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1 281 jeremybenn
------------------------------------------------------------------------------
2
--                                                                          --
3
--                         GNAT COMPILER COMPONENTS                         --
4
--                                                                          --
5
--                               N L I S T S                                --
6
--                                                                          --
7
--                                 B o d y                                  --
8
--                                                                          --
9
--          Copyright (C) 1992-2009, 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.                                     --
17
--                                                                          --
18
-- As a special exception under Section 7 of GPL version 3, you are granted --
19
-- additional permissions described in the GCC Runtime Library Exception,   --
20
-- version 3.1, as published by the Free Software Foundation.               --
21
--                                                                          --
22
-- You should have received a copy of the GNU General Public License and    --
23
-- a copy of the GCC Runtime Library Exception along with this program;     --
24
-- see the files COPYING3 and COPYING.RUNTIME respectively.  If not, see    --
25
-- <http://www.gnu.org/licenses/>.                                          --
26
--                                                                          --
27
-- GNAT was originally developed  by the GNAT team at  New York University. --
28
-- Extensive contributions were provided by Ada Core Technologies Inc.      --
29
--                                                                          --
30
------------------------------------------------------------------------------
31
 
32
--  WARNING: There is a C version of this package. Any changes to this source
33
--  file must be properly reflected in the corresponding C header a-nlists.h
34
 
35
with Alloc;
36
with Atree;  use Atree;
37
with Debug;  use Debug;
38
with Output; use Output;
39
with Sinfo;  use Sinfo;
40
with Table;
41
 
42
package body Nlists is
43
 
44
   use Atree_Private_Part;
45
   --  Get access to Nodes table
46
 
47
   ----------------------------------
48
   -- Implementation of Node Lists --
49
   ----------------------------------
50
 
51
   --  A node list is represented by a list header which contains
52
   --  three fields:
53
 
54
   type List_Header is record
55
      First : Node_Id;
56
      --  Pointer to first node in list. Empty if list is empty
57
 
58
      Last  : Node_Id;
59
      --  Pointer to last node in list. Empty if list is empty
60
 
61
      Parent : Node_Id;
62
      --  Pointer to parent of list. Empty if list has no parent
63
   end record;
64
 
65
   --  The node lists are stored in a table indexed by List_Id values
66
 
67
   package Lists is new Table.Table (
68
     Table_Component_Type => List_Header,
69
     Table_Index_Type     => List_Id'Base,
70
     Table_Low_Bound      => First_List_Id,
71
     Table_Initial        => Alloc.Lists_Initial,
72
     Table_Increment      => Alloc.Lists_Increment,
73
     Table_Name           => "Lists");
74
 
75
   --  The nodes in the list all have the In_List flag set, and their Link
76
   --  fields (which otherwise point to the parent) contain the List_Id of
77
   --  the list header giving immediate access to the list containing the
78
   --  node, and its parent and first and last elements.
79
 
80
   --  Two auxiliary tables, indexed by Node_Id values and built in parallel
81
   --  with the main nodes table and always having the same size contain the
82
   --  list link values that allow locating the previous and next node in a
83
   --  list. The entries in these tables are valid only if the In_List flag
84
   --  is set in the corresponding node. Next_Node is Empty at the end of a
85
   --  list and Prev_Node is Empty at the start of a list.
86
 
87
   package Next_Node is new Table.Table (
88
      Table_Component_Type => Node_Id,
89
      Table_Index_Type     => Node_Id'Base,
90
      Table_Low_Bound      => First_Node_Id,
91
      Table_Initial        => Alloc.Orig_Nodes_Initial,
92
      Table_Increment      => Alloc.Orig_Nodes_Increment,
93
      Table_Name           => "Next_Node");
94
 
95
   package Prev_Node is new Table.Table (
96
      Table_Component_Type => Node_Id,
97
      Table_Index_Type     => Node_Id'Base,
98
      Table_Low_Bound      => First_Node_Id,
99
      Table_Initial        => Alloc.Orig_Nodes_Initial,
100
      Table_Increment      => Alloc.Orig_Nodes_Increment,
101
      Table_Name           => "Prev_Node");
102
 
103
   -----------------------
104
   -- Local Subprograms --
105
   -----------------------
106
 
107
   procedure Set_First (List : List_Id; To : Node_Id);
108
   pragma Inline (Set_First);
109
   --  Sets First field of list header List to reference To
110
 
111
   procedure Set_Last (List : List_Id; To : Node_Id);
112
   pragma Inline (Set_Last);
113
   --  Sets Last field of list header List to reference To
114
 
115
   procedure Set_List_Link (Node : Node_Id; To : List_Id);
116
   pragma Inline (Set_List_Link);
117
   --  Sets list link of Node to list header To
118
 
119
   procedure Set_Next (Node : Node_Id; To : Node_Id);
120
   pragma Inline (Set_Next);
121
   --  Sets the Next_Node pointer for Node to reference To
122
 
123
   procedure Set_Prev (Node : Node_Id; To : Node_Id);
124
   pragma Inline (Set_Prev);
125
   --  Sets the Prev_Node pointer for Node to reference To
126
 
