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[/] [openrisc/] [trunk/] [gnu-src/] [gcc-4.2.2/] [gcc/] [treelang/] [parse.y] - Blame information for rev 307

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1 38 julius
/* -*- c -*- emacs mode c */
2
/* TREELANG Compiler parser.
3
 
4
---------------------------------------------------------------------
5
 
6
Copyright (C) 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2007
7
Free Software Foundation, Inc.
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 3, or (at your option) any
12
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; see the file COPYING3.  If not see
21
.
22
 
23
In other words, you are welcome to use, share and improve this program.
24
You are forbidden to forbid anyone else to use, share and improve
25
what you give them.   Help stamp out software-hoarding!
26
 
27
---------------------------------------------------------------------
28
 
29
Written by Tim Josling 1999-2001, based in part on other parts of
30
the GCC compiler.  */
31
 
32
/* Grammar Conflicts
33
   *****************
34
   There are no conflicts in this grammar.  Please keep it that way.  */
35
 
36
%{
37
#include "config.h"
38
#include "system.h"
39
#include "coretypes.h"
40
#include "tm.h"
41
#include "timevar.h"
42
#include "tree.h"
43
 
44
#include "treelang.h"
45
#include "treetree.h"
46
#include "toplev.h"
47
 
48
#define YYDEBUG 1
49
#define YYPRINT(file, type, value) print_token (file, type, value)
50
#define YYERROR_VERBOSE YES
51
 
52
  /* My yylex routine used to intercept calls to flex generated code, to
53
     record lex time.  */
54
  int yylex (void);
55
  static inline int my_yylex (void);
56
 
57
  /* Call lex, but ensure time is charged to TV_LEX.  */
58
  static inline int
59
    my_yylex (void)
60
    {
61
      int res;
62
      timevar_push (TV_LEX);
63
      res = yylex ();
64
      timevar_pop (TV_LEX);
65
      return res;
66
    }
67
#define yylex my_yylex
68
 
69
  extern int option_parser_trace;
70
 
71
  /* Local prototypes.  */
72
  static void yyerror (const char *error_message);
73
  int yyparse (void);
74
  void print_token (FILE *file, unsigned int type ATTRIBUTE_UNUSED,
75
                    YYSTYPE value);
76
  static struct prod_token_parm_item *reverse_prod_list
77
    (struct prod_token_parm_item *old_first);
78
  static void ensure_not_void (unsigned int type,
79
                               struct prod_token_parm_item *name);
80
  static int check_type_match (int type_num, struct prod_token_parm_item *exp);
81
  static int get_common_type (struct prod_token_parm_item *type1,
82
                              struct prod_token_parm_item *type2);
83
  static struct prod_token_parm_item *make_integer_constant
84
    (struct prod_token_parm_item *value);
85
  static struct prod_token_parm_item *make_plus_expression
86
    (struct prod_token_parm_item *tok, struct prod_token_parm_item *op1,
87
     struct prod_token_parm_item *op2, int type_code, int prod_code);
88
  static void set_storage (struct prod_token_parm_item *prod);
89
 
90
  /* File global variables.  */
91
  static struct prod_token_parm_item *current_function = NULL;
92
%}
93
 
94
/* Not %raw - seems to have bugs.  */
95
%token_table
96
 
97
/* Punctuation.  */
98
%token RIGHT_BRACE
99
%token LEFT_BRACE
100
%token RIGHT_SQUARE_BRACKET
101
%token LEFT_SQUARE_BRACKET
102
%token RIGHT_PARENTHESIS
103
%token LEFT_PARENTHESIS
104
%token SEMICOLON
105
%token ASTERISK
106
%token COMMA
107
%right EQUALS
108
%right ASSIGN
109
%left  tl_PLUS
110
%left  tl_MINUS
111
 
112
/* Literals.  */
113
%token INTEGER
114
 
115
/* Keywords.  */
116
%token IF
117
%token ELSE
118
%token tl_RETURN
119
%token CHAR
120
%token INT
121
%token UNSIGNED
122
%token VOID
123
%token TYPEDEF
124
%token NAME
125
%token STATIC
126
%token AUTOMATIC
127
%token EXTERNAL_DEFINITION
128
%token EXTERNAL_REFERENCE
129
 
130
/* Tokens not passed to parser.  */
131
%token WHITESPACE
132
%token COMMENT
133
 
