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1 706 jeremybenn
------------------------------------------------------------------------------
2
--                                                                          --
3
--                         GNAT COMPILER COMPONENTS                         --
4
--                                                                          --
5
--                             P A R . U T I L                              --
6
--                                                                          --
7
--                                 B o d y                                  --
8
--                                                                          --
9
--          Copyright (C) 1992-2011, Free Software Foundation, Inc.         --
10
--                                                                          --
11
-- GNAT is free software;  you can  redistribute it  and/or modify it under --
12
-- terms of the  GNU General Public License as published  by the Free Soft- --
13
-- ware  Foundation;  either version 3,  or (at your option) any later ver- --
14
-- sion.  GNAT is distributed in the hope that it will be useful, but WITH- --
15
-- OUT ANY WARRANTY;  without even the  implied warranty of MERCHANTABILITY --
16
-- or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License --
17
-- for  more details.  You should have  received  a copy of the GNU General --
18
-- Public License  distributed with GNAT; see file COPYING3.  If not, go to --
19
-- http://www.gnu.org/licenses for a complete copy of the license.          --
20
--                                                                          --
21
-- GNAT was originally developed  by the GNAT team at  New York University. --
22
-- Extensive contributions were provided by Ada Core Technologies Inc.      --
23
--                                                                          --
24
------------------------------------------------------------------------------
25
 
26
with Csets;    use Csets;
27
with Namet.Sp; use Namet.Sp;
28
with Stylesw;  use Stylesw;
29
with Uintp;    use Uintp;
30
 
31
with GNAT.Spelling_Checker; use GNAT.Spelling_Checker;
32
 
33
separate (Par)
34
package body Util is
35
 
36
   ---------------------
37
   -- Bad_Spelling_Of --
38
   ---------------------
39
 
40
   function Bad_Spelling_Of (T : Token_Type) return Boolean is
41
      Tname : constant String := Token_Type'Image (T);
42
      --  Characters of token name
43
 
44
      S : String (1 .. Tname'Last - 4);
45
      --  Characters of token name folded to lower case, omitting TOK_ at start
46
 
47
      M1 : String (1 .. 42) := "incorrect spelling of keyword ************";
48
      M2 : String (1 .. 44) := "illegal abbreviation of keyword ************";
49
      --  Buffers used to construct error message
50
 
51
      P1 : constant := 30;
52
      P2 : constant := 32;
53
      --  Starting subscripts in M1, M2 for keyword name
54
 
55
      SL : constant Natural := S'Length;
56
      --  Length of expected token name excluding TOK_ at start
57
 
58
   begin
59
      if Token /= Tok_Identifier then
60
         return False;
61
      end if;
62
 
63
      for J in S'Range loop
64
         S (J) := Fold_Lower (Tname (J + 4));
65
      end loop;
66
 
67
      Get_Name_String (Token_Name);
68
 
69
      --  A special check for case of PROGRAM used for PROCEDURE
70
 
71
      if T = Tok_Procedure
72
        and then Name_Len = 7
73
        and then Name_Buffer (1 .. 7) = "program"
74
      then
75
         Error_Msg_SC -- CODEFIX
76
           ("PROCEDURE expected");
77
         Token := T;
78
         return True;
79
 
80
      --  A special check for an illegal abbreviation
81
 
82
      elsif Name_Len < S'Length
83
        and then Name_Len >= 4
84
        and then Name_Buffer (1 .. Name_Len) = S (1 .. Name_Len)
85
      then
86
         for J in 1 .. S'Last loop
87
            M2 (P2 + J - 1) := Fold_Upper (S (J));
88
         end loop;
89
 
90
         Error_Msg_SC (M2 (1 .. P2 - 1 + S'Last));
91
         Token := T;
92
         return True;
93
      end if;
94
 