127
   --------------------------
128
   -- Allocate_List_Tables --
129
   --------------------------
130
 
131
   procedure Allocate_List_Tables (N : Node_Id) is
132
      Old_Last : constant Node_Id'Base := Next_Node.Last;
133
 
134
   begin
135
      pragma Assert (N >= Old_Last);
136
      Next_Node.Set_Last (N);
137
      Prev_Node.Set_Last (N);
138
 
139
      --  Make sure we have no uninitialized junk in any new entires added.
140
      --  This ensures that Tree_Gen will not write out any uninitialized junk.
141
 
142
      for J in Old_Last + 1 .. N loop
143
         Next_Node.Table (J) := Empty;
144
         Prev_Node.Table (J) := Empty;
145
      end loop;
146
   end Allocate_List_Tables;
147
 
148
   ------------
149
   -- Append --
150
   ------------
151
 
152
   procedure Append (Node : Node_Id; To : List_Id) is
153
      L : constant Node_Id := Last (To);
154
 
155
      procedure Append_Debug;
156
      pragma Inline (Append_Debug);
157
      --  Output debug information if Debug_Flag_N set
158
 
159
      ------------------
160
      -- Append_Debug --
161
      ------------------
162
 
163
      procedure Append_Debug is
164
      begin
165
         if Debug_Flag_N then
166
            Write_Str ("Append node ");
167
            Write_Int (Int (Node));
168
            Write_Str (" to list ");
169
            Write_Int (Int (To));
170
            Write_Eol;
171
         end if;
172
      end Append_Debug;
173
 
174
   --  Start of processing for Append
175
 
176
   begin
177
      pragma Assert (not Is_List_Member (Node));
178
 
179
      if Node = Error then
180
         return;
181
      end if;
182
 
183
      pragma Debug (Append_Debug);
184
 
185
      if No (L) then
186
         Set_First (To, Node);
187
      else
188
         Set_Next (L, Node);
189
      end if;
190
 
191
      Set_Last (To, Node);
192
 
193
      Nodes.Table (Node).In_List := True;
194
 
195
      Set_Next      (Node, Empty);
196
      Set_Prev      (Node, L);
197
      Set_List_Link (Node, To);
198
   end Append;
199
 
200
   -----------------
201
   -- Append_List --
202
   -----------------
203
 
204
   procedure Append_List (List : List_Id; To : List_Id) is
205
 
206
      procedure Append_List_Debug;
207
      pragma Inline (Append_List_Debug);
208
      --  Output debug information if Debug_Flag_N set
209
 
210
      -----------------------
211
      -- Append_List_Debug --
212
      -----------------------
213
 
214
      procedure Append_List_Debug is
215
      begin
216
         if Debug_Flag_N then
217
            Write_Str ("Append list ");
218
            Write_Int (Int (List));
219
            Write_Str (" to list ");
220
            Write_Int (Int (To));
221
            Write_Eol;
222
         end if;
223
      end Append_List_Debug;
224
 
225
   --  Start of processing for Append_List
226
 
227
   begin
228
      if Is_Empty_List (List) then
229
         return;
230
 
231
      else
232
         declare
233
            L : constant Node_Id := Last (To);
234
            F : constant Node_Id := First (List);
235
            N : Node_Id;
236
 
237
         begin
238
            pragma Debug (Append_List_Debug);
239
 
240
            N := F;
241
            loop
242
               Set_List_Link (N, To);
243
               N := Next (N);
244
               exit when No (N);
245
            end loop;
246
 
247
            if No (L) then
248
               Set_First (To, F);
249
            else
250
               Set_Next (L, F);
251
            end if;
252
 
253
            Set_Prev (F, L);
254
            Set_Last (To, Last (List));
255
 
256
            Set_First (List, Empty);
257
            Set_Last  (List, Empty);
258
         end;
259
      end if;
260
   end Append_List;
261
 
262
   --------------------
263
   -- Append_List_To --
264
   --------------------
265
 
266
   procedure Append_List_To (To : List_Id; List : List_Id) is
267
   begin
268
      Append_List (List, To);
269
   end Append_List_To;
270
 
271
   ---------------
272
   -- Append_To --
273
   ---------------
274
 
275
   procedure Append_To (To : List_Id; Node : Node_Id) is
276
   begin
277
      Append (Node, To);
278
   end Append_To;
279
 
280
   -----------
281
   -- First --
282
   -----------
283
 
284
   function First (List : List_Id) return Node_Id is
285
   begin
286
      if List = No_List then
287
         return Empty;
288
      else
289
         pragma Assert (List <= Lists.Last);
290
         return Lists.Table (List).First;
291
      end if;
292
   end First;
293
 
294
   ----------------------
295
   -- First_Non_Pragma --
296
   ----------------------
297
 
298
   function First_Non_Pragma (List : List_Id) return Node_Id is
299
      N : constant Node_Id := First (List);
300
   begin
301
      if Nkind (N) /= N_Pragma
302
           and then
303
         Nkind (N) /= N_Null_Statement
304
      then
305
         return N;
306
      else
307
         return Next_Non_Pragma (N);
308
      end if;
309
   end First_Non_Pragma;
310
 