134
/* Pseudo tokens - productions.  */
135
%token PROD_VARIABLE_NAME
136
%token PROD_TYPE_NAME
137
%token PROD_FUNCTION_NAME
138
%token PROD_INTEGER_CONSTANT
139
%token PROD_PLUS_EXPRESSION
140
%token PROD_MINUS_EXPRESSION
141
%token PROD_ASSIGN_EXPRESSION
142
%token PROD_VARIABLE_REFERENCE_EXPRESSION
143
%token PROD_PARAMETER
144
%token PROD_FUNCTION_INVOCATION
145
%expect 0
146
%%
147
 
148
file:
149
/* Nil.  */ {
150
  /* Nothing to do.  */
151
}
152
|declarations {
153
  /* Nothing to do.  */
154
}
155
;
156
 
157
 
158
declarations:
159
declaration {
160
  /* Nothing to do.  */
161
}
162
| declarations declaration {
163
  /* Nothing to do.  */
164
}
165
;
166
 
167
declaration:
168
variable_def {
169
  /* Nothing to do.  */
170
}
171
|function_prototype {
172
  /* Nothing to do.  */
173
}
174
|function {
175
  /* Nothing to do.  */
176
}
177
;
178
 
179
variable_def:
180
storage typename NAME init_opt SEMICOLON {
181
  struct prod_token_parm_item *tok;
182
  struct prod_token_parm_item *prod;
183
  tok = $3;
184
  prod = make_production (PROD_VARIABLE_NAME, tok);
185
  SYMBOL_TABLE_NAME (prod) = tok;
186
  EXPRESSION_TYPE (prod) = $2;
187
  VAR_INIT (prod) = $4;
188
  NUMERIC_TYPE (prod) =
189
    NUMERIC_TYPE (( (struct prod_token_parm_item *)EXPRESSION_TYPE (prod)));
190
  ensure_not_void (NUMERIC_TYPE (prod), tok);
191
  if (insert_tree_name (prod))
192
    {
193
      YYERROR;
194
    }
195
  STORAGE_CLASS_TOKEN (prod) = $1;
196
  set_storage (prod);
197
 
198
  if (VAR_INIT (prod))
199
    {
200
      gcc_assert (((struct prod_token_parm_item *)
201
                   VAR_INIT (prod))->tp.pro.code);
202
      if (STORAGE_CLASS (prod) == EXTERNAL_REFERENCE_STORAGE)
203
        {
204
          error("%Hexternal reference variable %q.*s has an initial value",
205
                &tok->tp.tok.location, tok->tp.tok.length, tok->tp.tok.chars);
206
          YYERROR;
207
          VAR_INIT (prod) = NULL;
208
        }
209
 
210
    }
211
 
212
  prod->tp.pro.code = tree_code_create_variable
213
    (STORAGE_CLASS (prod),
214
     ((struct prod_token_parm_item *)SYMBOL_TABLE_NAME (prod))->tp.tok.chars,
215
     ((struct prod_token_parm_item *)SYMBOL_TABLE_NAME (prod))->tp.tok.length,
216
     NUMERIC_TYPE (prod),
217
     VAR_INIT (prod) ?
218
     ((struct prod_token_parm_item *)VAR_INIT (prod))->tp.pro.code : NULL,
219
     tok->tp.tok.location);
220
  gcc_assert (prod->tp.pro.code);
221
}
222
;
223
 
224
storage:
225
STATIC
226
|AUTOMATIC
227
|EXTERNAL_DEFINITION
228
|EXTERNAL_REFERENCE
229
;
230
 
231
parameter:
232
typename NAME {
233
  struct prod_token_parm_item *tok;
234
  struct prod_token_parm_item *prod;
235
  struct prod_token_parm_item *prod2;
236
  tok = $2;
237
  prod = make_production (PROD_VARIABLE_NAME, tok);
238
  SYMBOL_TABLE_NAME (prod) = $2;
239
  EXPRESSION_TYPE (prod) = $1;
240
  NUMERIC_TYPE (prod) =
241
    NUMERIC_TYPE (( (struct prod_token_parm_item *)EXPRESSION_TYPE (prod)));
242
  ensure_not_void (NUMERIC_TYPE (prod), tok);
243
  if (insert_tree_name (prod))
244
    {
245
      YYERROR;
246
    }
247
  prod2 = make_production (PROD_PARAMETER, tok);
248
  VARIABLE (prod2) = prod;
249
  $$ = prod2;
250
}
251
;
252
 