95
      --  Now we go into the full circuit to check for a misspelling
96
 
97
      --  Never consider something a misspelling if either the actual or
98
      --  expected string is less than 3 characters (before this check we
99
      --  used to consider i to be a misspelled if in some cases!)
100
 
101
      if SL < 3 or else Name_Len < 3 then
102
         return False;
103
 
104
      --  Special case: prefix matches, i.e. the leading characters of the
105
      --  token that we have exactly match the required keyword. If there
106
      --  are at least two characters left over, assume that we have a case
107
      --  of two keywords joined together which should not be joined.
108
 
109
      elsif Name_Len > SL + 1
110
        and then S = Name_Buffer (1 .. SL)
111
      then
112
         Scan_Ptr := Token_Ptr + S'Length;
113
         Error_Msg_S ("|missing space");
114
         Token := T;
115
         return True;
116
      end if;
117
 
118
      if Is_Bad_Spelling_Of (Name_Buffer (1 .. Name_Len), S) then
119
         for J in 1 .. S'Last loop
120
            M1 (P1 + J - 1) := Fold_Upper (S (J));
121
         end loop;
122
 
123
         Error_Msg_SC -- CODFIX
124
           (M1 (1 .. P1 - 1 + S'Last));
125
         Token := T;
126
         return True;
127
 
128
      else
129
         return False;
130
      end if;
131
   end Bad_Spelling_Of;
132
 
133
   ----------------------
134
   -- Check_95_Keyword --
135
   ----------------------
136
 
137
   --  On entry, the caller has checked that current token is an identifier
138
   --  whose name matches the name of the 95 keyword New_Tok.
139
 
140
   procedure Check_95_Keyword (Token_95, Next : Token_Type) is
141
      Scan_State : Saved_Scan_State;
142
 
143
   begin
144
      Save_Scan_State (Scan_State); -- at identifier/keyword
145
      Scan; -- past identifier/keyword
146
 
147
      if Token = Next then
148
         Restore_Scan_State (Scan_State); -- to identifier
149
         Error_Msg_Name_1 := Token_Name;
150
         Error_Msg_SC ("(Ada 83) keyword* cannot be used!");
151
         Token := Token_95;
152
      else
153
         Restore_Scan_State (Scan_State); -- to identifier
154
      end if;
155
   end Check_95_Keyword;
156
 
157
   ----------------------
158
   -- Check_Bad_Layout --
159
   ----------------------
160
 
161
   procedure Check_Bad_Layout is
162
   begin
163
      if RM_Column_Check and then Token_Is_At_Start_Of_Line
164
        and then Start_Column <= Scope.Table (Scope.Last).Ecol
165
      then
166
         Error_Msg_BC -- CODEFIX
167
           ("(style) incorrect layout");
168
      end if;
169
   end Check_Bad_Layout;
170
 
171
   --------------------------
172
   -- Check_Future_Keyword --
173
   --------------------------
174
 
175
   procedure Check_Future_Keyword is
176
   begin
177
      --  Ada 2005 (AI-284): Compiling in Ada 95 mode we warn that INTERFACE,
178
      --  OVERRIDING, and SYNCHRONIZED are new reserved words.
179
 
180
      if Ada_Version = Ada_95
181
        and then Warn_On_Ada_2005_Compatibility
182
      then
183
         if Token_Name = Name_Overriding
184
           or else Token_Name = Name_Synchronized
185
           or else (Token_Name = Name_Interface
186
                     and then Prev_Token /= Tok_Pragma)
187
         then
188
            Error_Msg_N ("& is a reserved word in Ada 2005?", Token_Node);
189
         end if;
190
      end if;
191
 
192
      --  Similarly, warn about Ada 2012 reserved words
193
 
194
      if Ada_Version in Ada_95 .. Ada_2005
195
        and then Warn_On_Ada_2012_Compatibility
196
      then
197
         if Token_Name = Name_Some then
198
            Error_Msg_N ("& is a reserved word in Ada 2012?", Token_Node);
199
         end if;
200
      end if;
201
 