311
   ----------------
312
   -- Initialize --
313
   ----------------
314
 
315
   procedure Initialize is
316
      E : constant List_Id := Error_List;
317
 
318
   begin
319
      Lists.Init;
320
      Next_Node.Init;
321
      Prev_Node.Init;
322
 
323
      --  Allocate Error_List list header
324
 
325
      Lists.Increment_Last;
326
      Set_Parent (E, Empty);
327
      Set_First  (E, Empty);
328
      Set_Last   (E, Empty);
329
   end Initialize;
330
 
331
   ------------------
332
   -- Insert_After --
333
   ------------------
334
 
335
   procedure Insert_After (After : Node_Id; Node : Node_Id) is
336
 
337
      procedure Insert_After_Debug;
338
      pragma Inline (Insert_After_Debug);
339
      --  Output debug information if Debug_Flag_N set
340
 
341
      ------------------------
342
      -- Insert_After_Debug --
343
      ------------------------
344
 
345
      procedure Insert_After_Debug is
346
      begin
347
         if Debug_Flag_N then
348
            Write_Str ("Insert node");
349
            Write_Int (Int (Node));
350
            Write_Str (" after node ");
351
            Write_Int (Int (After));
352
            Write_Eol;
353
         end if;
354
      end Insert_After_Debug;
355
 
356
   --  Start of processing for Insert_After
357
 
358
   begin
359
      pragma Assert
360
        (Is_List_Member (After) and then not Is_List_Member (Node));
361
 
362
      if Node = Error then
363
         return;
364
      end if;
365
 
366
      pragma Debug (Insert_After_Debug);
367
 
368
      declare
369
         Before : constant Node_Id := Next (After);
370
         LC     : constant List_Id := List_Containing (After);
371
 
372
      begin
373
         if Present (Before) then
374
            Set_Prev (Before, Node);
375
         else
376
            Set_Last (LC, Node);
377
         end if;
378
 
379
         Set_Next (After, Node);
380
 
381
         Nodes.Table (Node).In_List := True;
382
 
383
         Set_Prev      (Node, After);
384
         Set_Next      (Node, Before);
385
         Set_List_Link (Node, LC);
386
      end;
387
   end Insert_After;
388
 
389
   -------------------
390
   -- Insert_Before --
391
   -------------------
392
 
393
   procedure Insert_Before (Before : Node_Id; Node : Node_Id) is
394
 
395
      procedure Insert_Before_Debug;
396
      pragma Inline (Insert_Before_Debug);
397
      --  Output debug information if Debug_Flag_N set
398
 
399
      -------------------------
400
      -- Insert_Before_Debug --
401
      -------------------------
402
 
403
      procedure Insert_Before_Debug is
404
      begin
405
         if Debug_Flag_N then
406
            Write_Str ("Insert node");
407
            Write_Int (Int (Node));
408
            Write_Str (" before node ");
409
            Write_Int (Int (Before));
410
            Write_Eol;
411
         end if;
412
      end Insert_Before_Debug;
413
 
414
   --  Start of processing for Insert_Before
415
 
416
   begin
417
      pragma Assert
418
        (Is_List_Member (Before) and then not Is_List_Member (Node));
419
 
420
      if Node = Error then
421
         return;
422
      end if;
423
 
424
      pragma Debug (Insert_Before_Debug);
425
 
426
      declare
427
         After : constant Node_Id := Prev (Before);
428
         LC    : constant List_Id := List_Containing (Before);
429
 
430
      begin
431
         if Present (After) then
432
            Set_Next (After, Node);
433
         else
434
            Set_First (LC, Node);
435
         end if;
436
 
437
         Set_Prev (Before, Node);
438
 
439
         Nodes.Table (Node).In_List := True;
440
 
441
         Set_Prev      (Node, After);
442
         Set_Next      (Node, Before);
443
         Set_List_Link (Node, LC);
444
      end;
445
   end Insert_Before;
446
 
447
   -----------------------
448
   -- Insert_List_After --
449
   -----------------------
450
 
451
   procedure Insert_List_After (After : Node_Id; List : List_Id) is
452
 
453
      procedure Insert_List_After_Debug;
454
      pragma Inline (Insert_List_After_Debug);
455
      --  Output debug information if Debug_Flag_N set
456
 
457
      -----------------------------
458
      -- Insert_List_After_Debug --
459
      -----------------------------
460
 
461
      procedure Insert_List_After_Debug is
462
      begin
463
         if Debug_Flag_N then
464
            Write_Str ("Insert list ");
465
            Write_Int (Int (List));
466
            Write_Str (" after node ");
467
            Write_Int (Int (After));
468
            Write_Eol;
469
         end if;
470
      end Insert_List_After_Debug;
471
 
472
   --  Start of processing for Insert_List_After
473
 
474
   begin
475
      pragma Assert (Is_List_Member (After));
476
 
477
      if Is_Empty_List (List) then
478
         return;
479
 
480
      else
481
         declare
482
            Before : constant Node_Id := Next (After);
483
            LC     : constant List_Id := List_Containing (After);
484
            F      : constant Node_Id := First (List);
485
            L      : constant Node_Id := Last (List);
486
            N      : Node_Id;
487
 
