960
                          $$.last = $2.last;
961
                          $$.comp = fill_comp (DEMANGLE_COMPONENT_LOCAL_NAME, $$.comp, $4);
962
                        }
963
                |       direct_declarator_1 function_arglist COLONCOLON start
964
                        { $$.comp = $1.comp;
965
                          *$1.last = $2.comp;
966
                          $$.last = $2.last;
967
                          $$.comp = fill_comp (DEMANGLE_COMPONENT_LOCAL_NAME, $$.comp, $4);
968
                        }
969
                ;
970
 
971
direct_declarator_1
972
                :       '(' ptr_operator declarator ')'
973
                        { $$.comp = $3.comp;
974
                          $$.last = $2.last;
975
                          *$3.last = $2.comp; }
976
                |       direct_declarator_1 function_arglist
977
                        { $$.comp = $1.comp;
978
                          *$1.last = $2.comp;
979
                          $$.last = $2.last;
980
                        }
981
                |       direct_declarator_1 array_indicator
982
                        { $$.comp = $1.comp;
983
                          *$1.last = $2;
984
                          $$.last = &d_right ($2);
985
                        }
986
                |       colon_ext_name function_arglist
987
                        { $$.comp = fill_comp (DEMANGLE_COMPONENT_TYPED_NAME, $1, $2.comp);
988
                          $$.last = $2.last;
989
                        }
990
                |       colon_ext_name array_indicator
991
                        { $$.comp = fill_comp (DEMANGLE_COMPONENT_TYPED_NAME, $1, $2);
992
                          $$.last = &d_right ($2);
993
                        }
994
                ;
995
 
996
exp     :       '(' exp1 ')'
997
                { $$ = $2; }
998
        ;
999
 
1000
/* Silly trick.  Only allow '>' when parenthesized, in order to
1001
   handle conflict with templates.  */
1002
exp1    :       exp
1003
        ;
1004
 
1005
exp1    :       exp '>' exp
1006
                { $$ = d_binary (">", $1, $3); }
1007
        ;
1008
 
1009
/* References.  Not allowed everywhere in template parameters, only
1010
   at the top level, but treat them as expressions in case they are wrapped
1011
   in parentheses.  */
1012
exp1    :       '&' start
1013
                { $$ = fill_comp (DEMANGLE_COMPONENT_UNARY, make_operator ("&", 1), $2); }
1014
        |       '&' '(' start ')'
1015
                { $$ = fill_comp (DEMANGLE_COMPONENT_UNARY, make_operator ("&", 1), $3); }
1016
        ;
1017
 
1018
/* Expressions, not including the comma operator.  */
1019
exp     :       '-' exp    %prec UNARY
1020
                { $$ = d_unary ("-", $2); }
1021
        ;
1022
 
1023
exp     :       '!' exp    %prec UNARY
1024
                { $$ = d_unary ("!", $2); }
1025
        ;
1026
 
1027
exp     :       '~' exp    %prec UNARY
1028
                { $$ = d_unary ("~", $2); }
1029
        ;
1030
 
1031
/* Casts.  First your normal C-style cast.  If exp is a LITERAL, just change
1032
   its type.  */
1033
 
1034
exp     :       '(' type ')' exp  %prec UNARY
1035
                { if ($4->type == DEMANGLE_COMPONENT_LITERAL
1036
                      || $4->type == DEMANGLE_COMPONENT_LITERAL_NEG)
1037
                    {
1038
                      $$ = $4;
1039
                      d_left ($4) = $2;
1040
                    }
1041
                  else
1042
                    $$ = fill_comp (DEMANGLE_COMPONENT_UNARY,
1043
                                      fill_comp (DEMANGLE_COMPONENT_CAST, $2, NULL),
1044
                                      $4);
1045
                }
1046
        ;
1047
 
1048
/* Mangling does not differentiate between these, so we don't need to
1049
   either.  */
1050
exp     :       STATIC_CAST '<' type '>' '(' exp1 ')' %prec UNARY
1051
                { $$ = fill_comp (DEMANGLE_COMPONENT_UNARY,
1052
                                    fill_comp (DEMANGLE_COMPONENT_CAST, $3, NULL),
1053
                                    $6);
1054
                }
1055
        ;
1056
 
1057
exp     :       DYNAMIC_CAST '<' type '>' '(' exp1 ')' %prec UNARY
1058
                { $$ = fill_comp (DEMANGLE_COMPONENT_UNARY,
1059
                                    fill_comp (DEMANGLE_COMPONENT_CAST, $3, NULL),
1060
                                    $6);
1061
                }
1062
        ;
1063
 
1064
exp     :       REINTERPRET_CAST '<' type '>' '(' exp1 ')' %prec UNARY
1065
                { $$ = fill_comp (DEMANGLE_COMPONENT_UNARY,
1066
                                    fill_comp (DEMANGLE_COMPONENT_CAST, $3, NULL),
1067
                                    $6);
1068
                }
1069
        ;
1070
 
1071
/* Another form of C++-style cast is "type ( exp1 )".  This creates too many
1072
   conflicts to support.  For a while we supported the simpler
1073
   "typespec_2 ( exp1 )", but that conflicts with "& ( start )" as a
1074
   reference, deep within the wilderness of abstract declarators:
1075
   Qux vs Qux, a shift-reduce conflict at the
1076
   innermost left parenthesis.  So we do not support function-like casts.
1077
   Fortunately they never appear in demangler output.  */
1078
 