253
function_prototype:
254
storage typename NAME LEFT_PARENTHESIS parameters_opt RIGHT_PARENTHESIS SEMICOLON {
255
  struct prod_token_parm_item *tok;
256
  struct prod_token_parm_item *prod;
257
  struct prod_token_parm_item *type;
258
  struct prod_token_parm_item *first_parms;
259
  struct prod_token_parm_item *last_parms;
260
  struct prod_token_parm_item *this_parms;
261
  struct prod_token_parm_item *this_parm;
262
  struct prod_token_parm_item *this_parm_var;
263
  tok = $3;
264
  prod = make_production (PROD_FUNCTION_NAME, $3);
265
  SYMBOL_TABLE_NAME (prod) = $3;
266
  EXPRESSION_TYPE (prod) = $2;
267
  NUMERIC_TYPE (prod) =
268
    NUMERIC_TYPE (( (struct prod_token_parm_item *)EXPRESSION_TYPE (prod)));
269
  PARAMETERS (prod) = reverse_prod_list ($5);
270
  insert_tree_name (prod);
271
  STORAGE_CLASS_TOKEN (prod) = $1;
272
  set_storage (prod);
273
  switch (STORAGE_CLASS (prod))
274
    {
275
    case STATIC_STORAGE:
276
    case EXTERNAL_DEFINITION_STORAGE:
277
    case EXTERNAL_REFERENCE_STORAGE:
278
      break;
279
 
280
    case AUTOMATIC_STORAGE:
281
      error ("%Hfunction %q.*s cannot be automatic",
282
             &tok->tp.tok.location, tok->tp.tok.length, tok->tp.tok.chars);
283
      YYERROR;
284
      break;
285
 
286
    default:
287
      gcc_unreachable ();
288
    }
289
  type = EXPRESSION_TYPE (prod);
290
  /* Create a parameter list in a non-front end specific format.  */
291
  for (first_parms = NULL, last_parms = NULL, this_parm = PARAMETERS (prod);
292
       this_parm;
293
       this_parm = this_parm->tp.pro.next)
294
    {
295
      gcc_assert (this_parm->category == production_category);
296
      this_parm_var = VARIABLE (this_parm);
297
 
298
      gcc_assert (this_parm_var);
299
      gcc_assert (this_parm_var->category == production_category);
300
      gcc_assert (this_parm_var->tp.pro.main_token);
301
 
302
      this_parms = my_malloc (sizeof (struct prod_token_parm_item));
303
 
304
      this_parms->tp.par.variable_name =
305
        this_parm_var->tp.pro.main_token->tp.tok.chars;
306
      this_parms->category = parameter_category;
307
      this_parms->type = NUMERIC_TYPE
308
        (( (struct prod_token_parm_item *)EXPRESSION_TYPE (this_parm_var)));
309
      if (last_parms)
310
        {
311
          last_parms->tp.par.next = this_parms;
312
          last_parms = this_parms;
313
        }
314
      else
315
        {
316
          first_parms = this_parms;
317
          last_parms = this_parms;
318
        }
319
      this_parms->tp.par.where_to_put_var_tree =
320
        & (((struct prod_token_parm_item *)VARIABLE (this_parm))->tp.pro.code);
321
    }
322
  FIRST_PARMS (prod) = first_parms;
323
 
324
  prod->tp.pro.code =
325
    tree_code_create_function_prototype (tok->tp.tok.chars,
326
                                         STORAGE_CLASS (prod),
327
                                         NUMERIC_TYPE (type),
328
                                         first_parms, tok->tp.tok.location);
329
 
330
#ifdef ENABLE_CHECKING
331
  /* Check all the parameters have code.  */
332
  for (this_parm = PARAMETERS (prod);
333
       this_parm;
334
       this_parm = this_parm->tp.pro.next)
335
    {
336
      gcc_assert ((struct prod_token_parm_item *)VARIABLE (this_parm));
337
      gcc_assert (((struct prod_token_parm_item *)
338
                   VARIABLE (this_parm))->tp.pro.code);
339
    }
340
#endif
341
}
342
;
343
 
344
function:
345
NAME LEFT_BRACE {
346
  struct prod_token_parm_item *proto;
347
  struct prod_token_parm_item search_prod;
348
  struct prod_token_parm_item *tok;
349
  tok = $1;
350
  SYMBOL_TABLE_NAME ((&search_prod)) = tok;
351
  search_prod.category = token_category;
352
  current_function = proto = lookup_tree_name (&search_prod);
353
  if (!proto)
354
    {
355
      error ("%Hno prototype found for %q.*s", &tok->tp.tok.location,
356
             tok->tp.tok.length, tok->tp.tok.chars);
357
      YYERROR;
358
    }
359
 
360
  gcc_assert (proto->tp.pro.code);
361
 
362
  tree_code_create_function_initial (proto->tp.pro.code, tok->tp.tok.location);
363
}
364
 