488
         begin
489
            pragma Debug (Insert_List_After_Debug);
490
 
491
            N := F;
492
            loop
493
               Set_List_Link (N, LC);
494
               exit when N = L;
495
               N := Next (N);
496
            end loop;
497
 
498
            if Present (Before) then
499
               Set_Prev (Before, L);
500
            else
501
               Set_Last (LC, L);
502
            end if;
503
 
504
            Set_Next (After, F);
505
            Set_Prev (F, After);
506
            Set_Next (L, Before);
507
 
508
            Set_First (List, Empty);
509
            Set_Last  (List, Empty);
510
         end;
511
      end if;
512
   end Insert_List_After;
513
 
514
   ------------------------
515
   -- Insert_List_Before --
516
   ------------------------
517
 
518
   procedure Insert_List_Before (Before : Node_Id; List : List_Id) is
519
 
520
      procedure Insert_List_Before_Debug;
521
      pragma Inline (Insert_List_Before_Debug);
522
      --  Output debug information if Debug_Flag_N set
523
 
524
      ------------------------------
525
      -- Insert_List_Before_Debug --
526
      ------------------------------
527
 
528
      procedure Insert_List_Before_Debug is
529
      begin
530
         if Debug_Flag_N then
531
            Write_Str ("Insert list ");
532
            Write_Int (Int (List));
533
            Write_Str (" before node ");
534
            Write_Int (Int (Before));
535
            Write_Eol;
536
         end if;
537
      end Insert_List_Before_Debug;
538
 
539
   --  Start of processing for Insert_List_Before
540
 
541
   begin
542
      pragma Assert (Is_List_Member (Before));
543
 
544
      if Is_Empty_List (List) then
545
         return;
546
 
547
      else
548
         declare
549
            After : constant Node_Id := Prev (Before);
550
            LC    : constant List_Id := List_Containing (Before);
551
            F     : constant Node_Id := First (List);
552
            L     : constant Node_Id := Last (List);
553
            N     : Node_Id;
554
 
555
         begin
556
            pragma Debug (Insert_List_Before_Debug);
557
 
558
            N := F;
559
            loop
560
               Set_List_Link (N, LC);
561
               exit when N = L;
562
               N := Next (N);
563
            end loop;
564
 
565
            if Present (After) then
566
               Set_Next (After, F);
567
            else
568
               Set_First (LC, F);
569
            end if;
570
 
571
            Set_Prev (Before, L);
572
            Set_Prev (F, After);
573
            Set_Next (L, Before);
574
 
575
            Set_First (List, Empty);
576
            Set_Last  (List, Empty);
577
         end;
578
      end if;
579
   end Insert_List_Before;
580
 
581
   -------------------
582
   -- Is_Empty_List --
583
   -------------------
584
 
585
   function Is_Empty_List (List : List_Id) return Boolean is
586
   begin
587
      return First (List) = Empty;
588
   end Is_Empty_List;
589
 
590
   --------------------
591
   -- Is_List_Member --
592
   --------------------
593
 
594
   function Is_List_Member (Node : Node_Id) return Boolean is
595
   begin
596
      return Nodes.Table (Node).In_List;
597
   end Is_List_Member;
598
 
599
   -----------------------
600
   -- Is_Non_Empty_List --
601
   -----------------------
602
 
603
   function Is_Non_Empty_List (List : List_Id) return Boolean is
604
   begin
605
      return First (List) /= Empty;
606
   end Is_Non_Empty_List;
607
 
608
   ----------
609
   -- Last --
610
   ----------
611
 
612
   function Last (List : List_Id) return Node_Id is
613
   begin
614
      pragma Assert (List <= Lists.Last);
615
      return Lists.Table (List).Last;
616
   end Last;
617
 
618
   ------------------
619
   -- Last_List_Id --
620
   ------------------
621
 
622
   function Last_List_Id return List_Id is
623
   begin
624
      return Lists.Last;
625
   end Last_List_Id;
626
 
627
   ---------------------
628
   -- Last_Non_Pragma --
629
   ---------------------
630
 
631
   function Last_Non_Pragma (List : List_Id) return Node_Id is
632
      N : constant Node_Id := Last (List);
633
   begin
634
      if Nkind (N) /= N_Pragma then
635
         return N;
636
      else
637
         return Prev_Non_Pragma (N);
638
      end if;
639
   end Last_Non_Pragma;
640
 
641
   ---------------------
642
   -- List_Containing --
643
   ---------------------
644
 
645
   function List_Containing (Node : Node_Id) return List_Id is
646
   begin
647
      pragma Assert (Is_List_Member (Node));
648
      return List_Id (Nodes.Table (Node).Link);
649
   end List_Containing;
650
 
651
   -----------------
652
   -- List_Length --
653
   -----------------
654
 
655
   function List_Length (List : List_Id) return Nat is
656
      Result : Nat;
657
      Node   : Node_Id;
658
 
659
   begin
660
      Result := 0;
661
      Node := First (List);
662
      while Present (Node) loop
663
         Result := Result + 1;
664
         Node := Next (Node);
665
      end loop;
666
 