1079
/* TO INVESTIGATE: ._0 style anonymous names; anonymous namespaces */
1080
 
1081
/* Binary operators in order of decreasing precedence.  */
1082
 
1083
exp     :       exp '*' exp
1084
                { $$ = d_binary ("*", $1, $3); }
1085
        ;
1086
 
1087
exp     :       exp '/' exp
1088
                { $$ = d_binary ("/", $1, $3); }
1089
        ;
1090
 
1091
exp     :       exp '%' exp
1092
                { $$ = d_binary ("%", $1, $3); }
1093
        ;
1094
 
1095
exp     :       exp '+' exp
1096
                { $$ = d_binary ("+", $1, $3); }
1097
        ;
1098
 
1099
exp     :       exp '-' exp
1100
                { $$ = d_binary ("-", $1, $3); }
1101
        ;
1102
 
1103
exp     :       exp LSH exp
1104
                { $$ = d_binary ("<<", $1, $3); }
1105
        ;
1106
 
1107
exp     :       exp RSH exp
1108
                { $$ = d_binary (">>", $1, $3); }
1109
        ;
1110
 
1111
exp     :       exp EQUAL exp
1112
                { $$ = d_binary ("==", $1, $3); }
1113
        ;
1114
 
1115
exp     :       exp NOTEQUAL exp
1116
                { $$ = d_binary ("!=", $1, $3); }
1117
        ;
1118
 
1119
exp     :       exp LEQ exp
1120
                { $$ = d_binary ("<=", $1, $3); }
1121
        ;
1122
 
1123
exp     :       exp GEQ exp
1124
                { $$ = d_binary (">=", $1, $3); }
1125
        ;
1126
 
1127
exp     :       exp '<' exp
1128
                { $$ = d_binary ("<", $1, $3); }
1129
        ;
1130
 
1131
exp     :       exp '&' exp
1132
                { $$ = d_binary ("&", $1, $3); }
1133
        ;
1134
 
1135
exp     :       exp '^' exp
1136
                { $$ = d_binary ("^", $1, $3); }
1137
        ;
1138
 
1139
exp     :       exp '|' exp
1140
                { $$ = d_binary ("|", $1, $3); }
1141
        ;
1142
 
1143
exp     :       exp ANDAND exp
1144
                { $$ = d_binary ("&&", $1, $3); }
1145
        ;
1146
 
1147
exp     :       exp OROR exp
1148
                { $$ = d_binary ("||", $1, $3); }
1149
        ;
1150
 
1151
/* Not 100% sure these are necessary, but they're harmless.  */
1152
exp     :       exp ARROW NAME
1153
                { $$ = d_binary ("->", $1, $3); }
1154
        ;
1155
 
1156
exp     :       exp '.' NAME
1157
                { $$ = d_binary (".", $1, $3); }
1158
        ;
1159
 
1160
exp     :       exp '?' exp ':' exp     %prec '?'
1161
                { $$ = fill_comp (DEMANGLE_COMPONENT_TRINARY, make_operator ("?", 3),
1162
                                    fill_comp (DEMANGLE_COMPONENT_TRINARY_ARG1, $1,
1163
                                                 fill_comp (DEMANGLE_COMPONENT_TRINARY_ARG2, $3, $5)));
1164
                }
1165
        ;
1166
 
1167
exp     :       INT
1168
        ;
1169
 
1170
/* Not generally allowed.  */
1171
exp     :       FLOAT
1172
        ;
1173
 
1174
exp     :       SIZEOF '(' type ')'     %prec UNARY
1175
                { $$ = d_unary ("sizeof", $3); }
1176
        ;
1177
 
1178
/* C++.  */
1179
exp     :       TRUEKEYWORD
1180
                { struct demangle_component *i;
1181
                  i = make_name ("1", 1);
1182
                  $$ = fill_comp (DEMANGLE_COMPONENT_LITERAL,
1183
                                    make_builtin_type ("bool"),
1184
                                    i);
1185
                }
1186
        ;
1187
 
1188
exp     :       FALSEKEYWORD
1189
                { struct demangle_component *i;
1190
                  i = make_name ("0", 1);
1191
                  $$ = fill_comp (DEMANGLE_COMPONENT_LITERAL,
1192
                                    make_builtin_type ("bool"),
1193
                                    i);
1194
                }
1195
        ;
1196
 
1197
/* end of C++.  */
1198
 
1199
%%
1200
 
1201
/* Apply QUALIFIERS to LHS and return a qualified component.  IS_METHOD
1202
   is set if LHS is a method, in which case the qualifiers are logically
1203
   applied to "this".  We apply qualifiers in a consistent order; LHS
1204
   may already be qualified; duplicate qualifiers are not created.  */
1205
 
1206
struct demangle_component *
1207
d_qualify (struct demangle_component *lhs, int qualifiers, int is_method)
1208
{
1209
  struct demangle_component **inner_p;
1210
  enum demangle_component_type type;
1211
 
1212
  /* For now the order is CONST (innermost), VOLATILE, RESTRICT.  */
1213
 
1214
#define HANDLE_QUAL(TYPE, MTYPE, QUAL)                          \
1215
  if ((qualifiers & QUAL) && (type != TYPE) && (type != MTYPE)) \
1216
    {                                                           \
1217
      *inner_p = fill_comp (is_method ? MTYPE : TYPE,   \
1218
                              *inner_p, NULL);                  \
1219
      inner_p = &d_left (*inner_p);                               \
1220
      type = (*inner_p)->type;                                  \
1221
    }                                                           \
1222
  else if (type == TYPE || type == MTYPE)                       \
1223
    {                                                           \
1224
      inner_p = &d_left (*inner_p);                               \
1225
      type = (*inner_p)->type;                                  \
1226
    }
1227
 