365
variable_defs_opt statements_opt RIGHT_BRACE {
366
  struct prod_token_parm_item *tok;
367
  tok = $1;
368
  tree_code_create_function_wrapup (tok->tp.tok.location);
369
  current_function = NULL;
370
}
371
;
372
 
373
variable_defs_opt:
374
/* Nil.  */ {
375
  $$ = 0;
376
}
377
|variable_defs {
378
  $$ = $1;
379
}
380
;
381
 
382
statements_opt:
383
/* Nil.  */ {
384
  $$ = 0;
385
}
386
|statements {
387
  $$ = $1;
388
}
389
;
390
 
391
variable_defs:
392
variable_def {
393
  /* Nothing to do.  */
394
}
395
|variable_defs variable_def {
396
  /* Nothing to do.  */
397
}
398
;
399
 
400
typename:
401
INT {
402
  struct prod_token_parm_item *tok;
403
  struct prod_token_parm_item *prod;
404
  tok = $1;
405
  prod = make_production (PROD_TYPE_NAME, tok);
406
  NUMERIC_TYPE (prod) = SIGNED_INT;
407
  prod->tp.pro.code = tree_code_get_type (NUMERIC_TYPE (prod));
408
  $$ = prod;
409
}
410
|UNSIGNED INT {
411
  struct prod_token_parm_item *tok;
412
  struct prod_token_parm_item *prod;
413
  tok = $1;
414
  prod = make_production (PROD_TYPE_NAME, tok);
415
  NUMERIC_TYPE (prod) = UNSIGNED_INT;
416
  prod->tp.pro.code = tree_code_get_type (NUMERIC_TYPE (prod));
417
  $$ = prod;
418
}
419
|CHAR {
420
  struct prod_token_parm_item *tok;
421
  struct prod_token_parm_item *prod;
422
  tok = $1;
423
  prod = make_production (PROD_TYPE_NAME, tok);
424
  NUMERIC_TYPE (prod) = SIGNED_CHAR;
425
  prod->tp.pro.code = tree_code_get_type (NUMERIC_TYPE (prod));
426
  $$ = prod;
427
}
428
|UNSIGNED CHAR {
429
  struct prod_token_parm_item *tok;
430
  struct prod_token_parm_item *prod;
431
  tok = $1;
432
  prod = make_production (PROD_TYPE_NAME, tok);
433
  NUMERIC_TYPE (prod) = UNSIGNED_CHAR;
434
  prod->tp.pro.code = tree_code_get_type (NUMERIC_TYPE (prod));
435
  $$ = prod;
436
}
437
|VOID {
438
  struct prod_token_parm_item *tok;
439
  struct prod_token_parm_item *prod;
440
  tok = $1;
441
  prod = make_production (PROD_TYPE_NAME, tok);
442
  NUMERIC_TYPE (prod) = VOID_TYPE;
443
  prod->tp.pro.code = tree_code_get_type (NUMERIC_TYPE (prod));
444
  $$ = prod;
445
}
446
;
447
 
448
parameters_opt:
449
/* Nothing to do.  */ {
450
 $$ = 0;
451
}
452
| parameters {
453
 $$ = $1;
454
}
455
;
456
 
457
parameters:
458
parameter {
459
  /* Nothing to do.  */
460
  $$ = $1;
461
}
462
|parameters COMMA parameter {
463
  struct prod_token_parm_item *prod1;
464
  prod1 = $3;
465
  prod1->tp.pro.next = $1; /* Insert in reverse order.  */
466
  $$ = prod1;
467
}
468
;
469
 
470
statements:
471
statement {
472
  /* Nothing to do.  */
473
}
474
|statements statement {
475
  /* Nothing to do.  */
476
}
477
;
478
 
479
statement:
480
expression SEMICOLON {
481
  struct prod_token_parm_item *exp;
482
  exp = $1;
483
  tree_code_output_expression_statement (exp->tp.pro.code,
484
                                         exp->tp.pro.main_token->tp.tok.location);
485
}
486
|return SEMICOLON {
487
  /* Nothing to do.  */
488
}
489
|if_statement {
490
  /* Nothing to do.  */
491
}
492
;
493
 
