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1 706 jeremybenn
------------------------------------------------------------------------------
2
--                                                                          --
3
--                         GNAT COMPILER COMPONENTS                         --
4
--                                                                          --
5
--                                 P R E P                                  --
6
--                                                                          --
7
--                                 B o d y                                  --
8
--                                                                          --
9
--          Copyright (C) 2002-2010, 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 Err_Vars; use Err_Vars;
28
with Opt;      use Opt;
29
with Osint;    use Osint;
30
with Output;   use Output;
31
with Scans;    use Scans;
32
with Snames;   use Snames;
33
with Sinput;
34
with Stringt;  use Stringt;
35
with Table;
36
 
37
with GNAT.Heap_Sort_G;
38
 
39
package body Prep is
40
 
41
   use Symbol_Table;
42
 
43
   type Token_Name_Array is array (Token_Type) of Name_Id;
44
   Token_Names : constant Token_Name_Array :=
45
     (Tok_Abort     => Name_Abort,
46
      Tok_Abs       => Name_Abs,
47
      Tok_Abstract  => Name_Abstract,
48
      Tok_Accept    => Name_Accept,
49
      Tok_Aliased   => Name_Aliased,
50
      Tok_All       => Name_All,
51
      Tok_Array     => Name_Array,
52
      Tok_And       => Name_And,
53
      Tok_At        => Name_At,
54
      Tok_Begin     => Name_Begin,
55
      Tok_Body      => Name_Body,
56
      Tok_Case      => Name_Case,
57
      Tok_Constant  => Name_Constant,
58
      Tok_Declare   => Name_Declare,
59
      Tok_Delay     => Name_Delay,
60
      Tok_Delta     => Name_Delta,
61
      Tok_Digits    => Name_Digits,
62
      Tok_Else      => Name_Else,
63
      Tok_Elsif     => Name_Elsif,
64
      Tok_End       => Name_End,
65
      Tok_Entry     => Name_Entry,
66
      Tok_Exception => Name_Exception,
67
      Tok_Exit      => Name_Exit,
68
      Tok_For       => Name_For,
69
      Tok_Function  => Name_Function,
70
      Tok_Generic   => Name_Generic,
71
      Tok_Goto      => Name_Goto,
72
      Tok_If        => Name_If,
73
      Tok_Is        => Name_Is,
74
      Tok_Limited   => Name_Limited,
75
      Tok_Loop      => Name_Loop,
76
      Tok_Mod       => Name_Mod,
77
      Tok_New       => Name_New,
78
      Tok_Null      => Name_Null,
79
      Tok_Of        => Name_Of,
80
      Tok_Or        => Name_Or,
81
      Tok_Others    => Name_Others,
82
      Tok_Out       => Name_Out,
83
      Tok_Package   => Name_Package,
84
      Tok_Pragma    => Name_Pragma,
85
      Tok_Private   => Name_Private,
86
      Tok_Procedure => Name_Procedure,
87
      Tok_Protected => Name_Protected,
88
      Tok_Raise     => Name_Raise,
89
      Tok_Range     => Name_Range,
90
      Tok_Record    => Name_Record,
91
      Tok_Rem       => Name_Rem,
92
      Tok_Renames   => Name_Renames,
93
      Tok_Requeue   => Name_Requeue,
94
      Tok_Return    => Name_Return,
95
      Tok_Reverse   => Name_Reverse,
96
      Tok_Select    => Name_Select,
97
      Tok_Separate  => Name_Separate,
98
      Tok_Subtype   => Name_Subtype,
99
      Tok_Tagged    => Name_Tagged,
100
      Tok_Task      => Name_Task,
101
      Tok_Terminate => Name_Terminate,
102
      Tok_Then      => Name_Then,
103
      Tok_Type      => Name_Type,
104
      Tok_Until     => Name_Until,
105
      Tok_Use       => Name_Use,
106
      Tok_When      => Name_When,
107
      Tok_While     => Name_While,
108
      Tok_With      => Name_With,
109
      Tok_Xor       => Name_Xor,
110
      others        => No_Name);
111
 
112
   Already_Initialized : Boolean := False;
113
   --  Used to avoid repetition of the part of the initialisation that needs
114
   --  to be done only once.
115
 
116
   Empty_String : String_Id;
117
   --  "", as a string_id
118
 
119
   String_False : String_Id;
120
   --  "false", as a string_id
121
 
122
   ---------------
123
   -- Behaviour --
124
   ---------------
125
 
126
   --  Accesses to procedure specified by procedure Initialize
127
 
128
   Error_Msg : Error_Msg_Proc;
129
   --  Report an error
130
 
131
   Scan : Scan_Proc;
132
   --  Scan one token
133
 
134
   Set_Ignore_Errors : Set_Ignore_Errors_Proc;
135
   --  Indicate if error should be taken into account
136
 
137
   Put_Char : Put_Char_Proc;
138
   --  Output one character
139
 
140
   New_EOL : New_EOL_Proc;
141
   --  Output an end of line indication
142
 
143
   -------------------------------
144
   -- State of the Preprocessor --
145
   -------------------------------
146
 
147
   type Pp_State is record
148
      If_Ptr : Source_Ptr;
149
      --  The location of the #if statement.
150
      --  Used to flag #if with no corresponding #end if, at the end.
151
 
152
      Else_Ptr : Source_Ptr;
153
      --  The location of the #else statement.
154
      --  Used to detect multiple #else.
155
 
156
      Deleting : Boolean;
157
      --  Set to True when the code should be deleted or commented out
158
 
159
      Match_Seen : Boolean;
160
      --  Set to True when a condition in an #if or an #elsif is True.
161
      --  Also set to True if Deleting at the previous level is True.
162
      --  Used to decide if Deleting should be set to True in a following
163
      --  #elsif or #else.
164
 
165
   end record;
166
 
167
   type Pp_Depth is new Nat;
168
 
169
   Ground : constant Pp_Depth := 0;
170
 
171
   package Pp_States is new Table.Table
172
     (Table_Component_Type => Pp_State,
173
      Table_Index_Type     => Pp_Depth,
174
      Table_Low_Bound      => 1,
175
      Table_Initial        => 10,
176
      Table_Increment      => 100,
177
      Table_Name           => "Prep.Pp_States");
178
   --  A stack of the states of the preprocessor, for nested #if
179
 