667
      return Result;
668
   end List_Length;
669
 
670
   -------------------
671
   -- Lists_Address --
672
   -------------------
673
 
674
   function Lists_Address return System.Address is
675
   begin
676
      return Lists.Table (First_List_Id)'Address;
677
   end Lists_Address;
678
 
679
   ----------
680
   -- Lock --
681
   ----------
682
 
683
   procedure Lock is
684
   begin
685
      Lists.Locked := True;
686
      Lists.Release;
687
 
688
      Prev_Node.Locked := True;
689
      Next_Node.Locked := True;
690
 
691
      Prev_Node.Release;
692
      Next_Node.Release;
693
   end Lock;
694
 
695
   -------------------
696
   -- New_Copy_List --
697
   -------------------
698
 
699
   function New_Copy_List (List : List_Id) return List_Id is
700
      NL : List_Id;
701
      E  : Node_Id;
702
 
703
   begin
704
      if List = No_List then
705
         return No_List;
706
 
707
      else
708
         NL := New_List;
709
         E := First (List);
710
 
711
         while Present (E) loop
712
            Append (New_Copy (E), NL);
713
            E := Next (E);
714
         end loop;
715
 
716
         return NL;
717
      end if;
718
   end New_Copy_List;
719
 
720
   ----------------------------
721
   -- New_Copy_List_Original --
722
   ----------------------------
723
 
724
   function New_Copy_List_Original (List : List_Id) return List_Id is
725
      NL : List_Id;
726
      E  : Node_Id;
727
 
728
   begin
729
      if List = No_List then
730
         return No_List;
731
 
732
      else
733
         NL := New_List;
734
         E := First (List);
735
 
736
         while Present (E) loop
737
            if Comes_From_Source (E) then
738
               Append (New_Copy (E), NL);
739
            end if;
740
 
741
            E := Next (E);
742
         end loop;
743
 
744
         return NL;
745
      end if;
746
   end New_Copy_List_Original;
747
 
748
   --------------
749
   -- New_List --
750
   --------------
751
 
752
   function New_List return List_Id is
753
 
754
      procedure New_List_Debug;
755
      pragma Inline (New_List_Debug);
756
      --  Output debugging information if Debug_Flag_N is set
757
 
758
      --------------------
759
      -- New_List_Debug --
760
      --------------------
761
 
762
      procedure New_List_Debug is
763
      begin
764
         if Debug_Flag_N then
765
            Write_Str ("Allocate new list, returned ID = ");
766
            Write_Int (Int (Lists.Last));
767
            Write_Eol;
768
         end if;
769
      end New_List_Debug;
770
 
771
   --  Start of processing for New_List
772
 
773
   begin
774
      Lists.Increment_Last;
775
 
776
      declare
777
         List : constant List_Id := Lists.Last;
778
 
779
      begin
780
         Set_Parent (List, Empty);
781
         Set_First  (List, Empty);
782
         Set_Last   (List, Empty);
783
 
784
         pragma Debug (New_List_Debug);
785
         return (List);
786
      end;
787
   end New_List;
788
 
789
   --  Since the one argument case is common, we optimize to build the right
790
   --  list directly, rather than first building an empty list and then doing
791
   --  the insertion, which results in some unnecessary work.
792
 
793
   function New_List (Node : Node_Id) return List_Id is
794
 
795
      procedure New_List_Debug;
796
      pragma Inline (New_List_Debug);
797
      --  Output debugging information if Debug_Flag_N is set
798
 
799
      --------------------
800
      -- New_List_Debug --
801
      --------------------
802
 
803
      procedure New_List_Debug is
804
      begin
805
         if Debug_Flag_N then
806
            Write_Str ("Allocate new list, returned ID = ");
807
            Write_Int (Int (Lists.Last));
808
            Write_Eol;
809
         end if;
810
      end New_List_Debug;
811
 
812
   --  Start of processing for New_List
813
 
814
   begin
815
      if Node = Error then
816
         return New_List;
817
 
818
      else
819
         pragma Assert (not Is_List_Member (Node));
820
 
821
         Lists.Increment_Last;
822
 
823
         declare
824
            List : constant List_Id := Lists.Last;
825
 
826
         begin
827
            Set_Parent (List, Empty);
828
            Set_First  (List, Node);
829
            Set_Last   (List, Node);
830
 
831
            Nodes.Table (Node).In_List := True;
832
            Set_List_Link (Node, List);
833
            Set_Prev (Node, Empty);
834
            Set_Next (Node, Empty);
835
            pragma Debug (New_List_Debug);
836
            return List;
837
         end;
838
      end if;
839
   end New_List;
840
 
841
   function New_List (Node1, Node2 : Node_Id) return List_Id is
842
      L : constant List_Id := New_List (Node1);
843
   begin
844
      Append (Node2, L);
845
      return L;
846
   end New_List;
847
 
848
   function New_List (Node1, Node2, Node3 : Node_Id) return List_Id is
849
      L : constant List_Id := New_List (Node1);
850
   begin
851
      Append (Node2, L);
852
      Append (Node3, L);
853
      return L;
854
   end New_List;
855
 