1228
  inner_p = &lhs;
1229
 
1230
  type = (*inner_p)->type;
1231
 
1232
  HANDLE_QUAL (DEMANGLE_COMPONENT_RESTRICT, DEMANGLE_COMPONENT_RESTRICT_THIS, QUAL_RESTRICT);
1233
  HANDLE_QUAL (DEMANGLE_COMPONENT_VOLATILE, DEMANGLE_COMPONENT_VOLATILE_THIS, QUAL_VOLATILE);
1234
  HANDLE_QUAL (DEMANGLE_COMPONENT_CONST, DEMANGLE_COMPONENT_CONST_THIS, QUAL_CONST);
1235
 
1236
  return lhs;
1237
}
1238
 
1239
/* Return a builtin type corresponding to FLAGS.  */
1240
 
1241
static struct demangle_component *
1242
d_int_type (int flags)
1243
{
1244
  const char *name;
1245
 
1246
  switch (flags)
1247
    {
1248
    case INT_SIGNED | INT_CHAR:
1249
      name = "signed char";
1250
      break;
1251
    case INT_CHAR:
1252
      name = "char";
1253
      break;
1254
    case INT_UNSIGNED | INT_CHAR:
1255
      name = "unsigned char";
1256
      break;
1257
    case 0:
1258
    case INT_SIGNED:
1259
      name = "int";
1260
      break;
1261
    case INT_UNSIGNED:
1262
      name = "unsigned int";
1263
      break;
1264
    case INT_LONG:
1265
    case INT_SIGNED | INT_LONG:
1266
      name = "long";
1267
      break;
1268
    case INT_UNSIGNED | INT_LONG:
1269
      name = "unsigned long";
1270
      break;
1271
    case INT_SHORT:
1272
    case INT_SIGNED | INT_SHORT:
1273
      name = "short";
1274
      break;
1275
    case INT_UNSIGNED | INT_SHORT:
1276
      name = "unsigned short";
1277
      break;
1278
    case INT_LLONG | INT_LONG:
1279
    case INT_SIGNED | INT_LLONG | INT_LONG:
1280
      name = "long long";
1281
      break;
1282
    case INT_UNSIGNED | INT_LLONG | INT_LONG:
1283
      name = "unsigned long long";
1284
      break;
1285
    default:
1286
      return NULL;
1287
    }
1288
 
1289
  return make_builtin_type (name);
1290
}
1291
 
1292
/* Wrapper to create a unary operation.  */
1293
 
1294
static struct demangle_component *
1295
d_unary (const char *name, struct demangle_component *lhs)
1296
{
1297
  return fill_comp (DEMANGLE_COMPONENT_UNARY, make_operator (name, 1), lhs);
1298
}
1299
 
1300
/* Wrapper to create a binary operation.  */
1301
 
1302
static struct demangle_component *
1303
d_binary (const char *name, struct demangle_component *lhs, struct demangle_component *rhs)
1304
{
1305
  return fill_comp (DEMANGLE_COMPONENT_BINARY, make_operator (name, 2),
1306
                      fill_comp (DEMANGLE_COMPONENT_BINARY_ARGS, lhs, rhs));
1307
}
1308
 
1309
/* Find the end of a symbol name starting at LEXPTR.  */
1310
 
1311
static const char *
1312
symbol_end (const char *lexptr)
1313
{
1314
  const char *p = lexptr;
1315
 
1316
  while (*p && (ISALNUM (*p) || *p == '_' || *p == '$' || *p == '.'))
1317
    p++;
1318
 
1319
  return p;
1320
}
1321
 
1322
/* Take care of parsing a number (anything that starts with a digit).
1323
   The number starts at P and contains LEN characters.  Store the result in
1324
   YYLVAL.  */
1325
 
1326
static int
1327
parse_number (const char *p, int len, int parsed_float)
1328
{
1329
  int unsigned_p = 0;
1330
 
1331
  /* Number of "L" suffixes encountered.  */
1332
  int long_p = 0;
1333
 
1334
  struct demangle_component *signed_type;
1335
  struct demangle_component *unsigned_type;
1336
  struct demangle_component *type, *name;
1337
  enum demangle_component_type literal_type;
1338
 
1339
  if (p[0] == '-')
1340
    {
1341
      literal_type = DEMANGLE_COMPONENT_LITERAL_NEG;
1342
      p++;
1343
      len--;
1344
    }
1345
  else
1346
    literal_type = DEMANGLE_COMPONENT_LITERAL;
1347
 
1348
  if (parsed_float)
1349
    {
1350
      /* It's a float since it contains a point or an exponent.  */
1351
      char c;
1352
 
1353
      /* The GDB lexer checks the result of scanf at this point.  Not doing
1354
         this leaves our error checking slightly weaker but only for invalid
1355
         data.  */
1356
 
1357
      /* See if it has `f' or `l' suffix (float or long double).  */
1358
 
1359
      c = TOLOWER (p[len - 1]);
1360
 
1361
      if (c == 'f')
1362
        {
1363
          len--;
1364
          type = make_builtin_type ("float");
1365
        }
1366
      else if (c == 'l')
1367
        {
1368
          len--;
1369
          type = make_builtin_type ("long double");
1370
        }
1371
      else if (ISDIGIT (c) || c == '.')
1372
        type = make_builtin_type ("double");
1373
      else
1374
        return ERROR;
1375
 
1376
      name = make_name (p, len);
1377
      yylval.comp = fill_comp (literal_type, type, name);
1378
 
1379
      return FLOAT;
1380
    }
1381
 
1382
  /* This treats 0x1 and 1 as different literals.  We also do not
1383
     automatically generate unsigned types.  */
1384
 