180
   type Operator is (None, Op_Or, Op_And);
181
 
182
   -----------------
183
   -- Subprograms --
184
   -----------------
185
 
186
   function Deleting return Boolean;
187
   --  Return True if code should be deleted or commented out
188
 
189
   function Expression
190
     (Evaluate_It  : Boolean;
191
      Complemented : Boolean := False) return Boolean;
192
   --  Evaluate a condition in an #if or an #elsif statement.
193
   --  If Evaluate_It is False, the condition is effectively evaluated,
194
   --  otherwise, only the syntax is checked.
195
 
196
   procedure Go_To_End_Of_Line;
197
   --  Advance the scan pointer until we reach an end of line or the end
198
   --  of the buffer.
199
 
200
   function Matching_Strings (S1, S2 : String_Id) return Boolean;
201
   --  Returns True if the two string parameters are equal (case insensitive)
202
 
203
   ---------------------------------------
204
   -- Change_Reserved_Keyword_To_Symbol --
205
   ---------------------------------------
206
 
207
   procedure Change_Reserved_Keyword_To_Symbol
208
     (All_Keywords : Boolean := False)
209
   is
210
      New_Name : constant Name_Id := Token_Names (Token);
211
 
212
   begin
213
      if New_Name /= No_Name then
214
         case Token is
215
            when Tok_If  | Tok_Else | Tok_Elsif | Tok_End |
216
                 Tok_And | Tok_Or   | Tok_Then =>
217
               if All_Keywords then
218
                  Token := Tok_Identifier;
219
                  Token_Name := New_Name;
220
               end if;
221
 
222
            when others =>
223
               Token := Tok_Identifier;
224
               Token_Name := New_Name;
225
         end case;
226
      end if;
227
   end Change_Reserved_Keyword_To_Symbol;
228
 
229
   ------------------------------------------
230
   -- Check_Command_Line_Symbol_Definition --
231
   ------------------------------------------
232
 
233
   procedure Check_Command_Line_Symbol_Definition
234
     (Definition  : String;
235
      Data        : out Symbol_Data)
236
   is
237
      Index       : Natural := 0;
238
      Result      : Symbol_Data;
239
 
240
   begin
241
      --  Look for the character '='
242
 
243
      for J in Definition'Range loop
244
         if Definition (J) = '=' then
245
            Index := J;
246
            exit;
247
         end if;
248
      end loop;
249
 
250
      --  If no character '=', then the value is True
251
 
252
      if Index = 0 then
253
         --  Put the symbol in the name buffer
254
 
255
         Name_Len := Definition'Length;
256
         Name_Buffer (1 .. Name_Len) := Definition;
257
         Result := True_Value;
258
 
259
      elsif Index = Definition'First then
260
         Fail ("invalid symbol definition """ & Definition & """");
261
 
262
      else
263
         --  Put the symbol in the name buffer
264
 
265
         Name_Len := Index - Definition'First;
266
         Name_Buffer (1 .. Name_Len) :=
267
           String'(Definition (Definition'First .. Index - 1));
268
 
269
         --  Check the syntax of the value
270
 
271
         if Definition (Index + 1) /= '"'
272
           or else Definition (Definition'Last) /= '"'
273
         then
274
            for J in Index + 1 .. Definition'Last loop
275
               case Definition (J) is
276
                  when '_' | '.' | '0' .. '9' | 'a' .. 'z' | 'A' .. 'Z' =>
277
                     null;
278
 
279
                  when others =>
280
                     Fail ("illegal value """
281
                           & Definition (Index + 1 .. Definition'Last)
282
                           & """");
283
               end case;
284
            end loop;
285
         end if;
286
 
287
         --  And put the value in the result
288
 
289
         Result.Is_A_String := False;
290
         Start_String;
291
         Store_String_Chars (Definition (Index + 1 .. Definition'Last));
292
         Result.Value := End_String;
293
      end if;
294
 
295
      --  Now, check the syntax of the symbol (we don't allow accented and
296
      --  wide characters)
297
 
298
      if Name_Buffer (1) not in 'a' .. 'z'
299
        and then Name_Buffer (1) not in 'A' .. 'Z'
300
      then
301
         Fail ("symbol """
302
               & Name_Buffer (1 .. Name_Len)
303
               & """ does not start with a letter");
304
      end if;
305
 
306
      for J in 2 .. Name_Len loop
307
         case Name_Buffer (J) is
308
            when 'a' .. 'z' | 'A' .. 'Z' | '0' .. '9' =>
309
               null;
310
 
311
            when '_' =>
312
               if J = Name_Len then
313
                  Fail ("symbol """
314
                        & Name_Buffer (1 .. Name_Len)
315
                        & """ end with a '_'");
316
 
317
               elsif Name_Buffer (J + 1) = '_' then
318
                  Fail ("symbol """
319
                        & Name_Buffer (1 .. Name_Len)
320
                        & """ contains consecutive '_'");
321
               end if;
322
 
323
            when others =>
324
               Fail ("symbol """
325
                     & Name_Buffer (1 .. Name_Len)
326
                     & """ contains illegal character(s)");
327
         end case;
328
      end loop;
329
 
330
      Result.On_The_Command_Line := True;
331
 
332
      --  Put the symbol name in the result
333
 
334
      declare
335
         Sym : constant String := Name_Buffer (1 .. Name_Len);
336
 
337
      begin
338
         for Index in 1 .. Name_Len loop
339
            Name_Buffer (Index) := Fold_Lower (Name_Buffer (Index));
340
         end loop;
341
 
342
         Result.Symbol := Name_Find;
343
         Name_Len := Sym'Length;
344
         Name_Buffer (1 .. Name_Len) := Sym;
345
         Result.Original := Name_Find;
346
      end;
347
 
348
      Data := Result;
349
   end Check_Command_Line_Symbol_Definition;
350
 
351
   --------------
352
   -- Deleting --
353
   --------------
354
 
355
   function Deleting return Boolean is
356
   begin
357
      --  Always return False when not inside an #if statement
358
 