202
      --  Note: we deliberately do not emit these warnings when operating in
203
      --  Ada 83 mode because in that case we assume the user is building
204
      --  legacy code anyway and is not interested in updating Ada versions.
205
 
206
   end Check_Future_Keyword;
207
 
208
   --------------------------
209
   -- Check_Misspelling_Of --
210
   --------------------------
211
 
212
   procedure Check_Misspelling_Of (T : Token_Type) is
213
   begin
214
      if Bad_Spelling_Of (T) then
215
         null;
216
      end if;
217
   end Check_Misspelling_Of;
218
 
219
   -----------------------------
220
   -- Check_Simple_Expression --
221
   -----------------------------
222
 
223
   procedure Check_Simple_Expression (E : Node_Id) is
224
   begin
225
      if Expr_Form = EF_Non_Simple then
226
         Error_Msg_N ("this expression must be parenthesized", E);
227
      end if;
228
   end Check_Simple_Expression;
229
 
230
   ---------------------------------------
231
   -- Check_Simple_Expression_In_Ada_83 --
232
   ---------------------------------------
233
 
234
   procedure Check_Simple_Expression_In_Ada_83 (E : Node_Id) is
235
   begin
236
      if Expr_Form = EF_Non_Simple then
237
         if Ada_Version = Ada_83 then
238
            Error_Msg_N ("(Ada 83) this expression must be parenthesized!", E);
239
         end if;
240
      end if;
241
   end Check_Simple_Expression_In_Ada_83;
242
 
243
   ------------------------
244
   -- Check_Subtype_Mark --
245
   ------------------------
246
 
247
   function Check_Subtype_Mark (Mark : Node_Id) return Node_Id is
248
   begin
249
      if Nkind (Mark) = N_Identifier
250
        or else Nkind (Mark) = N_Selected_Component
251
        or else (Nkind (Mark) = N_Attribute_Reference
252
                  and then Is_Type_Attribute_Name (Attribute_Name (Mark)))
253
        or else Mark = Error
254
      then
255
         return Mark;
256
      else
257
         Error_Msg ("subtype mark expected", Sloc (Mark));
258
         return Error;
259
      end if;
260
   end Check_Subtype_Mark;
261
 
262
   -------------------
263
   -- Comma_Present --
264
   -------------------
265
 
266
   function Comma_Present return Boolean is
267
      Scan_State  : Saved_Scan_State;
268
      Paren_Count : Nat;
269
 
270
   begin
271
      --  First check, if a comma is present, then a comma is present!
272
 
273
      if Token = Tok_Comma then
274
         T_Comma;
275
         return True;
276
 
277
      --  If we have a right paren, then that is taken as ending the list
278
      --  i.e. no comma is present.
279
 
280
      elsif Token = Tok_Right_Paren then
281
         return False;
282
 
283
      --  If pragmas, then get rid of them and make a recursive call
284
      --  to process what follows these pragmas.
285
 
286
      elsif Token = Tok_Pragma then
287
         P_Pragmas_Misplaced;
288
         return Comma_Present;
289
 
290
      --  At this stage we have an error, and the goal is to decide on whether
291
      --  or not we should diagnose an error and report a (non-existent)
292
      --  comma as being present, or simply to report no comma is present
293
 
294
      --  If we are a semicolon, then the question is whether we have a missing
295
      --  right paren, or whether the semicolon should have been a comma. To
296
      --  guess the right answer, we scan ahead keeping track of the paren
297
      --  level, looking for a clue that helps us make the right decision.
298
 
299
      --  This approach is highly accurate in the single error case, and does
300
      --  not make bad mistakes in the multiple error case (indeed we can't
301
      --  really make a very bad decision at this point in any case).
302
 
303
      elsif Token = Tok_Semicolon then
304
         Save_Scan_State (Scan_State);
305
         Scan; -- past semicolon
306
 