494
if_statement:
495
IF LEFT_PARENTHESIS expression RIGHT_PARENTHESIS {
496
  struct prod_token_parm_item *tok;
497
  struct prod_token_parm_item *exp;
498
  tok = $1;
499
  exp = $3;
500
  ensure_not_void (NUMERIC_TYPE (exp), exp->tp.pro.main_token);
501
  tree_code_if_start (exp->tp.pro.code, tok->tp.tok.location);
502
}
503
LEFT_BRACE variable_defs_opt statements_opt RIGHT_BRACE {
504
  /* Just let the statements flow.  */
505
}
506
ELSE {
507
  struct prod_token_parm_item *tok;
508
  tok = $1;
509
  tree_code_if_else (tok->tp.tok.location);
510
}
511
LEFT_BRACE variable_defs_opt statements_opt RIGHT_BRACE {
512
  struct prod_token_parm_item *tok;
513
  tok = $1;
514
  tree_code_if_end (tok->tp.tok.location);
515
}
516
;
517
 
518
 
519
return:
520
tl_RETURN expression_opt {
521
  struct prod_token_parm_item *type_prod;
522
  struct prod_token_parm_item *ret_tok = $1;
523
  struct prod_token_parm_item *exp = $2;
524
 
525
  type_prod = EXPRESSION_TYPE (current_function);
526
  if (NUMERIC_TYPE (type_prod) == VOID_TYPE)
527
    if (exp == NULL)
528
      tree_code_generate_return (type_prod->tp.pro.code, NULL);
529
    else
530
      {
531
        warning (0, "%Hredundant expression in return",
532
                 &ret_tok->tp.tok.location);
533
        tree_code_generate_return (type_prod->tp.pro.code, NULL);
534
       }
535
  else
536
    if (exp == NULL)
537
        error ("%Hexpression missing in return", &ret_tok->tp.tok.location);
538
    else
539
      {
540
        /* Check same type.  */
541
        if (check_type_match (NUMERIC_TYPE (type_prod), exp))
542
          {
543
            gcc_assert (type_prod->tp.pro.code);
544
            gcc_assert (exp->tp.pro.code);
545
 
546
            /* Generate the code. */
547
            tree_code_generate_return (type_prod->tp.pro.code,
548
                                       exp->tp.pro.code);
549
          }
550
      }
551
}
552
;
553
 
554
expression_opt:
555
/* Nil.  */ {
556
  $$ = 0;
557
}
558
|expression {
559
  struct prod_token_parm_item *exp;
560
  exp = $1;
561
  gcc_assert (exp->tp.pro.code);
562
 
563
  $$ = $1;
564
}
565
;
566
 
567
expression:
568
INTEGER {
569
  $$ = make_integer_constant ($1);
570
}
571
|variable_ref {
572
  $$ = $1;
573
}
574
|expression tl_PLUS expression {
575
  struct prod_token_parm_item *tok = $2;
576
  struct prod_token_parm_item *op1 = $1;
577
  struct prod_token_parm_item *op2 = $3;
578
  int type_code = get_common_type (op1, op2);
579
  if (!type_code)
580
    YYERROR;
581
  $$ = make_plus_expression (tok, op1, op2, type_code, EXP_PLUS);
582
}
583
|expression tl_MINUS expression %prec tl_PLUS {
584
  struct prod_token_parm_item *tok = $2;
585
  struct prod_token_parm_item *op1 = $1;
586
  struct prod_token_parm_item *op2 = $3;
587
  int type_code = get_common_type (op1, op2);
588
  if (!type_code)
589
    YYERROR;
590
  $$ = make_plus_expression (tok, op1, op2, type_code, EXP_MINUS);
591
}
592
|expression EQUALS expression {
593
  struct prod_token_parm_item *tok = $2;
594
  struct prod_token_parm_item *op1 = $1;
595
  struct prod_token_parm_item *op2 = $3;
596
  int type_code = NUMERIC_TYPE (op1);
597
  if (!type_code)
598
    YYERROR;
599
  $$ = make_plus_expression
600
     (tok, op1, op2, type_code, EXP_EQUALS);
601
}
602
|variable_ref ASSIGN expression {
603
  struct prod_token_parm_item *tok = $2;
604
  struct prod_token_parm_item *op1 = $1;
605
  struct prod_token_parm_item *op2 = $3;
606
  int type_code = NUMERIC_TYPE (op1);
607
  if (!type_code)
608
    YYERROR;
609
  $$ = make_plus_expression
610
     (tok, op1, op2, type_code, EXP_ASSIGN);
611
}
612
|function_invocation {
613
  $$ = $1;
614
}
615
;
616
 