1385
  long_p = 0;
1386
  unsigned_p = 0;
1387
  while (len > 0)
1388
    {
1389
      if (p[len - 1] == 'l' || p[len - 1] == 'L')
1390
        {
1391
          len--;
1392
          long_p++;
1393
          continue;
1394
        }
1395
      if (p[len - 1] == 'u' || p[len - 1] == 'U')
1396
        {
1397
          len--;
1398
          unsigned_p++;
1399
          continue;
1400
        }
1401
      break;
1402
    }
1403
 
1404
  if (long_p == 0)
1405
    {
1406
      unsigned_type = make_builtin_type ("unsigned int");
1407
      signed_type = make_builtin_type ("int");
1408
    }
1409
  else if (long_p == 1)
1410
    {
1411
      unsigned_type = make_builtin_type ("unsigned long");
1412
      signed_type = make_builtin_type ("long");
1413
    }
1414
  else
1415
    {
1416
      unsigned_type = make_builtin_type ("unsigned long long");
1417
      signed_type = make_builtin_type ("long long");
1418
    }
1419
 
1420
   if (unsigned_p)
1421
     type = unsigned_type;
1422
   else
1423
     type = signed_type;
1424
 
1425
   name = make_name (p, len);
1426
   yylval.comp = fill_comp (literal_type, type, name);
1427
 
1428
   return INT;
1429
}
1430
 
1431
static char backslashable[] = "abefnrtv";
1432
static char represented[] = "\a\b\e\f\n\r\t\v";
1433
 
1434
/* Translate the backslash the way we would in the host character set.  */
1435
static int
1436
c_parse_backslash (int host_char, int *target_char)
1437
{
1438
  const char *ix;
1439
  ix = strchr (backslashable, host_char);
1440
  if (! ix)
1441
    return 0;
1442
  else
1443
    *target_char = represented[ix - backslashable];
1444
  return 1;
1445
}
1446
 
1447
/* Parse a C escape sequence.  STRING_PTR points to a variable
1448
   containing a pointer to the string to parse.  That pointer
1449
   should point to the character after the \.  That pointer
1450
   is updated past the characters we use.  The value of the
1451
   escape sequence is returned.
1452
 
1453
   A negative value means the sequence \ newline was seen,
1454
   which is supposed to be equivalent to nothing at all.
1455
 
1456
   If \ is followed by a null character, we return a negative
1457
   value and leave the string pointer pointing at the null character.
1458
 
1459
   If \ is followed by 000, we return 0 and leave the string pointer
1460
   after the zeros.  A value of 0 does not mean end of string.  */
1461
 
1462
static int
1463
parse_escape (const char **string_ptr)
1464
{
1465
  int target_char;
1466
  int c = *(*string_ptr)++;
1467
  if (c_parse_backslash (c, &target_char))
1468
    return target_char;
1469
  else
1470
    switch (c)
1471
      {
1472
      case '\n':
1473
        return -2;
1474
      case 0:
1475
        (*string_ptr)--;
1476
        return 0;
1477
      case '^':
1478
        {
1479
          c = *(*string_ptr)++;
1480
 
1481
          if (c == '?')
1482
            return 0177;
1483
          else if (c == '\\')
1484
            target_char = parse_escape (string_ptr);
1485
          else
1486
            target_char = c;
1487
 
1488
          /* Now target_char is something like `c', and we want to find
1489
             its control-character equivalent.  */
1490
          target_char = target_char & 037;
1491
 
1492
          return target_char;
1493
        }
1494
 
1495
      case '0':
1496
      case '1':
1497
      case '2':
1498
      case '3':
1499
      case '4':
1500
      case '5':
1501
      case '6':
1502
      case '7':
1503
        {
1504
          int i = c - '0';
1505
          int count = 0;
1506
          while (++count < 3)
1507
            {
1508
              c = (**string_ptr);
1509
              if (c >= '0' && c <= '7')
1510
                {
1511
                  (*string_ptr)++;
1512
                  i *= 8;
1513
                  i += c - '0';
1514
                }
1515
              else
1516
                {
1517
                  break;
1518
                }
1519
            }
1520
          return i;
1521
        }
1522
      default:
1523
        return c;
1524
      }
1525
}
1526
 
1527
#define HANDLE_SPECIAL(string, comp)                            \
1528
  if (strncmp (tokstart, string, sizeof (string) - 1) == 0)     \
1529
    {                                                           \
1530
      lexptr = tokstart + sizeof (string) - 1;                  \
1531
      yylval.lval = comp;                                       \
1532
      return DEMANGLER_SPECIAL;                                 \
1533
    }
1534
 
1535
#define HANDLE_TOKEN2(string, token)                    \
1536
  if (lexptr[1] == string[1])                           \
1537
    {                                                   \
1538
      lexptr += 2;                                      \
1539
      yylval.opname = string;                           \
1540
      return token;                                     \
1541
    }
1542
 
1543
#define HANDLE_TOKEN3(string, token)                    \
1544
  if (lexptr[1] == string[1] && lexptr[2] == string[2]) \
1545
    {                                                   \
1546
      lexptr += 3;                                      \
1547
      yylval.opname = string;                           \
1548
      return token;                                     \
1549
    }
1550
 
1551
/* Read one token, getting characters through LEXPTR.  */
1552
 
1553
static int
1554
yylex (void)
1555
{
1556
  int c;
1557
  int namelen;
1558
  const char *tokstart, *tokptr;
1559
 