359
      if Pp_States.Last = Ground then
360
         return False;
361
      else
362
         return Pp_States.Table (Pp_States.Last).Deleting;
363
      end if;
364
   end Deleting;
365
 
366
   ----------------
367
   -- Expression --
368
   ----------------
369
 
370
   function Expression
371
     (Evaluate_It  : Boolean;
372
      Complemented : Boolean := False) return Boolean
373
   is
374
      Evaluation : Boolean := Evaluate_It;
375
      --  Is set to False after an "or else" when left term is True and
376
      --  after an "and then" when left term is False.
377
 
378
      Final_Result : Boolean := False;
379
 
380
      Current_Result : Boolean := False;
381
      --  Value of a term
382
 
383
      Current_Operator : Operator := None;
384
      Symbol1          : Symbol_Id;
385
      Symbol2          : Symbol_Id;
386
      Symbol_Name1     : Name_Id;
387
      Symbol_Name2     : Name_Id;
388
      Symbol_Pos1      : Source_Ptr;
389
      Symbol_Pos2      : Source_Ptr;
390
      Symbol_Value1    : String_Id;
391
      Symbol_Value2    : String_Id;
392
 
393
   begin
394
      --  Loop for each term
395
 
396
      loop
397
         Change_Reserved_Keyword_To_Symbol;
398
 
399
         Current_Result := False;
400
 
401
         case Token is
402
 
403
            when Tok_Left_Paren =>
404
 
405
               --  ( expression )
406
 
407
               Scan.all;
408
               Current_Result := Expression (Evaluation);
409
 
410
               if Token = Tok_Right_Paren then
411
                  Scan.all;
412
 
413
               else
414
                  Error_Msg -- CODEFIX
415
                    ("`)` expected", Token_Ptr);
416
               end if;
417
 
418
            when Tok_Not =>
419
 
420
               --  not expression
421
 
422
               Scan.all;
423
               Current_Result :=
424
                 not Expression (Evaluation, Complemented => True);
425
 
426
            when Tok_Identifier =>
427
               Symbol_Name1 := Token_Name;
428
               Symbol_Pos1  := Token_Ptr;
429
               Scan.all;
430
 
431
               if Token = Tok_Apostrophe then
432
 
433
                  --  symbol'Defined
434
 
435
                  Scan.all;
436
 
437
                  if Token = Tok_Identifier
438
                    and then Token_Name = Name_Defined
439
                  then
440
                     Scan.all;
441
 
442
                  else
443
                     Error_Msg ("identifier `Defined` expected", Token_Ptr);
444
                  end if;
445
 
446
                  if Evaluation then
447
                     Current_Result := Index_Of (Symbol_Name1) /= No_Symbol;
448
                  end if;
449
 
450
               elsif Token = Tok_Equal then
451
                  Scan.all;
452
 
453
                  Change_Reserved_Keyword_To_Symbol;
454
 
455
                  if Token = Tok_Identifier then
456
 
457
                     --  symbol = symbol
458
 
459
                     Symbol_Name2 := Token_Name;
460
                     Symbol_Pos2  := Token_Ptr;
461
                     Scan.all;
462
 
463
                     if Evaluation then
464
                        Symbol1 := Index_Of (Symbol_Name1);
465
 
466
                        if Symbol1 = No_Symbol then
467
                           if Undefined_Symbols_Are_False then
468
                              Symbol_Value1 := String_False;
469
 
470
                           else
471
                              Error_Msg_Name_1 := Symbol_Name1;
472
                              Error_Msg ("unknown symbol %", Symbol_Pos1);
473
                              Symbol_Value1 := No_String;
474
                           end if;
475
 
476
                        else
477
                           Symbol_Value1 :=
478
                             Mapping.Table (Symbol1).Value;
479
                        end if;
480
 
481
                        Symbol2 := Index_Of (Symbol_Name2);
482
 
483
                        if Symbol2 = No_Symbol then
484
                           if Undefined_Symbols_Are_False then
485
                              Symbol_Value2 := String_False;
486
 
487
                           else
488
                              Error_Msg_Name_1 := Symbol_Name2;
489
                              Error_Msg ("unknown symbol %", Symbol_Pos2);
490
                              Symbol_Value2 := No_String;
491
                           end if;
492
 
493
                        else
494
                           Symbol_Value2 := Mapping.Table (Symbol2).Value;
495
                        end if;
496
 
497
                        if Symbol_Value1 /= No_String
498
                          and then Symbol_Value2 /= No_String
499
                        then
500
                           Current_Result := Matching_Strings
501
                                               (Symbol_Value1, Symbol_Value2);
502
                        end if;
503
                     end if;
504
 
505
                  elsif Token = Tok_String_Literal then
506
 
507
                     --  symbol = "value"
508
 
509
                     if Evaluation then
510
                        Symbol1 := Index_Of (Symbol_Name1);
511
 
512
                        if Symbol1 = No_Symbol then
513
                           if Undefined_Symbols_Are_False then
514
                              Symbol_Value1 := String_False;
515
 
516
                           else
517
                              Error_Msg_Name_1 := Symbol_Name1;
518
                              Error_Msg ("unknown symbol %", Symbol_Pos1);
519
                              Symbol_Value1 := No_String;
520
                           end if;
521
 
522
                        else
523
                           Symbol_Value1 := Mapping.Table (Symbol1).Value;
524
                        end if;
525
 
526
                        if Symbol_Value1 /= No_String then
527
                           Current_Result :=
528
                             Matching_Strings
529
                               (Symbol_Value1,
530
                                String_Literal_Id);
531
                        end if;
532
                     end if;
533
 
534
                     Scan.all;
535
 
536
                  else
537
                     Error_Msg
538
                       ("symbol or literal string expected", Token_Ptr);
539
                  end if;
540
 
541
               else
542
                  --  symbol (True or False)
543
 
544
                  if Evaluation then
545
                     Symbol1 := Index_Of (Symbol_Name1);
546
 
547
                     if Symbol1 = No_Symbol then
548
                        if Undefined_Symbols_Are_False then
549
                           Symbol_Value1 := String_False;
550
 
551
                        else
552
                           Error_Msg_Name_1 := Symbol_Name1;
553
                           Error_Msg ("unknown symbol %", Symbol_Pos1);
554
                           Symbol_Value1 := No_String;
555
                        end if;
556
 