617
function_invocation:
618
NAME LEFT_PARENTHESIS expressions_with_commas_opt RIGHT_PARENTHESIS {
619
  struct prod_token_parm_item *prod;
620
  struct prod_token_parm_item *tok;
621
  struct prod_token_parm_item search_prod;
622
  struct prod_token_parm_item *proto;
623
  struct prod_token_parm_item *exp;
624
  struct prod_token_parm_item *exp_proto;
625
  struct prod_token_parm_item *var;
626
  int exp_proto_count;
627
  int exp_count;
628
  tree parms;
629
  tree type;
630
 
631
  tok = $1;
632
  prod = make_production (PROD_FUNCTION_INVOCATION, tok);
633
  SYMBOL_TABLE_NAME (prod) = tok;
634
  PARAMETERS (prod) = reverse_prod_list ($3);
635
  SYMBOL_TABLE_NAME ((&search_prod)) = tok;
636
  search_prod.category = token_category;
637
  proto = lookup_tree_name (&search_prod);
638
  if (!proto)
639
    {
640
      error ("%Hfunction prototype not found for %q.*s",
641
             &tok->tp.tok.location, tok->tp.tok.length, tok->tp.tok.chars);
642
      YYERROR;
643
    }
644
  EXPRESSION_TYPE (prod) = EXPRESSION_TYPE (proto);
645
  NUMERIC_TYPE (prod) = NUMERIC_TYPE (proto);
646
  /* Count the expressions and ensure they match the prototype.  */
647
  for (exp_proto_count = 0, exp_proto = PARAMETERS (proto);
648
       exp_proto; exp_proto = exp_proto->tp.pro.next)
649
    exp_proto_count++;
650
 
651
  for (exp_count = 0, exp = PARAMETERS (prod); exp; exp = exp->tp.pro.next)
652
    exp_count++;
653
 
654
  if (exp_count !=  exp_proto_count)
655
    {
656
      error ("%Hexpression count mismatch %q.*s with prototype",
657
             &tok->tp.tok.location, tok->tp.tok.length, tok->tp.tok.chars);
658
      YYERROR;
659
    }
660
  parms = tree_code_init_parameters ();
661
  for (exp_proto = PARAMETERS (proto), exp = PARAMETERS (prod);
662
       exp_proto;
663
       exp = exp->tp.pro.next, exp_proto = exp_proto->tp.pro.next)
664
    {
665
      gcc_assert (exp);
666
      gcc_assert (exp_proto);
667
      gcc_assert (exp->tp.pro.code);
668
 
669
      var = VARIABLE (exp_proto);
670
 
671
      gcc_assert (var);
672
      gcc_assert (var->tp.pro.code);
673
 
674
      parms = tree_code_add_parameter (parms, var->tp.pro.code,
675
                                       exp->tp.pro.code);
676
    }
677
  type = tree_code_get_type (NUMERIC_TYPE (prod));
678
  prod->tp.pro.code = tree_code_get_expression (EXP_FUNCTION_INVOCATION, type,
679
                                                proto->tp.pro.code,
680
                                                nreverse (parms),
681
                                                NULL, tok->tp.tok.location);
682
  $$ = prod;
683
}
684
;
685
 
686
expressions_with_commas_opt:
687
/* Nil.  */ {
688
$$ = 0
689
}
690
|expressions_with_commas { $$ = $1 }
691
;
692
 
693
expressions_with_commas:
694
expression {
695
  struct prod_token_parm_item *exp;
696
  exp = $1;
697
  ensure_not_void (NUMERIC_TYPE (exp), exp->tp.pro.main_token);
698
  $$ = $1;
699
}
700
|expressions_with_commas COMMA expression {
701
  struct prod_token_parm_item *exp;
702
  exp = $3;
703
  ensure_not_void (NUMERIC_TYPE (exp), exp->tp.pro.main_token);
704
  exp->tp.pro.next = $1; /* Reverse order.  */
705
  $$ = exp;
706
}
707
;
708
 
709
variable_ref:
710
NAME {
711
  struct prod_token_parm_item search_prod;
712
  struct prod_token_parm_item *prod;
713
  struct prod_token_parm_item *symbol_table_entry;
714
  struct prod_token_parm_item *tok;
715
  tree type;
716
 
717
  tok = $1;
718
  SYMBOL_TABLE_NAME ((&search_prod)) = tok;
719
  search_prod.category = token_category;
720
  symbol_table_entry = lookup_tree_name (&search_prod);
721
  if (!symbol_table_entry)
722
    {
723
      error ("%Hvariable %q.*s not defined",
724
             &tok->tp.tok.location, tok->tp.tok.length, tok->tp.tok.chars);
725
      YYERROR;
726
    }
727
 