1560
 retry:
1561
  prev_lexptr = lexptr;
1562
  tokstart = lexptr;
1563
 
1564
  switch (c = *tokstart)
1565
    {
1566
    case 0:
1567
      return 0;
1568
 
1569
    case ' ':
1570
    case '\t':
1571
    case '\n':
1572
      lexptr++;
1573
      goto retry;
1574
 
1575
    case '\'':
1576
      /* We either have a character constant ('0' or '\177' for example)
1577
         or we have a quoted symbol reference ('foo(int,int)' in C++
1578
         for example). */
1579
      lexptr++;
1580
      c = *lexptr++;
1581
      if (c == '\\')
1582
        c = parse_escape (&lexptr);
1583
      else if (c == '\'')
1584
        {
1585
          yyerror ("empty character constant");
1586
          return ERROR;
1587
        }
1588
 
1589
      c = *lexptr++;
1590
      if (c != '\'')
1591
        {
1592
          yyerror ("invalid character constant");
1593
          return ERROR;
1594
        }
1595
 
1596
      /* FIXME: We should refer to a canonical form of the character,
1597
         presumably the same one that appears in manglings - the decimal
1598
         representation.  But if that isn't in our input then we have to
1599
         allocate memory for it somewhere.  */
1600
      yylval.comp = fill_comp (DEMANGLE_COMPONENT_LITERAL,
1601
                                 make_builtin_type ("char"),
1602
                                 make_name (tokstart, lexptr - tokstart));
1603
 
1604
      return INT;
1605
 
1606
    case '(':
1607
      if (strncmp (tokstart, "(anonymous namespace)", 21) == 0)
1608
        {
1609
          lexptr += 21;
1610
          yylval.comp = make_name ("(anonymous namespace)",
1611
                                     sizeof "(anonymous namespace)" - 1);
1612
          return NAME;
1613
        }
1614
        /* FALL THROUGH */
1615
 
1616
    case ')':
1617
    case ',':
1618
      lexptr++;
1619
      return c;
1620
 
1621
    case '.':
1622
      if (lexptr[1] == '.' && lexptr[2] == '.')
1623
        {
1624
          lexptr += 3;
1625
          return ELLIPSIS;
1626
        }
1627
 
1628
      /* Might be a floating point number.  */
1629
      if (lexptr[1] < '0' || lexptr[1] > '9')
1630
        goto symbol;            /* Nope, must be a symbol. */
1631
 
1632
      goto try_number;
1633
 
1634
    case '-':
1635
      HANDLE_TOKEN2 ("-=", ASSIGN_MODIFY);
1636
      HANDLE_TOKEN2 ("--", DECREMENT);
1637
      HANDLE_TOKEN2 ("->", ARROW);
1638
 
1639
      /* For construction vtables.  This is kind of hokey.  */
1640
      if (strncmp (tokstart, "-in-", 4) == 0)
1641
        {
1642
          lexptr += 4;
1643
          return CONSTRUCTION_IN;
1644
        }
1645
 
1646
      if (lexptr[1] < '0' || lexptr[1] > '9')
1647
        {
1648
          lexptr++;
1649
          return '-';
1650
        }
1651
      /* FALL THRU into number case.  */
1652
 
1653
    try_number:
1654
    case '0':
1655
    case '1':
1656
    case '2':
1657
    case '3':
1658
    case '4':
1659
    case '5':
1660
    case '6':
1661
    case '7':
1662
    case '8':
1663
    case '9':
1664
      {
1665
        /* It's a number.  */
1666
        int got_dot = 0, got_e = 0, toktype;
1667
        const char *p = tokstart;
1668
        int hex = 0;
1669
 
1670
        if (c == '-')
1671
          p++;
1672
 
1673
        if (c == '0' && (p[1] == 'x' || p[1] == 'X'))
1674
          {
1675
            p += 2;
1676
            hex = 1;
1677
          }
1678
        else if (c == '0' && (p[1]=='t' || p[1]=='T' || p[1]=='d' || p[1]=='D'))
1679
          {
1680
            p += 2;
1681
            hex = 0;
1682
          }
1683
 
1684
        for (;; ++p)
1685
          {
1686
            /* This test includes !hex because 'e' is a valid hex digit
1687
               and thus does not indicate a floating point number when
1688
               the radix is hex.  */
1689
            if (!hex && !got_e && (*p == 'e' || *p == 'E'))
1690
              got_dot = got_e = 1;
1691
            /* This test does not include !hex, because a '.' always indicates
1692
               a decimal floating point number regardless of the radix.
1693
 
1694
               NOTE drow/2005-03-09: This comment is not accurate in C99;
1695
               however, it's not clear that all the floating point support
1696
               in this file is doing any good here.  */
1697
            else if (!got_dot && *p == '.')
1698
              got_dot = 1;
1699
            else if (got_e && (p[-1] == 'e' || p[-1] == 'E')
1700
                     && (*p == '-' || *p == '+'))
1701
              /* This is the sign of the exponent, not the end of the
1702
                 number.  */
1703
              continue;
1704
            /* We will take any letters or digits.  parse_number will
1705
               complain if past the radix, or if L or U are not final.  */
1706
            else if (! ISALNUM (*p))
1707
              break;
1708
          }
1709
        toktype = parse_number (tokstart, p - tokstart, got_dot|got_e);
1710
        if (toktype == ERROR)
1711
          {
1712
            char *err_copy = (char *) alloca (p - tokstart + 1);
1713
 
1714
            memcpy (err_copy, tokstart, p - tokstart);
1715
            err_copy[p - tokstart] = 0;
1716
            yyerror ("invalid number");
1717
            return ERROR;
1718
          }
1719
        lexptr = p;
1720
        return toktype;
1721
      }
1722
 