557
                     else
558
                        Symbol_Value1 := Mapping.Table (Symbol1).Value;
559
                     end if;
560
 
561
                     if Symbol_Value1 /= No_String then
562
                        String_To_Name_Buffer (Symbol_Value1);
563
 
564
                        for Index in 1 .. Name_Len loop
565
                           Name_Buffer (Index) :=
566
                             Fold_Lower (Name_Buffer (Index));
567
                        end loop;
568
 
569
                        if Name_Buffer (1 .. Name_Len) = "true" then
570
                           Current_Result := True;
571
 
572
                        elsif Name_Buffer (1 .. Name_Len) = "false" then
573
                           Current_Result := False;
574
 
575
                        else
576
                           Error_Msg_Name_1 := Symbol_Name1;
577
                           Error_Msg
578
                             ("value of symbol % is not True or False",
579
                              Symbol_Pos1);
580
                        end if;
581
                     end if;
582
                  end if;
583
               end if;
584
 
585
            when others =>
586
               Error_Msg ("`(`, NOT or symbol expected", Token_Ptr);
587
         end case;
588
 
589
         --  Update the cumulative final result
590
 
591
         case Current_Operator is
592
            when None =>
593
               Final_Result := Current_Result;
594
 
595
            when Op_Or =>
596
               Final_Result := Final_Result or Current_Result;
597
 
598
            when Op_And =>
599
               Final_Result := Final_Result and Current_Result;
600
         end case;
601
 
602
         --  Check the next operator
603
 
604
         if Token = Tok_And then
605
            if Complemented then
606
               Error_Msg
607
                ("mixing NOT and AND is not allowed, parentheses are required",
608
                 Token_Ptr);
609
 
610
            elsif Current_Operator = Op_Or then
611
               Error_Msg ("mixing OR and AND is not allowed", Token_Ptr);
612
            end if;
613
 
614
            Current_Operator := Op_And;
615
            Scan.all;
616
 
617
            if Token = Tok_Then then
618
               Scan.all;
619
 
620
               if Final_Result = False then
621
                  Evaluation := False;
622
               end if;
623
            end if;
624
 
625
         elsif Token = Tok_Or then
626
            if Complemented then
627
               Error_Msg
628
                 ("mixing NOT and OR is not allowed, parentheses are required",
629
                  Token_Ptr);
630
 
631
            elsif Current_Operator = Op_And then
632
               Error_Msg ("mixing AND and OR is not allowed", Token_Ptr);
633
            end if;
634
 
635
            Current_Operator := Op_Or;
636
            Scan.all;
637
 
638
            if Token = Tok_Else then
639
               Scan.all;
640
 
641
               if Final_Result then
642
                  Evaluation := False;
643
               end if;
644
            end if;
645
 
646
         else
647
            --  No operator: exit the term loop
648
 
649
            exit;
650
         end if;
651
      end loop;
652
 
653
      return Final_Result;
654
   end Expression;
655
 
656
   -----------------------
657
   -- Go_To_End_Of_Line --
658
   -----------------------
659
 
660
   procedure Go_To_End_Of_Line is
661
   begin
662
      --  Scan until we get an end of line or we reach the end of the buffer
663
 
664
      while Token /= Tok_End_Of_Line
665
        and then Token /= Tok_EOF
666
      loop
667
         Scan.all;
668
      end loop;
669
   end Go_To_End_Of_Line;
670
 
671
   --------------
672
   -- Index_Of --
673
   --------------
674
 
675
   function Index_Of (Symbol : Name_Id) return Symbol_Id is
676
   begin
677
      if Mapping.Table /= null then
678
         for J in Symbol_Id range 1 .. Symbol_Table.Last (Mapping) loop
679
            if Mapping.Table (J).Symbol = Symbol then
680
               return J;
681
            end if;
682
         end loop;
683
      end if;
684
 
685
      return No_Symbol;
686
   end Index_Of;
687
 
688
   ----------------
689
   -- Initialize --
690
   ----------------
691
 
692
   procedure Initialize is
693
   begin
694
      if not Already_Initialized then
695
         Start_String;
696
         Store_String_Chars ("True");
697
         True_Value.Value := End_String;
698
 
699
         Start_String;
700
         Empty_String := End_String;
701
 
702
         Start_String;
703
         Store_String_Chars ("False");
704
         String_False := End_String;
705
 
706
         Already_Initialized := True;
707
      end if;
708
   end Initialize;
709
 
710
   ------------------
711
   -- List_Symbols --
712
   ------------------
713
 
714
   procedure List_Symbols (Foreword : String) is
715
      Order : array (0 ..  Integer (Symbol_Table.Last (Mapping)))
716
                 of Symbol_Id;
717
      --  After alphabetical sorting, this array stores the indexes of the
718
      --  symbols in the order they are displayed.
719
 
720
      function Lt (Op1, Op2 : Natural) return Boolean;
721
      --  Comparison routine for sort call
722
 
723
      procedure Move (From : Natural; To : Natural);
724
      --  Move routine for sort call
725
 
726
      --------
727
      -- Lt --
728
      --------
729
 
730
      function Lt (Op1, Op2 : Natural) return Boolean is
731
         S1 : constant String :=
732
                Get_Name_String (Mapping.Table (Order (Op1)).Symbol);
733
         S2 : constant String :=
734
                Get_Name_String (Mapping.Table (Order (Op2)).Symbol);
735
 
736
      begin
737
         return S1 < S2;
738
      end Lt;
739
 
740
      ----------
741
      -- Move --
742
      ----------
743
 
744
      procedure Move (From : Natural; To : Natural) is
745
      begin
746
         Order (To) := Order (From);
747
      end Move;
748
 
749
      package Sort_Syms is new GNAT.Heap_Sort_G (Move, Lt);
750
 
751
      Max_L : Natural;
752
      --  Maximum length of any symbol
753
 
754
   --  Start of processing for List_Symbols_Case
755
 
756
   begin
757
      if Symbol_Table.Last (Mapping) = 0 then
758
         return;
759
      end if;
760
 
761
      if Foreword'Length > 0 then
762
         Write_Eol;
763
         Write_Line (Foreword);
764
 