307
         --  Check for being followed by identifier => which almost certainly
308
         --  means we are still in a parameter list and the comma should have
309
         --  been a semicolon (such a sequence could not follow a semicolon)
310
 
311
         if Token = Tok_Identifier then
312
            Scan;
313
 
314
            if Token = Tok_Arrow then
315
               goto Assume_Comma;
316
            end if;
317
         end if;
318
 
319
         --  If that test didn't work, loop ahead looking for a comma or
320
         --  semicolon at the same parenthesis level. Always remember that
321
         --  we can't go badly wrong in an error situation like this!
322
 
323
         Paren_Count := 0;
324
 
325
         --  Here is the look ahead loop, Paren_Count tells us whether the
326
         --  token we are looking at is at the same paren level as the
327
         --  suspicious semicolon that we are trying to figure out.
328
 
329
         loop
330
 
331
            --  If we hit another semicolon or an end of file, and we have
332
            --  not seen a right paren or another comma on the way, then
333
            --  probably the semicolon did end the list. Indeed that is
334
            --  certainly the only single error correction possible here.
335
 
336
            if Token = Tok_Semicolon or else Token = Tok_EOF then
337
               Restore_Scan_State (Scan_State);
338
               return False;
339
 
340
            --  A comma at the same paren level as the semicolon is a strong
341
            --  indicator that the semicolon should have been a comma, indeed
342
            --  again this is the only possible single error correction.
343
 
344
            elsif Token = Tok_Comma then
345
               exit when Paren_Count = 0;
346
 
347
            --  A left paren just bumps the paren count
348
 
349
            elsif Token = Tok_Left_Paren then
350
               Paren_Count := Paren_Count + 1;
351
 
352
            --  A right paren that is at the same paren level as the semicolon
353
            --  also means that the only possible single error correction is
354
            --  to assume that the semicolon should have been a comma. If we
355
            --  are not at the same paren level, then adjust the paren level.
356
 
357
            elsif Token = Tok_Right_Paren then
358
               exit when Paren_Count = 0;
359
               Paren_Count := Paren_Count - 1;
360
            end if;
361
 
362
            --  Keep going, we haven't made a decision yet
363
 
364
            Scan;
365
         end loop;
366
 
367
         --  If we fall through the loop, it means that we found a terminating
368
         --  right paren or another comma. In either case it is reasonable to
369
         --  assume that the semicolon was really intended to be a comma. Also
370
         --  come here for the identifier arrow case.
371
 
372
         <<Assume_Comma>>
373
            Restore_Scan_State (Scan_State);
374
            Error_Msg_SC -- CODEFIX
375
              ("|"";"" should be "",""");
376
            Scan; -- past the semicolon
377
            return True;
378
 
379
      --  If we are not at semicolon or a right paren, then we base the
380
      --  decision on whether or not the next token can be part of an
381
      --  expression. If not, then decide that no comma is present (the
382
      --  caller will eventually generate a missing right parent message)
383
 
384
      elsif Token in Token_Class_Eterm then
385
         return False;
386
 
387
      --  Otherwise we assume a comma is present, even if none is present,
388
      --  since the next token must be part of an expression, so if we were
389
      --  at the end of the list, then there is more than one error present.
390
 
391
      else
392
         T_Comma; -- to give error
393
         return True;
394
      end if;
395
   end Comma_Present;
396
 
397
   -----------------------
398
   -- Discard_Junk_List --
399
   -----------------------
400
 
401
   procedure Discard_Junk_List (L : List_Id) is
402
      pragma Warnings (Off, L);
403
   begin
404
      null;
405
   end Discard_Junk_List;
406
 
407
   -----------------------
408
   -- Discard_Junk_Node --
409
   -----------------------
410
 
411
   procedure Discard_Junk_Node (N : Node_Id) is
412
      pragma Warnings (Off, N);
413
   begin
414
      null;
415
   end Discard_Junk_Node;
416
 