1723
    case '+':
1724
      HANDLE_TOKEN2 ("+=", ASSIGN_MODIFY);
1725
      HANDLE_TOKEN2 ("++", INCREMENT);
1726
      lexptr++;
1727
      return c;
1728
    case '*':
1729
      HANDLE_TOKEN2 ("*=", ASSIGN_MODIFY);
1730
      lexptr++;
1731
      return c;
1732
    case '/':
1733
      HANDLE_TOKEN2 ("/=", ASSIGN_MODIFY);
1734
      lexptr++;
1735
      return c;
1736
    case '%':
1737
      HANDLE_TOKEN2 ("%=", ASSIGN_MODIFY);
1738
      lexptr++;
1739
      return c;
1740
    case '|':
1741
      HANDLE_TOKEN2 ("|=", ASSIGN_MODIFY);
1742
      HANDLE_TOKEN2 ("||", OROR);
1743
      lexptr++;
1744
      return c;
1745
    case '&':
1746
      HANDLE_TOKEN2 ("&=", ASSIGN_MODIFY);
1747
      HANDLE_TOKEN2 ("&&", ANDAND);
1748
      lexptr++;
1749
      return c;
1750
    case '^':
1751
      HANDLE_TOKEN2 ("^=", ASSIGN_MODIFY);
1752
      lexptr++;
1753
      return c;
1754
    case '!':
1755
      HANDLE_TOKEN2 ("!=", NOTEQUAL);
1756
      lexptr++;
1757
      return c;
1758
    case '<':
1759
      HANDLE_TOKEN3 ("<<=", ASSIGN_MODIFY);
1760
      HANDLE_TOKEN2 ("<=", LEQ);
1761
      HANDLE_TOKEN2 ("<<", LSH);
1762
      lexptr++;
1763
      return c;
1764
    case '>':
1765
      HANDLE_TOKEN3 (">>=", ASSIGN_MODIFY);
1766
      HANDLE_TOKEN2 (">=", GEQ);
1767
      HANDLE_TOKEN2 (">>", RSH);
1768
      lexptr++;
1769
      return c;
1770
    case '=':
1771
      HANDLE_TOKEN2 ("==", EQUAL);
1772
      lexptr++;
1773
      return c;
1774
    case ':':
1775
      HANDLE_TOKEN2 ("::", COLONCOLON);
1776
      lexptr++;
1777
      return c;
1778
 
1779
    case '[':
1780
    case ']':
1781
    case '?':
1782
    case '@':
1783
    case '~':
1784
    case '{':
1785
    case '}':
1786
    symbol:
1787
      lexptr++;
1788
      return c;
1789
 
1790
    case '"':
1791
      /* These can't occur in C++ names.  */
1792
      yyerror ("unexpected string literal");
1793
      return ERROR;
1794
    }
1795
 
1796
  if (!(c == '_' || c == '$' || ISALPHA (c)))
1797
    {
1798
      /* We must have come across a bad character (e.g. ';').  */
1799
      yyerror ("invalid character");
1800
      return ERROR;
1801
    }
1802
 
1803
  /* It's a name.  See how long it is.  */
1804
  namelen = 0;
1805
  do
1806
    c = tokstart[++namelen];
1807
  while (ISALNUM (c) || c == '_' || c == '$');
1808
 
1809
  lexptr += namelen;
1810
 
1811
  /* Catch specific keywords.  Notice that some of the keywords contain
1812
     spaces, and are sorted by the length of the first word.  They must
1813
     all include a trailing space in the string comparison.  */
1814
  switch (namelen)
1815
    {
1816
    case 16:
1817
      if (strncmp (tokstart, "reinterpret_cast", 16) == 0)
1818
        return REINTERPRET_CAST;
1819
      break;
1820
    case 12:
1821
      if (strncmp (tokstart, "construction vtable for ", 24) == 0)
1822
        {
1823
          lexptr = tokstart + 24;
1824
          return CONSTRUCTION_VTABLE;
1825
        }
1826
      if (strncmp (tokstart, "dynamic_cast", 12) == 0)
1827
        return DYNAMIC_CAST;
1828
      break;
1829
    case 11:
1830
      if (strncmp (tokstart, "static_cast", 11) == 0)
1831
        return STATIC_CAST;
1832
      break;
1833
    case 9:
1834
      HANDLE_SPECIAL ("covariant return thunk to ", DEMANGLE_COMPONENT_COVARIANT_THUNK);
1835
      HANDLE_SPECIAL ("reference temporary for ", DEMANGLE_COMPONENT_REFTEMP);
1836
      break;
1837
    case 8:
1838
      HANDLE_SPECIAL ("typeinfo for ", DEMANGLE_COMPONENT_TYPEINFO);
1839
      HANDLE_SPECIAL ("typeinfo fn for ", DEMANGLE_COMPONENT_TYPEINFO_FN);
1840
      HANDLE_SPECIAL ("typeinfo name for ", DEMANGLE_COMPONENT_TYPEINFO_NAME);
1841
      if (strncmp (tokstart, "operator", 8) == 0)
1842
        return OPERATOR;
1843
      if (strncmp (tokstart, "restrict", 8) == 0)
1844
        return RESTRICT;
1845
      if (strncmp (tokstart, "unsigned", 8) == 0)
1846
        return UNSIGNED;
1847
      if (strncmp (tokstart, "template", 8) == 0)
1848
        return TEMPLATE;
1849
      if (strncmp (tokstart, "volatile", 8) == 0)
1850
        return VOLATILE_KEYWORD;
1851
      break;
1852
    case 7:
1853
      HANDLE_SPECIAL ("virtual thunk to ", DEMANGLE_COMPONENT_VIRTUAL_THUNK);
1854
      if (strncmp (tokstart, "wchar_t", 7) == 0)
1855
        return WCHAR_T;
1856
      break;
1857
    case 6:
1858
      if (strncmp (tokstart, "global constructors keyed to ", 29) == 0)
1859
        {
1860
          const char *p;
1861
          lexptr = tokstart + 29;
1862
          yylval.typed_val_int.val = GLOBAL_CONSTRUCTORS;
1863
          /* Find the end of the symbol.  */
1864
          p = symbol_end (lexptr);
1865
          yylval.typed_val_int.type = make_name (lexptr, p - lexptr);
1866
          lexptr = p;
1867
          return GLOBAL;
1868
        }
1869
      if (strncmp (tokstart, "global destructors keyed to ", 28) == 0)
1870
        {
1871
          const char *p;
1872
          lexptr = tokstart + 28;
1873
          yylval.typed_val_int.val = GLOBAL_DESTRUCTORS;
1874
          /* Find the end of the symbol.  */
1875
          p = symbol_end (lexptr);
1876
          yylval.typed_val_int.type = make_name (lexptr, p - lexptr);
1877
          lexptr = p;
1878
          return GLOBAL;
1879
        }
1880
 