765
         for J in Foreword'Range loop
766
            Write_Char ('=');
767
         end loop;
768
      end if;
769
 
770
      --  Initialize the order
771
 
772
      for J in Order'Range loop
773
         Order (J) := Symbol_Id (J);
774
      end loop;
775
 
776
      --  Sort alphabetically
777
 
778
      Sort_Syms.Sort (Order'Last);
779
 
780
      Max_L := 7;
781
 
782
      for J in 1 .. Symbol_Table.Last (Mapping) loop
783
         Get_Name_String (Mapping.Table (J).Original);
784
         Max_L := Integer'Max (Max_L, Name_Len);
785
      end loop;
786
 
787
      Write_Eol;
788
      Write_Str ("Symbol");
789
 
790
      for J in 1 .. Max_L - 5 loop
791
         Write_Char (' ');
792
      end loop;
793
 
794
      Write_Line ("Value");
795
 
796
      Write_Str ("------");
797
 
798
      for J in 1 .. Max_L - 5 loop
799
         Write_Char (' ');
800
      end loop;
801
 
802
      Write_Line ("------");
803
 
804
      for J in 1 .. Order'Last loop
805
         declare
806
            Data : constant Symbol_Data := Mapping.Table (Order (J));
807
 
808
         begin
809
            Get_Name_String (Data.Original);
810
            Write_Str (Name_Buffer (1 .. Name_Len));
811
 
812
            for K in Name_Len .. Max_L loop
813
               Write_Char (' ');
814
            end loop;
815
 
816
            String_To_Name_Buffer (Data.Value);
817
 
818
            if Data.Is_A_String then
819
               Write_Char ('"');
820
 
821
               for J in 1 .. Name_Len loop
822
                  Write_Char (Name_Buffer (J));
823
 
824
                  if Name_Buffer (J) = '"' then
825
                     Write_Char ('"');
826
                  end if;
827
               end loop;
828
 
829
               Write_Char ('"');
830
 
831
            else
832
               Write_Str (Name_Buffer (1 .. Name_Len));
833
            end if;
834
         end;
835
 
836
         Write_Eol;
837
      end loop;
838
 
839
      Write_Eol;
840
   end List_Symbols;
841
 
842
   ----------------------
843
   -- Matching_Strings --
844
   ----------------------
845
 
846
   function Matching_Strings (S1, S2 : String_Id) return Boolean is
847
   begin
848
      String_To_Name_Buffer (S1);
849
 
850
      for Index in 1 .. Name_Len loop
851
         Name_Buffer (Index) := Fold_Lower (Name_Buffer (Index));
852
      end loop;
853
 
854
      declare
855
         String1 : constant String := Name_Buffer (1 .. Name_Len);
856
 
857
      begin
858
         String_To_Name_Buffer (S2);
859
 
860
         for Index in 1 .. Name_Len loop
861
            Name_Buffer (Index) := Fold_Lower (Name_Buffer (Index));
862
         end loop;
863
 
864
         return String1 = Name_Buffer (1 .. Name_Len);
865
      end;
866
   end Matching_Strings;
867
 
868
   --------------------
869
   -- Parse_Def_File --
870
   --------------------
871
 
872
   procedure Parse_Def_File is
873
      Symbol        : Symbol_Id;
874
      Symbol_Name   : Name_Id;
875
      Original_Name : Name_Id;
876
      Data          : Symbol_Data;
877
      Value_Start   : Source_Ptr;
878
      Value_End     : Source_Ptr;
879
      Ch            : Character;
880
 
881
      use ASCII;
882
 
883
   begin
884
      Def_Line_Loop :
885
      loop
886
         Scan.all;
887
 
888
         exit Def_Line_Loop when Token = Tok_EOF;
889
 
890
         if Token /= Tok_End_Of_Line then
891
            Change_Reserved_Keyword_To_Symbol;
892
 
893
            if Token /= Tok_Identifier then
894
               Error_Msg ("identifier expected", Token_Ptr);
895
               goto Cleanup;
896
            end if;
897
 
898
            Symbol_Name := Token_Name;
899
            Name_Len := 0;
900
 
901
            for Ptr in Token_Ptr .. Scan_Ptr - 1 loop
902
               Name_Len := Name_Len + 1;
903
               Name_Buffer (Name_Len) := Sinput.Source (Ptr);
904
            end loop;
905
 
906
            Original_Name := Name_Find;
907
            Scan.all;
908
 
909
            if Token /= Tok_Colon_Equal then
910
               Error_Msg -- CODEFIX
911
                 ("`:=` expected", Token_Ptr);
912
               goto Cleanup;
913
            end if;
914
 
915
            Scan.all;
916
 
917
            if Token = Tok_String_Literal then
918
               Data := (Symbol              => Symbol_Name,
919
                        Original            => Original_Name,
920
                        On_The_Command_Line => False,
921
                        Is_A_String         => True,
922
                        Value               => String_Literal_Id);
923
 
924
               Scan.all;
925
 
926
               if Token /= Tok_End_Of_Line and then Token /= Tok_EOF then
927
                  Error_Msg ("extraneous text in definition", Token_Ptr);
928
                  goto Cleanup;
929
               end if;
930
 
931
            elsif Token = Tok_End_Of_Line or else Token = Tok_EOF then
932
               Data := (Symbol              => Symbol_Name,
933
                        Original            => Original_Name,
934
                        On_The_Command_Line => False,
935
                        Is_A_String         => False,
936
                        Value               => Empty_String);
937
 
938
            else
939
               Value_Start := Token_Ptr;
940
               Value_End   := Token_Ptr - 1;
941
               Scan_Ptr    := Token_Ptr;
942
 
943
               Value_Chars_Loop :
944
               loop
945
                  Ch := Sinput.Source (Scan_Ptr);
946
 
947
                  case Ch is
948
                     when '_' | '.' | '0' .. '9' | 'a' .. 'z' | 'A' .. 'Z' =>
949
                        Value_End := Scan_Ptr;
950
                        Scan_Ptr := Scan_Ptr + 1;
951
 
952
                     when ' ' | HT | VT | CR | LF | FF =>
953
                        exit Value_Chars_Loop;
954
 