417
   ------------
418
   -- Ignore --
419
   ------------
420
 
421
   procedure Ignore (T : Token_Type) is
422
   begin
423
      while Token = T loop
424
         if T = Tok_Comma then
425
            Error_Msg_SC -- CODEFIX
426
              ("|extra "","" ignored");
427
 
428
         elsif T = Tok_Left_Paren then
429
            Error_Msg_SC -- CODEFIX
430
              ("|extra ""("" ignored");
431
 
432
         elsif T = Tok_Right_Paren then
433
            Error_Msg_SC -- CODEFIX
434
              ("|extra "")"" ignored");
435
 
436
         elsif T = Tok_Semicolon then
437
            Error_Msg_SC -- CODEFIX
438
              ("|extra "";"" ignored");
439
 
440
         elsif T = Tok_Colon then
441
            Error_Msg_SC -- CODEFIX
442
              ("|extra "":"" ignored");
443
 
444
         else
445
            declare
446
               Tname : constant String := Token_Type'Image (Token);
447
            begin
448
               Error_Msg_SC ("|extra " & Tname (5 .. Tname'Last) & "ignored");
449
            end;
450
         end if;
451
 
452
         Scan; -- Scan past ignored token
453
      end loop;
454
   end Ignore;
455
 
456
   ----------------------------
457
   -- Is_Reserved_Identifier --
458
   ----------------------------
459
 
460
   function Is_Reserved_Identifier (C : Id_Check := None) return Boolean is
461
   begin
462
      if not Is_Reserved_Keyword (Token) then
463
         return False;
464
 
465
      else
466
         declare
467
            Ident_Casing : constant Casing_Type :=
468
                             Identifier_Casing (Current_Source_File);
469
            Key_Casing   : constant Casing_Type :=
470
                             Keyword_Casing (Current_Source_File);
471
 
472
         begin
473
            --  If the casing of identifiers and keywords is different in
474
            --  this source file, and the casing of this token matches the
475
            --  keyword casing, then we return False, since it is pretty
476
            --  clearly intended to be a keyword.
477
 
478
            if Ident_Casing = Unknown
479
              or else Key_Casing = Unknown
480
              or else Ident_Casing = Key_Casing
481
              or else Determine_Token_Casing /= Key_Casing
482
            then
483
               return True;
484
 
485
            --  Here we have a keyword written clearly with keyword casing.
486
            --  In default mode, we would not be willing to consider this as
487
            --  a reserved identifier, but if C is set, we may still accept it
488
 
489
            elsif C /= None then
490
               declare
491
                  Scan_State  : Saved_Scan_State;
492
                  OK_Next_Tok : Boolean;
493
 
494
               begin
495
                  Save_Scan_State (Scan_State);
496
                  Scan;
497
 
498
                  if Token_Is_At_Start_Of_Line then
499
                     return False;
500
                  end if;
501
 
502
                  case C is
503
                     when None =>
504
                        raise Program_Error;
505
 
506
                     when C_Comma_Right_Paren =>
507
                        OK_Next_Tok :=
508
                          Token = Tok_Comma or else Token = Tok_Right_Paren;
509
 
510
                     when C_Comma_Colon =>
511
                        OK_Next_Tok :=
512
                          Token = Tok_Comma or else Token = Tok_Colon;
513
 
514
                     when C_Do =>
515
                        OK_Next_Tok :=
516
                          Token = Tok_Do;
517
 
518
                     when C_Dot =>
519
                        OK_Next_Tok :=
520
                          Token = Tok_Dot;
521
 
522
                     when C_Greater_Greater =>
523
                        OK_Next_Tok :=
524
                          Token = Tok_Greater_Greater;
525
 
526
                     when C_In =>
527
                        OK_Next_Tok :=
528
                          Token = Tok_In;
529
 