856
   function New_List (Node1, Node2, Node3, Node4 : Node_Id) return List_Id is
857
      L : constant List_Id := New_List (Node1);
858
   begin
859
      Append (Node2, L);
860
      Append (Node3, L);
861
      Append (Node4, L);
862
      return L;
863
   end New_List;
864
 
865
   function New_List
866
     (Node1 : Node_Id;
867
      Node2 : Node_Id;
868
      Node3 : Node_Id;
869
      Node4 : Node_Id;
870
      Node5 : Node_Id) return List_Id
871
   is
872
      L : constant List_Id := New_List (Node1);
873
   begin
874
      Append (Node2, L);
875
      Append (Node3, L);
876
      Append (Node4, L);
877
      Append (Node5, L);
878
      return L;
879
   end New_List;
880
 
881
   function New_List
882
     (Node1 : Node_Id;
883
      Node2 : Node_Id;
884
      Node3 : Node_Id;
885
      Node4 : Node_Id;
886
      Node5 : Node_Id;
887
      Node6 : Node_Id) return List_Id
888
   is
889
      L : constant List_Id := New_List (Node1);
890
   begin
891
      Append (Node2, L);
892
      Append (Node3, L);
893
      Append (Node4, L);
894
      Append (Node5, L);
895
      Append (Node6, L);
896
      return L;
897
   end New_List;
898
 
899
   ----------
900
   -- Next --
901
   ----------
902
 
903
   function Next (Node : Node_Id) return Node_Id is
904
   begin
905
      pragma Assert (Is_List_Member (Node));
906
      return Next_Node.Table (Node);
907
   end Next;
908
 
909
   procedure Next (Node : in out Node_Id) is
910
   begin
911
      Node := Next (Node);
912
   end Next;
913
 
914
   -----------------------
915
   -- Next_Node_Address --
916
   -----------------------
917
 
918
   function Next_Node_Address return System.Address is
919
   begin
920
      return Next_Node.Table (First_Node_Id)'Address;
921
   end Next_Node_Address;
922
 
923
   ---------------------
924
   -- Next_Non_Pragma --
925
   ---------------------
926
 
927
   function Next_Non_Pragma (Node : Node_Id) return Node_Id is
928
      N : Node_Id;
929
 
930
   begin
931
      N := Node;
932
      loop
933
         N := Next (N);
934
         exit when Nkind (N) /= N_Pragma
935
                     and then
936
                   Nkind (N) /= N_Null_Statement;
937
      end loop;
938
 
939
      return N;
940
   end Next_Non_Pragma;
941
 
942
   procedure Next_Non_Pragma (Node : in out Node_Id) is
943
   begin
944
      Node := Next_Non_Pragma (Node);
945
   end Next_Non_Pragma;
946
 
947
   --------
948
   -- No --
949
   --------
950
 
951
   function No (List : List_Id) return Boolean is
952
   begin
953
      return List = No_List;
954
   end No;
955
 
956
   ---------------
957
   -- Num_Lists --
958
   ---------------
959
 
960
   function Num_Lists return Nat is
961
   begin
962
      return Int (Lists.Last) - Int (Lists.First) + 1;
963
   end Num_Lists;
964
 
965
   -------
966
   -- p --
967
   -------
968
 
969
   function p (U : Union_Id) return Node_Id is
970
   begin
971
      if U in Node_Range then
972
         return Parent (Node_Id (U));
973
      elsif U in List_Range then
974
         return Parent (List_Id (U));
975
      else
976
         return 99_999_999;
977
      end if;
978
   end p;
979
 
980
   ------------
981
   -- Parent --
982
   ------------
983
 
984
   function Parent (List : List_Id) return Node_Id is
985
   begin
986
      pragma Assert (List <= Lists.Last);
987
      return Lists.Table (List).Parent;
988
   end Parent;
989
 
990
   ----------
991
   -- Pick --
992
   ----------
993
 
994
   function Pick (List : List_Id; Index : Pos) return Node_Id is
995
      Elmt : Node_Id;
996
 
997
   begin
998
      Elmt := First (List);
999
      for J in 1 .. Index - 1 loop
1000
         Elmt := Next (Elmt);
1001
      end loop;
1002
 
1003
      return Elmt;
1004
   end Pick;
1005
 
1006
   -------------
1007
   -- Prepend --
1008
   -------------
1009
 
1010
   procedure Prepend (Node : Node_Id; To : List_Id) is
1011
      F : constant Node_Id := First (To);
1012
 
1013
      procedure Prepend_Debug;
1014
      pragma Inline (Prepend_Debug);
1015
      --  Output debug information if Debug_Flag_N set
1016
 
1017
      -------------------
1018
      -- Prepend_Debug --
1019
      -------------------
1020
 
1021
      procedure Prepend_Debug is
1022
      begin
1023
         if Debug_Flag_N then
1024
            Write_Str ("Prepend node ");
1025
            Write_Int (Int (Node));
1026
            Write_Str (" to list ");
1027
            Write_Int (Int (To));
1028
            Write_Eol;
1029
         end if;
1030
      end Prepend_Debug;
1031
 