955
                     when others =>
956
                        Error_Msg ("illegal character", Scan_Ptr);
957
                        goto Cleanup;
958
                  end case;
959
               end loop Value_Chars_Loop;
960
 
961
               Scan.all;
962
 
963
               if Token /= Tok_End_Of_Line and then Token /= Tok_EOF then
964
                  Error_Msg ("extraneous text in definition", Token_Ptr);
965
                  goto Cleanup;
966
               end if;
967
 
968
               Start_String;
969
 
970
               while Value_Start <= Value_End loop
971
                  Store_String_Char (Sinput.Source (Value_Start));
972
                  Value_Start := Value_Start + 1;
973
               end loop;
974
 
975
               Data := (Symbol              => Symbol_Name,
976
                        Original            => Original_Name,
977
                        On_The_Command_Line => False,
978
                        Is_A_String         => False,
979
                        Value               => End_String);
980
            end if;
981
 
982
            --  Now that we have the value, get the symbol index
983
 
984
            Symbol := Index_Of (Symbol_Name);
985
 
986
            if Symbol /= No_Symbol then
987
               --  If we already have an entry for this symbol, replace it
988
               --  with the new value, except if the symbol was declared
989
               --  on the command line.
990
 
991
               if Mapping.Table (Symbol).On_The_Command_Line then
992
                  goto Continue;
993
               end if;
994
 
995
            else
996
               --  As it is the first time we see this symbol, create a new
997
               --  entry in the table.
998
 
999
               if Mapping.Table = null then
1000
                  Symbol_Table.Init (Mapping);
1001
               end if;
1002
 
1003
               Symbol_Table.Increment_Last (Mapping);
1004
               Symbol := Symbol_Table.Last (Mapping);
1005
            end if;
1006
 
1007
            Mapping.Table (Symbol) := Data;
1008
            goto Continue;
1009
 
1010
            <<Cleanup>>
1011
               Set_Ignore_Errors (To => True);
1012
 
1013
               while Token /= Tok_End_Of_Line and then Token /= Tok_EOF loop
1014
                  Scan.all;
1015
               end loop;
1016
 
1017
               Set_Ignore_Errors (To => False);
1018
 
1019
            <<Continue>>
1020
               null;
1021
         end if;
1022
      end loop Def_Line_Loop;
1023
   end Parse_Def_File;
1024
 
1025
   ----------------
1026
   -- Preprocess --
1027
   ----------------
1028
 
1029
   procedure Preprocess (Source_Modified : out Boolean) is
1030
      Start_Of_Processing : Source_Ptr;
1031
      Cond                : Boolean;
1032
      Preprocessor_Line   : Boolean := False;
1033
      No_Error_Found      : Boolean := True;
1034
      Modified            : Boolean := False;
1035
 
1036
      procedure Output (From, To : Source_Ptr);
1037
      --  Output the characters with indexes From .. To in the buffer to the
1038
      --  output file.
1039
 
1040
      procedure Output_Line (From, To : Source_Ptr);
1041
      --  Output a line or the end of a line from the buffer to the output
1042
      --  file, followed by an end of line terminator. Depending on the value
1043
      --  of Deleting and the switches, the line may be commented out, blank or
1044
      --  not output at all.
1045
 
1046
      ------------
1047
      -- Output --
1048
      ------------
1049
 
1050
      procedure Output (From, To : Source_Ptr) is
1051
      begin
1052
         for J in From .. To loop
1053
            Put_Char (Sinput.Source (J));
1054
         end loop;
1055
      end Output;
1056
 
1057
      -----------------
1058
      -- Output_Line --
1059
      -----------------
1060
 
1061
      procedure Output_Line (From, To : Source_Ptr) is
1062
      begin
1063
         if Deleting or else Preprocessor_Line then
1064
            if Blank_Deleted_Lines then
1065
               New_EOL.all;
1066
 
1067
            elsif Comment_Deleted_Lines then
1068
               Put_Char ('-');
1069
               Put_Char ('-');
1070
               Put_Char ('!');
1071
 
1072
               if From < To then
1073
                  Put_Char (' ');
1074
                  Output (From, To);
1075
               end if;
1076
 
1077
               New_EOL.all;
1078
            end if;
1079
 
1080
         else
1081
            Output (From, To);
1082
            New_EOL.all;
1083
         end if;
1084
      end Output_Line;
1085
 
1086
   --  Start of processing for Preprocess
1087
 
1088
   begin
1089
      Start_Of_Processing := Scan_Ptr;
1090
 
1091
      --  We need to call Scan for the first time, because Initialize_Scanner
1092
      --  is no longer doing it.
1093
 
1094
      Scan.all;
1095
 
1096
      Input_Line_Loop : loop
1097
         exit Input_Line_Loop when Token = Tok_EOF;
1098
 
1099
         Preprocessor_Line := False;
1100
 
1101
         if Token /= Tok_End_Of_Line then
1102
 
1103
            --  Preprocessor line
1104
 
1105
            if Token = Tok_Special and then Special_Character = '#' then
1106
               Modified := True;
1107
               Preprocessor_Line := True;
1108
               Scan.all;
1109
 
1110
               case Token is
1111
 
1112
                  --  #if
1113
 
1114
                  when Tok_If =>
1115
                     declare
1116
                        If_Ptr : constant Source_Ptr := Token_Ptr;
1117
 
1118
                     begin
1119
                        Scan.all;
1120
                        Cond := Expression (not Deleting);
1121
 
1122
                        --  Check for an eventual "then"
1123
 
1124
                        if Token = Tok_Then then
1125
                           Scan.all;
1126
                        end if;
1127
 
1128
                        --  It is an error to have trailing characters after
1129
                        --  the condition or "then".
1130
 
1131
                        if Token /= Tok_End_Of_Line
1132
                          and then Token /= Tok_EOF
1133
                        then
1134
                           Error_Msg
1135
                             ("extraneous text on preprocessor line",
1136
                              Token_Ptr);
1137
                           No_Error_Found := False;
1138
                           Go_To_End_Of_Line;
1139
                        end if;
1140
 
1141
                        declare
1142
                           --  Set the initial state of this new "#if". This
1143
                           --  must be done before incrementing the Last of
1144
                           --  the table, otherwise function Deleting does
1145
                           --  not report the correct value.
1146
 