530
                     when C_Is =>
531
                        OK_Next_Tok :=
532
                          Token = Tok_Is;
533
 
534
                     when C_Left_Paren_Semicolon =>
535
                        OK_Next_Tok :=
536
                          Token = Tok_Left_Paren or else Token = Tok_Semicolon;
537
 
538
                     when C_Use =>
539
                        OK_Next_Tok :=
540
                          Token = Tok_Use;
541
 
542
                     when C_Vertical_Bar_Arrow =>
543
                        OK_Next_Tok :=
544
                          Token = Tok_Vertical_Bar or else Token = Tok_Arrow;
545
                  end case;
546
 
547
                  Restore_Scan_State (Scan_State);
548
 
549
                  if OK_Next_Tok then
550
                     return True;
551
                  end if;
552
               end;
553
            end if;
554
         end;
555
      end if;
556
 
557
      --  If we fall through it is not a reserved identifier
558
 
559
      return False;
560
   end Is_Reserved_Identifier;
561
 
562
   ----------------------
563
   -- Merge_Identifier --
564
   ----------------------
565
 
566
   procedure Merge_Identifier (Prev : Node_Id; Nxt : Token_Type) is
567
   begin
568
      if Token /= Tok_Identifier then
569
         return;
570
      end if;
571
 
572
      declare
573
         S : Saved_Scan_State;
574
         T : Token_Type;
575
 
576
      begin
577
         Save_Scan_State (S);
578
         Scan;
579
         T := Token;
580
         Restore_Scan_State (S);
581
 
582
         if T /= Nxt then
583
            return;
584
         end if;
585
      end;
586
 
587
      --  Check exactly one space between identifiers
588
 
589
      if Source (Token_Ptr - 1) /= ' '
590
        or else Int (Token_Ptr) /=
591
                  Int (Prev_Token_Ptr) + Length_Of_Name (Chars (Prev)) + 1
592
      then
593
         return;
594
      end if;
595
 
596
      --  Do the merge
597
 
598
      Get_Name_String (Chars (Token_Node));
599
 
600
      declare
601
         Buf : constant String (1 .. Name_Len) :=
602
                 Name_Buffer (1 .. Name_Len);
603
 
604
      begin
605
         Get_Name_String (Chars (Prev));
606
         Add_Char_To_Name_Buffer ('_');
607
         Add_Str_To_Name_Buffer (Buf);
608
         Set_Chars (Prev, Name_Find);
609
      end;
610
 
611
      Error_Msg_Node_1 := Prev;
612
      Error_Msg_SC ("unexpected identifier, possibly & was meant here");
613
      Scan;
614
   end Merge_Identifier;
615
 
616
   -------------------
617
   -- Next_Token_Is --
618
   -------------------
619
 
620
   function Next_Token_Is (Tok : Token_Type) return Boolean is
621
      Scan_State : Saved_Scan_State;
622
      Result     : Boolean;
623
   begin
624
      Save_Scan_State (Scan_State);
625
      Scan;
626
      Result := (Token = Tok);
627
      Restore_Scan_State (Scan_State);
628
      return Result;
629
   end Next_Token_Is;
630
 
631
   -------------------
632
   -- No_Constraint --
633
   -------------------
634
 
635
   procedure No_Constraint is
636
   begin
637
      if Token in Token_Class_Consk then
638
         Error_Msg_SC ("constraint not allowed here");
639
         Discard_Junk_Node (P_Constraint_Opt);
640
      end if;
641
   end No_Constraint;
642
 
643
   ---------------------
644
   -- Pop_Scope_Stack --
645
   ---------------------
646
 
647
   procedure Pop_Scope_Stack is
648
   begin
649
      pragma Assert (Scope.Last > 0);
650
      Scope.Decrement_Last;
651
 