1032
   --  Start of processing for Prepend_Debug
1033
 
1034
   begin
1035
      pragma Assert (not Is_List_Member (Node));
1036
 
1037
      if Node = Error then
1038
         return;
1039
      end if;
1040
 
1041
      pragma Debug (Prepend_Debug);
1042
 
1043
      if No (F) then
1044
         Set_Last (To, Node);
1045
      else
1046
         Set_Prev (F, Node);
1047
      end if;
1048
 
1049
      Set_First (To, Node);
1050
 
1051
      Nodes.Table (Node).In_List := True;
1052
 
1053
      Set_Next      (Node, F);
1054
      Set_Prev      (Node, Empty);
1055
      Set_List_Link (Node, To);
1056
   end Prepend;
1057
 
1058
   ----------------
1059
   -- Prepend_To --
1060
   ----------------
1061
 
1062
   procedure Prepend_To (To : List_Id; Node : Node_Id) is
1063
   begin
1064
      Prepend (Node, To);
1065
   end Prepend_To;
1066
 
1067
   -------------
1068
   -- Present --
1069
   -------------
1070
 
1071
   function Present (List : List_Id) return Boolean is
1072
   begin
1073
      return List /= No_List;
1074
   end Present;
1075
 
1076
   ----------
1077
   -- Prev --
1078
   ----------
1079
 
1080
   function Prev (Node : Node_Id) return Node_Id is
1081
   begin
1082
      pragma Assert (Is_List_Member (Node));
1083
      return Prev_Node.Table (Node);
1084
   end Prev;
1085
 
1086
   procedure Prev (Node : in out Node_Id) is
1087
   begin
1088
      Node := Prev (Node);
1089
   end Prev;
1090
 
1091
   -----------------------
1092
   -- Prev_Node_Address --
1093
   -----------------------
1094
 
1095
   function Prev_Node_Address return System.Address is
1096
   begin
1097
      return Prev_Node.Table (First_Node_Id)'Address;
1098
   end Prev_Node_Address;
1099
 
1100
   ---------------------
1101
   -- Prev_Non_Pragma --
1102
   ---------------------
1103
 
1104
   function Prev_Non_Pragma (Node : Node_Id) return Node_Id is
1105
      N : Node_Id;
1106
 
1107
   begin
1108
      N := Node;
1109
      loop
1110
         N := Prev (N);
1111
         exit when Nkind (N) /= N_Pragma;
1112
      end loop;
1113
 
1114
      return N;
1115
   end Prev_Non_Pragma;
1116
 
1117
   procedure Prev_Non_Pragma (Node : in out Node_Id) is
1118
   begin
1119
      Node := Prev_Non_Pragma (Node);
1120
   end Prev_Non_Pragma;
1121
 
1122
   ------------
1123
   -- Remove --
1124
   ------------
1125
 
1126
   procedure Remove (Node : Node_Id) is
1127
      Lst : constant List_Id := List_Containing (Node);
1128
      Prv : constant Node_Id := Prev (Node);
1129
      Nxt : constant Node_Id := Next (Node);
1130
 
1131
      procedure Remove_Debug;
1132
      pragma Inline (Remove_Debug);
1133
      --  Output debug information if Debug_Flag_N set
1134
 
1135
      ------------------
1136
      -- Remove_Debug --
1137
      ------------------
1138
 
1139
      procedure Remove_Debug is
1140
      begin
1141
         if Debug_Flag_N then
1142
            Write_Str ("Remove node ");
1143
            Write_Int (Int (Node));
1144
            Write_Eol;
1145
         end if;
1146
      end Remove_Debug;
1147
 
1148
   --  Start of processing for Remove
1149
 
1150
   begin
1151
      pragma Debug (Remove_Debug);
1152
 
1153
      if No (Prv) then
1154
         Set_First (Lst, Nxt);
1155
      else
1156
         Set_Next (Prv, Nxt);
1157
      end if;
1158
 
1159
      if No (Nxt) then
1160
         Set_Last (Lst, Prv);
1161
      else
1162
         Set_Prev (Nxt, Prv);
1163
      end if;
1164
 
1165
      Nodes.Table (Node).In_List := False;
1166
      Set_Parent (Node, Empty);
1167
   end Remove;
1168
 
1169
   -----------------
1170
   -- Remove_Head --
1171
   -----------------
1172
 
1173
   function Remove_Head (List : List_Id) return Node_Id is
1174
      Frst : constant Node_Id := First (List);
1175
 
1176
      procedure Remove_Head_Debug;
1177
      pragma Inline (Remove_Head_Debug);
1178
      --  Output debug information if Debug_Flag_N set
1179
 
1180
      -----------------------
1181
      -- Remove_Head_Debug --
1182
      -----------------------
1183
 
1184
      procedure Remove_Head_Debug is
1185
      begin
1186
         if Debug_Flag_N then
1187
            Write_Str ("Remove head of list ");
1188
            Write_Int (Int (List));
1189
            Write_Eol;
1190
         end if;
1191
      end Remove_Head_Debug;
1192
 