728
  prod = make_production (PROD_VARIABLE_REFERENCE_EXPRESSION, tok);
729
  NUMERIC_TYPE (prod) = NUMERIC_TYPE (symbol_table_entry);
730
  type = tree_code_get_type (NUMERIC_TYPE (prod));
731
  if (!NUMERIC_TYPE (prod))
732
    YYERROR;
733
  OP1 (prod) = $1;
734
 
735
  prod->tp.pro.code =
736
    tree_code_get_expression (EXP_REFERENCE, type,
737
                              symbol_table_entry->tp.pro.code, NULL, NULL,
738
                              tok->tp.tok.location);
739
  $$ = prod;
740
}
741
;
742
 
743
init_opt:
744
/* Nil.  */ {
745
  $$ = 0;
746
}
747
|init {
748
  /* Pass the initialization value up.  */
749
  $$ = $1;
750
};
751
 
752
init:
753
ASSIGN init_element {
754
  $$ = $2;
755
}
756
;
757
 
758
init_element:
759
INTEGER {
760
  $$ = make_integer_constant ($1);
761
}
762
;
763
 
764
%%
765
 
766
/* Print a token VALUE to file FILE.  Ignore TYPE which is the token
767
   type. */
768
 
769
void
770
print_token (FILE *file, unsigned int type ATTRIBUTE_UNUSED, YYSTYPE value)
771
{
772
  struct prod_token_parm_item *tok;
773
  unsigned int  ix;
774
 
775
  tok  =  value;
776
  fprintf (file, "%d \"", LOCATION_LINE (tok->tp.tok.location));
777
  for (ix  =  0; ix < tok->tp.tok.length; ix++)
778
    fprintf (file, "%c", tok->tp.tok.chars[ix]);
779
 
780
  fprintf (file, "\"");
781
}
782
 
783
/* Output a message ERROR_MESSAGE from the parser.  */
784
static void
785
yyerror (const char *error_message)
786
{
787
  struct prod_token_parm_item *tok;
788
 
789
  tok = yylval;
790
  if (tok)
791
    error ("%H%s", &tok->tp.tok.location, error_message);
792
  else
793
    error ("%s", error_message);
794
}
795
 
796
/* Reverse the order of a token list, linked by parse_next, old first
797
   token is OLD_FIRST.  */
798
 
799
static struct prod_token_parm_item*
800
reverse_prod_list (struct prod_token_parm_item *old_first)
801
{
802
  struct prod_token_parm_item *current;
803
  struct prod_token_parm_item *next;
804
  struct prod_token_parm_item *prev = NULL;
805
 
806
  current = old_first;
807
  prev = NULL;
808
 
809
  while (current)
810
    {
811
      gcc_assert (current->category == production_category);
812
 
813
      next = current->tp.pro.next;
814
      current->tp.pro.next = prev;
815
      prev = current;
816
      current = next;
817
    }
818
  return prev;
819
}
820
 
821
/* Ensure TYPE is not VOID. Use NAME as the token for the error location.  */
822
 
823
static void
824
ensure_not_void (unsigned int type, struct prod_token_parm_item* name)
825
{
826
  if (type == VOID_TYPE)
827
    error ("%Htype must not be void in this context",
828
           &name->tp.tok.location);
829
}
830
 
831
/* Check TYPE1 and TYPE2 which are integral types.  Return the lowest
832
   common type (min is signed int).  */
833
 
834
static int
835
get_common_type (struct prod_token_parm_item *type1,
836
                 struct prod_token_parm_item *type2)
837
{
838
  if (NUMERIC_TYPE (type1) == UNSIGNED_INT)
839
    return UNSIGNED_INT;
840
  if (NUMERIC_TYPE (type2) == UNSIGNED_INT)
841
    return UNSIGNED_INT;
842
 
843
  return SIGNED_INT;
844
}
845
 
846
/* Check type (TYPE_NUM) and expression (EXP) match.  Return the 1 if
847
   OK else 0.  Must be exact match - same name unless it is an
848
   integral type.  */
849
 
850
static int
851
check_type_match (int type_num, struct prod_token_parm_item *exp)
852
{
853
  switch (type_num)
854
    {
855
    case SIGNED_INT:
856
    case UNSIGNED_INT:
857
    case SIGNED_CHAR:
858
    case UNSIGNED_CHAR:
859
      switch (NUMERIC_TYPE (exp))
860
        {
861
        case SIGNED_INT:
862
        case UNSIGNED_INT:
863
        case SIGNED_CHAR:
864
        case UNSIGNED_CHAR:
865
          return 1;
866
 