1881
      HANDLE_SPECIAL ("vtable for ", DEMANGLE_COMPONENT_VTABLE);
1882
      if (strncmp (tokstart, "delete", 6) == 0)
1883
        return DELETE;
1884
      if (strncmp (tokstart, "struct", 6) == 0)
1885
        return STRUCT;
1886
      if (strncmp (tokstart, "signed", 6) == 0)
1887
        return SIGNED_KEYWORD;
1888
      if (strncmp (tokstart, "sizeof", 6) == 0)
1889
        return SIZEOF;
1890
      if (strncmp (tokstart, "double", 6) == 0)
1891
        return DOUBLE_KEYWORD;
1892
      break;
1893
    case 5:
1894
      HANDLE_SPECIAL ("guard variable for ", DEMANGLE_COMPONENT_GUARD);
1895
      if (strncmp (tokstart, "false", 5) == 0)
1896
        return FALSEKEYWORD;
1897
      if (strncmp (tokstart, "class", 5) == 0)
1898
        return CLASS;
1899
      if (strncmp (tokstart, "union", 5) == 0)
1900
        return UNION;
1901
      if (strncmp (tokstart, "float", 5) == 0)
1902
        return FLOAT_KEYWORD;
1903
      if (strncmp (tokstart, "short", 5) == 0)
1904
        return SHORT;
1905
      if (strncmp (tokstart, "const", 5) == 0)
1906
        return CONST_KEYWORD;
1907
      break;
1908
    case 4:
1909
      if (strncmp (tokstart, "void", 4) == 0)
1910
        return VOID;
1911
      if (strncmp (tokstart, "bool", 4) == 0)
1912
        return BOOL;
1913
      if (strncmp (tokstart, "char", 4) == 0)
1914
        return CHAR;
1915
      if (strncmp (tokstart, "enum", 4) == 0)
1916
        return ENUM;
1917
      if (strncmp (tokstart, "long", 4) == 0)
1918
        return LONG;
1919
      if (strncmp (tokstart, "true", 4) == 0)
1920
        return TRUEKEYWORD;
1921
      break;
1922
    case 3:
1923
      HANDLE_SPECIAL ("VTT for ", DEMANGLE_COMPONENT_VTT);
1924
      HANDLE_SPECIAL ("non-virtual thunk to ", DEMANGLE_COMPONENT_THUNK);
1925
      if (strncmp (tokstart, "new", 3) == 0)
1926
        return NEW;
1927
      if (strncmp (tokstart, "int", 3) == 0)
1928
        return INT_KEYWORD;
1929
      break;
1930
    default:
1931
      break;
1932
    }
1933
 
1934
  yylval.comp = make_name (tokstart, namelen);
1935
  return NAME;
1936
}
1937
 
1938
static void
1939
yyerror (char *msg)
1940
{
1941
  if (global_errmsg)
1942
    return;
1943
 
1944
  error_lexptr = prev_lexptr;
1945
  global_errmsg = msg ? msg : "parse error";
1946
}
1947
 
1948
/* Allocate a chunk of the components we'll need to build a tree.  We
1949
   generally allocate too many components, but the extra memory usage
1950
   doesn't hurt because the trees are temporary and the storage is
1951
   reused.  More may be allocated later, by d_grab.  */
1952
static void
1953
allocate_info (void)
1954
{
1955
  if (demangle_info == NULL)
1956
    {
1957
      demangle_info = malloc (sizeof (struct demangle_info));
1958
      demangle_info->prev = NULL;
1959
      demangle_info->next = NULL;
1960
    }
1961
  else
1962
    while (demangle_info->prev)
1963
      demangle_info = demangle_info->prev;
1964
 
1965
  demangle_info->used = 0;
1966
}
1967
 
1968
/* Convert RESULT to a string.  The return value is allocated
1969
   using xmalloc.  ESTIMATED_LEN is used only as a guide to the
1970
   length of the result.  This functions handles a few cases that
1971
   cplus_demangle_print does not, specifically the global destructor
1972
   and constructor labels.  */
1973
 
1974
char *
1975
cp_comp_to_string (struct demangle_component *result, int estimated_len)
1976
{
1977
  char *str, *prefix = NULL, *buf;
1978
  size_t err = 0;
1979
 