1193
   --  Start of processing for Remove_Head
1194
 
1195
   begin
1196
      pragma Debug (Remove_Head_Debug);
1197
 
1198
      if Frst = Empty then
1199
         return Empty;
1200
 
1201
      else
1202
         declare
1203
            Nxt : constant Node_Id := Next (Frst);
1204
 
1205
         begin
1206
            Set_First (List, Nxt);
1207
 
1208
            if No (Nxt) then
1209
               Set_Last (List, Empty);
1210
            else
1211
               Set_Prev (Nxt, Empty);
1212
            end if;
1213
 
1214
            Nodes.Table (Frst).In_List := False;
1215
            Set_Parent (Frst, Empty);
1216
            return Frst;
1217
         end;
1218
      end if;
1219
   end Remove_Head;
1220
 
1221
   -----------------
1222
   -- Remove_Next --
1223
   -----------------
1224
 
1225
   function Remove_Next (Node : Node_Id) return Node_Id is
1226
      Nxt : constant Node_Id := Next (Node);
1227
 
1228
      procedure Remove_Next_Debug;
1229
      pragma Inline (Remove_Next_Debug);
1230
      --  Output debug information if Debug_Flag_N set
1231
 
1232
      -----------------------
1233
      -- Remove_Next_Debug --
1234
      -----------------------
1235
 
1236
      procedure Remove_Next_Debug is
1237
      begin
1238
         if Debug_Flag_N then
1239
            Write_Str ("Remove next node after ");
1240
            Write_Int (Int (Node));
1241
            Write_Eol;
1242
         end if;
1243
      end Remove_Next_Debug;
1244
 
1245
   --  Start of processing for Remove_Next
1246
 
1247
   begin
1248
      if Present (Nxt) then
1249
         declare
1250
            Nxt2 : constant Node_Id := Next (Nxt);
1251
            LC   : constant List_Id := List_Containing (Node);
1252
 
1253
         begin
1254
            pragma Debug (Remove_Next_Debug);
1255
            Set_Next (Node, Nxt2);
1256
 
1257
            if No (Nxt2) then
1258
               Set_Last (LC, Node);
1259
            else
1260
               Set_Prev (Nxt2, Node);
1261
            end if;
1262
 
1263
            Nodes.Table (Nxt).In_List := False;
1264
            Set_Parent (Nxt, Empty);
1265
         end;
1266
      end if;
1267
 
1268
      return Nxt;
1269
   end Remove_Next;
1270
 
1271
   ---------------
1272
   -- Set_First --
1273
   ---------------
1274
 
1275
   procedure Set_First (List : List_Id; To : Node_Id) is
1276
   begin
1277
      Lists.Table (List).First := To;
1278
   end Set_First;
1279
 
1280
   --------------
1281
   -- Set_Last --
1282
   --------------
1283
 
1284
   procedure Set_Last (List : List_Id; To : Node_Id) is
1285
   begin
1286
      Lists.Table (List).Last := To;
1287
   end Set_Last;
1288
 
1289
   -------------------
1290
   -- Set_List_Link --
1291
   -------------------
1292
 
1293
   procedure Set_List_Link (Node : Node_Id; To : List_Id) is
1294
   begin
1295
      Nodes.Table (Node).Link := Union_Id (To);
1296
   end Set_List_Link;
1297
 
1298
   --------------
1299
   -- Set_Next --
1300
   --------------
1301
 
1302
   procedure Set_Next (Node : Node_Id; To : Node_Id) is
1303
   begin
1304
      Next_Node.Table (Node) := To;
1305
   end Set_Next;
1306
 
1307
   ----------------
1308
   -- Set_Parent --
1309
   ----------------
1310
 
1311
   procedure Set_Parent (List : List_Id; Node : Node_Id) is
1312
   begin
1313
      pragma Assert (List <= Lists.Last);
1314
      Lists.Table (List).Parent := Node;
1315
   end Set_Parent;
1316
 
1317
   --------------
1318
   -- Set_Prev --
1319
   --------------
1320
 
1321
   procedure Set_Prev (Node : Node_Id; To : Node_Id) is
1322
   begin
1323
      Prev_Node.Table (Node) := To;
1324
   end Set_Prev;
1325
 
1326
   ---------------
1327
   -- Tree_Read --
1328
   ---------------
1329
 
1330
   procedure Tree_Read is
1331
   begin
1332
      Lists.Tree_Read;
1333
      Next_Node.Tree_Read;
1334
      Prev_Node.Tree_Read;
1335
   end Tree_Read;
1336
 
1337
   ----------------
1338
   -- Tree_Write --
1339
   ----------------
1340
 
1341
   procedure Tree_Write is
1342
   begin
1343
      Lists.Tree_Write;
1344
      Next_Node.Tree_Write;
1345
      Prev_Node.Tree_Write;
1346
   end Tree_Write;
1347
 
1348
   ------------
1349
   -- Unlock --
1350
   ------------
1351
 
1352
   procedure Unlock is
1353
   begin
1354
      Lists.Locked := False;
1355
      Prev_Node.Locked := False;
1356
      Next_Node.Locked := False;
1357
   end Unlock;
1358
 
1359
end Nlists;

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