867
        case VOID_TYPE:
868
        default:
869
          gcc_unreachable ();
870
        }
871
      break;
872
 
873
    case VOID_TYPE:
874
    default:
875
      gcc_unreachable ();
876
 
877
    }
878
}
879
 
880
/* Make a production for an integer constant VALUE.  */
881
 
882
static struct prod_token_parm_item *
883
make_integer_constant (struct prod_token_parm_item* value)
884
{
885
  struct prod_token_parm_item *tok;
886
  struct prod_token_parm_item *prod;
887
  tok = value;
888
  prod = make_production (PROD_INTEGER_CONSTANT, tok);
889
  if ((tok->tp.tok.chars[0] == (unsigned char)'-')
890
      || (tok->tp.tok.chars[0] == (unsigned char)'+'))
891
    NUMERIC_TYPE (prod) = SIGNED_INT;
892
  else
893
    NUMERIC_TYPE (prod) = UNSIGNED_INT;
894
  prod->tp.pro.code = tree_code_get_integer_value (tok->tp.tok.chars,
895
                                                   tok->tp.tok.length);
896
  return prod;
897
}
898
 
899
 
900
/* Build a PROD_PLUS_EXPRESSION.  This is uses for PLUS, MINUS, ASSIGN
901
   and EQUALS expressions.  */
902
 
903
static struct prod_token_parm_item *
904
make_plus_expression (struct prod_token_parm_item *tok,
905
                      struct prod_token_parm_item *op1,
906
                      struct prod_token_parm_item *op2,
907
                      int type_code, int prod_code)
908
{
909
  struct prod_token_parm_item *prod;
910
  tree type;
911
 
912
  ensure_not_void (NUMERIC_TYPE (op1), op1->tp.pro.main_token);
913
  ensure_not_void (NUMERIC_TYPE (op2), op2->tp.pro.main_token);
914
 
915
  prod = make_production (PROD_PLUS_EXPRESSION, tok);
916
 
917
  NUMERIC_TYPE (prod) = type_code;
918
  type = tree_code_get_type (type_code);
919
 
920
  gcc_assert (type);
921
 
922
  OP1 (prod) = op1;
923
  OP2 (prod) = op2;
924
 
925
  prod->tp.pro.code = tree_code_get_expression (prod_code, type,
926
                                                op1->tp.pro.code,
927
                                                op2->tp.pro.code, NULL,
928
                                                tok->tp.tok.location);
929
 
930
  return prod;
931
}
932
 
933
 
934
/* Set STORAGE_CLASS in PROD according to CLASS_TOKEN.  */
935
 
936
static void
937
set_storage (struct prod_token_parm_item *prod)
938
{
939
  struct prod_token_parm_item *stg_class;
940
  stg_class = STORAGE_CLASS_TOKEN (prod);
941
  switch (stg_class->type)
942
    {
943
    case STATIC:
944
      STORAGE_CLASS (prod) = STATIC_STORAGE;
945
      break;
946
 
947
    case AUTOMATIC:
948
      STORAGE_CLASS (prod) = AUTOMATIC_STORAGE;
949
      break;
950
 
951
    case EXTERNAL_DEFINITION:
952
      STORAGE_CLASS (prod) = EXTERNAL_DEFINITION_STORAGE;
953
      break;
954
 
955
    case EXTERNAL_REFERENCE:
956
      STORAGE_CLASS (prod) = EXTERNAL_REFERENCE_STORAGE;
957
      break;
958
 
959
    default:
960
      gcc_unreachable ();
961
    }
962
}
963
 
964
/* Set parse trace.  */
965
 
966
void
967
treelang_debug (void)
968
{
969
  if (option_parser_trace)
970
    yydebug = 1;
971
}
972
 
973
#ifdef __XGETTEXT__
974
/* Depending on the version of Bison used to compile this grammar,
975
   it may issue generic diagnostics spelled "syntax error" or
976
   "parse error".  To prevent this from changing the translation
977
   template randomly, we list all the variants of this particular
978
   diagnostic here.  Translators: there is no fine distinction
979
   between diagnostics with "syntax error" in them, and diagnostics
980
   with "parse error" in them.  It's okay to give them both the same
981
   translation.  */
982
const char d1[] = N_("syntax error");
983
const char d2[] = N_("parse error");
984
const char d3[] = N_("syntax error; also virtual memory exhausted");
985
const char d4[] = N_("parse error; also virtual memory exhausted");
986
const char d5[] = N_("syntax error: cannot back up");
987
const char d6[] = N_("parse error: cannot back up");
988
#endif

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