1147
                           New_State : constant Pp_State :=
1148
                                         (If_Ptr     => If_Ptr,
1149
                                          Else_Ptr   => 0,
1150
                                          Deleting   => Deleting
1151
                                                          or else not Cond,
1152
                                          Match_Seen => Deleting or else Cond);
1153
 
1154
                        begin
1155
                           Pp_States.Increment_Last;
1156
                           Pp_States.Table (Pp_States.Last) := New_State;
1157
                        end;
1158
                     end;
1159
 
1160
                  --  #elsif
1161
 
1162
                  when Tok_Elsif =>
1163
                     Cond := False;
1164
 
1165
                     if Pp_States.Last = 0
1166
                       or else Pp_States.Table (Pp_States.Last).Else_Ptr /= 0
1167
                     then
1168
                        Error_Msg ("no IF for this ELSIF", Token_Ptr);
1169
                        No_Error_Found := False;
1170
 
1171
                     else
1172
                        Cond :=
1173
                          not Pp_States.Table (Pp_States.Last).Match_Seen;
1174
                     end if;
1175
 
1176
                     Scan.all;
1177
                     Cond := Expression (Cond);
1178
 
1179
                     --  Check for an eventual "then"
1180
 
1181
                     if Token = Tok_Then then
1182
                        Scan.all;
1183
                     end if;
1184
 
1185
                     --  It is an error to have trailing characters after
1186
                     --  the condition or "then".
1187
 
1188
                     if Token /= Tok_End_Of_Line
1189
                       and then Token /= Tok_EOF
1190
                     then
1191
                        Error_Msg
1192
                          ("extraneous text on preprocessor line",
1193
                           Token_Ptr);
1194
                        No_Error_Found := False;
1195
 
1196
                        Go_To_End_Of_Line;
1197
                     end if;
1198
 
1199
                     --  Depending on the value of the condition, set the
1200
                     --  new values of Deleting and Match_Seen.
1201
                     if Pp_States.Last > 0 then
1202
                        if Pp_States.Table (Pp_States.Last).Match_Seen then
1203
                           Pp_States.Table (Pp_States.Last).Deleting := True;
1204
                        else
1205
                           if Cond then
1206
                              Pp_States.Table (Pp_States.Last).Match_Seen :=
1207
                                True;
1208
                              Pp_States.Table (Pp_States.Last).Deleting :=
1209
                                False;
1210
                           end if;
1211
                        end if;
1212
                     end if;
1213
 
1214
                  --  #else
1215
 
1216
                  when Tok_Else =>
1217
                     if Pp_States.Last = 0 then
1218
                        Error_Msg ("no IF for this ELSE", Token_Ptr);
1219
                        No_Error_Found := False;
1220
 
1221
                     elsif
1222
                       Pp_States.Table (Pp_States.Last).Else_Ptr /= 0
1223
                     then
1224
                        Error_Msg -- CODEFIX
1225
                          ("duplicate ELSE line", Token_Ptr);
1226
                        No_Error_Found := False;
1227
                     end if;
1228
 
1229
                     --  Set the possibly new values of Deleting and
1230
                     --  Match_Seen.
1231
 
1232
                     if Pp_States.Last > 0 then
1233
                        if Pp_States.Table (Pp_States.Last).Match_Seen then
1234
                           Pp_States.Table (Pp_States.Last).Deleting :=
1235
                             True;
1236
 
1237
                        else
1238
                           Pp_States.Table (Pp_States.Last).Match_Seen :=
1239
                             True;
1240
                           Pp_States.Table (Pp_States.Last).Deleting :=
1241
                             False;
1242
                        end if;
1243
 
1244
                        --  Set the Else_Ptr to check for illegal #elsif
1245
                        --  later.
1246
 
1247
                        Pp_States.Table (Pp_States.Last).Else_Ptr :=
1248
                          Token_Ptr;
1249
                     end if;
1250
 
1251
                     Scan.all;
1252
 
1253
                     --  It is an error to have characters after "#else"
1254
                     if Token /= Tok_End_Of_Line
1255
                       and then Token /= Tok_EOF
1256
                     then
1257
                        Error_Msg
1258
                          ("extraneous text on preprocessor line",
1259
                           Token_Ptr);
1260
                        No_Error_Found := False;
1261
                        Go_To_End_Of_Line;
1262
                     end if;
1263
 
1264
                  --  #end if;
1265
 
1266
                  when Tok_End =>
1267
                     if Pp_States.Last = 0 then
1268
                        Error_Msg ("no IF for this END", Token_Ptr);
1269
                        No_Error_Found := False;
1270
                     end if;
1271
 
1272
                     Scan.all;
1273
 
1274
                     if Token /= Tok_If then
1275
                        Error_Msg -- CODEFIX
1276
                          ("IF expected", Token_Ptr);
1277
                        No_Error_Found := False;
1278
 
1279
                     else
1280
                        Scan.all;
1281
 
1282
                        if Token /= Tok_Semicolon then
1283
                           Error_Msg -- CODEFIX
1284
                             ("`;` Expected", Token_Ptr);
1285
                           No_Error_Found := False;
1286
 
1287
                        else
1288
                           Scan.all;
1289
 
1290
                           --  It is an error to have character after
1291
                           --  "#end if;".
1292
                           if Token /= Tok_End_Of_Line
1293
                             and then Token /= Tok_EOF
1294
                           then
1295
                              Error_Msg
1296
                                ("extraneous text on preprocessor line",
1297
                                 Token_Ptr);
1298
                              No_Error_Found := False;
1299
                           end if;
1300
                        end if;
1301
                     end if;
1302
 
1303
                     --  In case of one of the errors above, skip the tokens
1304
                     --  until the end of line is reached.
1305
 
1306
                     Go_To_End_Of_Line;
1307
 
1308
                     --  Decrement the depth of the #if stack
1309
 
1310
                     if Pp_States.Last > 0 then
1311
                        Pp_States.Decrement_Last;
1312
                     end if;
1313
 
1314
                  --  Illegal preprocessor line
1315
 
1316
                  when others =>
1317
                     No_Error_Found := False;
1318
 