652
      if Debug_Flag_P then
653
         Error_Msg_Uint_1 := UI_From_Int (Scope.Last);
654
         Error_Msg_SC ("decrement scope stack ptr, new value = ^!");
655
      end if;
656
   end Pop_Scope_Stack;
657
 
658
   ----------------------
659
   -- Push_Scope_Stack --
660
   ----------------------
661
 
662
   procedure Push_Scope_Stack is
663
   begin
664
      Scope.Increment_Last;
665
 
666
      if Style_Check_Max_Nesting_Level
667
        and then Scope.Last = Style_Max_Nesting_Level + 1
668
      then
669
         Error_Msg
670
           ("(style) maximum nesting level exceeded",
671
            First_Non_Blank_Location);
672
      end if;
673
 
674
      Scope.Table (Scope.Last).Junk := False;
675
      Scope.Table (Scope.Last).Node := Empty;
676
 
677
      if Debug_Flag_P then
678
         Error_Msg_Uint_1 := UI_From_Int (Scope.Last);
679
         Error_Msg_SC ("increment scope stack ptr, new value = ^!");
680
      end if;
681
   end Push_Scope_Stack;
682
 
683
   ----------------------
684
   -- Separate_Present --
685
   ----------------------
686
 
687
   function Separate_Present return Boolean is
688
      Scan_State : Saved_Scan_State;
689
 
690
   begin
691
      if Token = Tok_Separate then
692
         return True;
693
 
694
      elsif Token /= Tok_Identifier then
695
         return False;
696
 
697
      else
698
         Save_Scan_State (Scan_State);
699
         Scan; -- past identifier
700
 
701
         if Token = Tok_Semicolon then
702
            Restore_Scan_State (Scan_State);
703
            return Bad_Spelling_Of (Tok_Separate);
704
 
705
         else
706
            Restore_Scan_State (Scan_State);
707
            return False;
708
         end if;
709
      end if;
710
   end Separate_Present;
711
 
712
   --------------------------
713
   -- Signal_Bad_Attribute --
714
   --------------------------
715
 
716
   procedure Signal_Bad_Attribute is
717
   begin
718
      Error_Msg_N ("unrecognized attribute&", Token_Node);
719
 
720
      --  Check for possible misspelling
721
 
722
      Error_Msg_Name_1 := First_Attribute_Name;
723
      while Error_Msg_Name_1 <= Last_Attribute_Name loop
724
         if Is_Bad_Spelling_Of (Token_Name, Error_Msg_Name_1) then
725
            Error_Msg_N -- CODEFIX
726
              ("\possible misspelling of %", Token_Node);
727
            exit;
728
         end if;
729
 
730
         Error_Msg_Name_1 := Error_Msg_Name_1 + 1;
731
      end loop;
732
   end Signal_Bad_Attribute;
733
 
734
   -----------------------------
735
   -- Token_Is_At_End_Of_Line --
736
   -----------------------------
737
 
738
   function Token_Is_At_End_Of_Line return Boolean is
739
      S : Source_Ptr;
740
 
741
   begin
742
      --  Skip past blanks and horizontal tabs
743
 
744
      S := Scan_Ptr;
745
      while Source (S) = ' ' or else Source (S) = ASCII.HT loop
746
         S := S + 1;
747
      end loop;
748
 
749
      --  We are at end of line if at a control character (CR/LF/VT/FF/EOF)
750
      --  or if we are at the start of an end of line comment sequence.
751
 
752
      return Source (S) < ' '
753
        or else (Source (S) = '-' and then Source (S + 1) = '-');
754
   end Token_Is_At_End_Of_Line;
755
 
756
   -------------------------------
757
   -- Token_Is_At_Start_Of_Line --
758
   -------------------------------
759
 
760
   function Token_Is_At_Start_Of_Line return Boolean is
761
   begin
762
      return (Token_Ptr = First_Non_Blank_Location or else Token = Tok_EOF);
763
   end Token_Is_At_Start_Of_Line;
764
 
765
end Util;

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