1980
  if (result->type == GLOBAL_DESTRUCTORS)
1981
    {
1982
      result = d_left (result);
1983
      prefix = "global destructors keyed to ";
1984
    }
1985
  else if (result->type == GLOBAL_CONSTRUCTORS)
1986
    {
1987
      result = d_left (result);
1988
      prefix = "global constructors keyed to ";
1989
    }
1990
 
1991
  str = cplus_demangle_print (DMGL_PARAMS | DMGL_ANSI, result, estimated_len, &err);
1992
  if (str == NULL)
1993
    return NULL;
1994
 
1995
  if (prefix == NULL)
1996
    return str;
1997
 
1998
  buf = malloc (strlen (str) + strlen (prefix) + 1);
1999
  strcpy (buf, prefix);
2000
  strcat (buf, str);
2001
  free (str);
2002
  return (buf);
2003
}
2004
 
2005
/* Convert a demangled name to a demangle_component tree.  On success,
2006
   the root of the new tree is returned; it is valid until the next
2007
   call to this function and should not be freed.  On error, NULL is
2008
   returned, and an error message will be set in *ERRMSG (which does
2009
   not need to be freed).  */
2010
 
2011
struct demangle_component *
2012
cp_demangled_name_to_comp (const char *demangled_name, const char **errmsg)
2013
{
2014
  static char errbuf[60];
2015
  struct demangle_component *result;
2016
 
2017
  prev_lexptr = lexptr = demangled_name;
2018
  error_lexptr = NULL;
2019
  global_errmsg = NULL;
2020
 
2021
  allocate_info ();
2022
 
2023
  if (yyparse ())
2024
    {
2025
      if (global_errmsg && errmsg)
2026
        {
2027
          snprintf (errbuf, sizeof (errbuf) - 2, "%s, near `%s",
2028
                    global_errmsg, error_lexptr);
2029
          strcat (errbuf, "'");
2030
          *errmsg = errbuf;
2031
        }
2032
      return NULL;
2033
    }
2034
 
2035
  result = global_result;
2036
  global_result = NULL;
2037
 
2038
  return result;
2039
}
2040
 
2041
#ifdef TEST_CPNAMES
2042
 
2043
static void
2044
cp_print (struct demangle_component *result)
2045
{
2046
  char *str;
2047
  size_t err = 0;
2048
 
2049
  if (result->type == GLOBAL_DESTRUCTORS)
2050
    {
2051
      result = d_left (result);
2052
      fputs ("global destructors keyed to ", stdout);
2053
    }
2054
  else if (result->type == GLOBAL_CONSTRUCTORS)
2055
    {
2056
      result = d_left (result);
2057
      fputs ("global constructors keyed to ", stdout);
2058
    }
2059
 
2060
  str = cplus_demangle_print (DMGL_PARAMS | DMGL_ANSI, result, 64, &err);
2061
  if (str == NULL)
2062
    return;
2063
 
2064
  fputs (str, stdout);
2065
 
2066
  free (str);
2067
}
2068
 
2069
static char
2070
trim_chars (char *lexptr, char **extra_chars)
2071
{
2072
  char *p = (char *) symbol_end (lexptr);
2073
  char c = 0;
2074
 
2075
  if (*p)
2076
    {
2077
      c = *p;
2078
      *p = 0;
2079
      *extra_chars = p + 1;
2080
    }
2081
 
2082
  return c;
2083
}
2084
 
2085
int
2086
main (int argc, char **argv)
2087
{
2088
  char *str2, *extra_chars = "", c;
2089
  char buf[65536];
2090
  int arg;
2091
  const char *errmsg;
2092
  struct demangle_component *result;
2093
 
2094
  arg = 1;
2095
  if (argv[arg] && strcmp (argv[arg], "--debug") == 0)
2096
    {
2097
      yydebug = 1;
2098
      arg++;
2099
    }
2100
 
2101
  if (argv[arg] == NULL)
2102
    while (fgets (buf, 65536, stdin) != NULL)
2103
      {
2104
        int len;
2105
        buf[strlen (buf) - 1] = 0;
2106
        /* Use DMGL_VERBOSE to get expanded standard substitutions.  */
2107
        c = trim_chars (buf, &extra_chars);
2108
        str2 = cplus_demangle (buf, DMGL_PARAMS | DMGL_ANSI | DMGL_VERBOSE);
2109
        if (str2 == NULL)
2110
          {
2111
            /* printf ("Demangling error\n"); */
2112
            if (c)
2113
              printf ("%s%c%s\n", buf, c, extra_chars);
2114
            else
2115
              printf ("%s\n", buf);
2116
            continue;
2117
          }
2118
        result = cp_demangled_name_to_comp (str2, &errmsg);
2119
        if (result == NULL)
2120
          {
2121
            fputs (errmsg, stderr);
2122
            fputc ('\n', stderr);
2123
            continue;
2124
          }
2125
 
2126
        cp_print (result);
2127
 
2128
        free (str2);
2129
        if (c)
2130
          {
2131
            putchar (c);
2132
            fputs (extra_chars, stdout);
2133
          }
2134
        putchar ('\n');
2135
      }
2136
  else
2137
    {
2138
      result = cp_demangled_name_to_comp (argv[arg], &errmsg);
2139
      if (result == NULL)
2140
        {
2141
          fputs (errmsg, stderr);
2142
          fputc ('\n', stderr);
2143
          return 0;
2144
        }
2145
      cp_print (result);
2146
      putchar ('\n');
2147
    }
2148
  return 0;
2149
}
2150
 
2151
#endif

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