1319
                     if Pp_States.Last = 0 then
1320
                        Error_Msg -- CODEFIX
1321
                          ("IF expected", Token_Ptr);
1322
 
1323
                     elsif
1324
                       Pp_States.Table (Pp_States.Last).Else_Ptr = 0
1325
                     then
1326
                        Error_Msg
1327
                          ("IF, ELSIF, ELSE, or `END IF` expected",
1328
                           Token_Ptr);
1329
 
1330
                     else
1331
                        Error_Msg ("IF or `END IF` expected", Token_Ptr);
1332
                     end if;
1333
 
1334
                     --  Skip to the end of this illegal line
1335
 
1336
                     Go_To_End_Of_Line;
1337
               end case;
1338
 
1339
            --  Not a preprocessor line
1340
 
1341
            else
1342
               --  Do not report errors for those lines, even if there are
1343
               --  Ada parsing errors.
1344
 
1345
               Set_Ignore_Errors (To => True);
1346
 
1347
               if Deleting then
1348
                  Go_To_End_Of_Line;
1349
 
1350
               else
1351
                  while Token /= Tok_End_Of_Line
1352
                    and then Token /= Tok_EOF
1353
                  loop
1354
                     if Token = Tok_Special
1355
                       and then Special_Character = '$'
1356
                     then
1357
                        Modified := True;
1358
 
1359
                        declare
1360
                           Dollar_Ptr : constant Source_Ptr := Token_Ptr;
1361
                           Symbol     : Symbol_Id;
1362
 
1363
                        begin
1364
                           Scan.all;
1365
                           Change_Reserved_Keyword_To_Symbol;
1366
 
1367
                           if Token = Tok_Identifier
1368
                             and then Token_Ptr = Dollar_Ptr + 1
1369
                           then
1370
                              --  $symbol
1371
 
1372
                              Symbol := Index_Of (Token_Name);
1373
 
1374
                              --  If symbol exists, replace by its value
1375
 
1376
                              if Symbol /= No_Symbol then
1377
                                 Output (Start_Of_Processing, Dollar_Ptr - 1);
1378
                                 Start_Of_Processing := Scan_Ptr;
1379
                                 String_To_Name_Buffer
1380
                                   (Mapping.Table (Symbol).Value);
1381
 
1382
                                 if Mapping.Table (Symbol).Is_A_String then
1383
 
1384
                                    --  Value is an Ada string
1385
 
1386
                                    Put_Char ('"');
1387
 
1388
                                    for J in 1 .. Name_Len loop
1389
                                       Put_Char (Name_Buffer (J));
1390
 
1391
                                       if Name_Buffer (J) = '"' then
1392
                                          Put_Char ('"');
1393
                                       end if;
1394
                                    end loop;
1395
 
1396
                                    Put_Char ('"');
1397
 
1398
                                 else
1399
                                    --  Value is a sequence of characters, not
1400
                                    --  an Ada string.
1401
 
1402
                                    for J in 1 .. Name_Len loop
1403
                                       Put_Char (Name_Buffer (J));
1404
                                    end loop;
1405
                                 end if;
1406
                              end if;
1407
                           end if;
1408
                        end;
1409
                     end if;
1410
 
1411
                     Scan.all;
1412
                  end loop;
1413
               end if;
1414
 
1415
               Set_Ignore_Errors (To => False);
1416
            end if;
1417
         end if;
1418
 
1419
         pragma Assert (Token = Tok_End_Of_Line or else Token = Tok_EOF);
1420
 
1421
         --  At this point, the token is either end of line or EOF.
1422
         --  The line to possibly output stops just before the token.
1423
 
1424
         Output_Line (Start_Of_Processing, Token_Ptr - 1);
1425
 
1426
         --  If we are at the end of a line, the scan pointer is at the first
1427
         --  non blank character, not necessarily the first character of the
1428
         --  line; so, we have to deduct Start_Of_Processing from the token
1429
         --  pointer.
1430
 
1431
         if Token = Tok_End_Of_Line then
1432
            if (Sinput.Source (Token_Ptr) = ASCII.CR
1433
                  and then Sinput.Source (Token_Ptr + 1) = ASCII.LF)
1434
              or else
1435
               (Sinput.Source (Token_Ptr) = ASCII.CR
1436
                  and then Sinput.Source (Token_Ptr + 1) = ASCII.LF)
1437
            then
1438
               Start_Of_Processing := Token_Ptr + 2;
1439
            else
1440
               Start_Of_Processing := Token_Ptr + 1;
1441
            end if;
1442
         end if;
1443
 
1444
         --  Now, scan the first token of the next line. If the token is EOF,
1445
         --  the scan pointer will not move, and the token will still be EOF.
1446
 
1447
         Set_Ignore_Errors (To => True);
1448
         Scan.all;
1449
         Set_Ignore_Errors (To => False);
1450
      end loop Input_Line_Loop;
1451
 
1452
      --  Report an error for any missing some "#end if;"
1453
 
1454
      for Level in reverse 1 .. Pp_States.Last loop
1455
         Error_Msg ("no `END IF` for this IF", Pp_States.Table (Level).If_Ptr);
1456
         No_Error_Found := False;
1457
      end loop;
1458
 
1459
      Source_Modified := No_Error_Found and Modified;
1460
   end Preprocess;
1461
 
1462
   -----------------
1463
   -- Setup_Hooks --
1464
   -----------------
1465
 
1466
   procedure Setup_Hooks
1467
     (Error_Msg         : Error_Msg_Proc;
1468
      Scan              : Scan_Proc;
1469
      Set_Ignore_Errors : Set_Ignore_Errors_Proc;
1470
      Put_Char          : Put_Char_Proc;
1471
      New_EOL           : New_EOL_Proc)
1472
   is
1473
   begin
1474
      pragma Assert (Already_Initialized);
1475
 
1476
      Prep.Error_Msg         := Error_Msg;
1477
      Prep.Scan              := Scan;
1478
      Prep.Set_Ignore_Errors := Set_Ignore_Errors;
1479
      Prep.Put_Char          := Put_Char;
1480
      Prep.New_EOL           := New_EOL;
1481
   end Setup_Hooks;
1482
 
1483
end Prep;

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