Improve max_insns_skipped logic
[official-gcc.git] / gcc / ada / nlists.adb
blob0f111d84d2bee641447b3b78cd9fa8debfe51c75
1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT COMPILER COMPONENTS --
4 -- --
5 -- N L I S T S --
6 -- --
7 -- B o d y --
8 -- --
9 -- Copyright (C) 1992-2017, 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 ------------------------------------------------------------------------------
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
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;
42 package body Nlists is
43 Locked : Boolean := False;
44 -- Compiling with assertions enabled, list contents modifications are
45 -- permitted only when this switch is set to False; compiling without
46 -- assertions this lock has no effect.
48 use Atree_Private_Part;
49 -- Get access to Nodes table
51 ----------------------------------
52 -- Implementation of Node Lists --
53 ----------------------------------
55 -- A node list is represented by a list header which contains
56 -- three fields:
58 type List_Header is record
59 First : Node_Or_Entity_Id;
60 -- Pointer to first node in list. Empty if list is empty
62 Last : Node_Or_Entity_Id;
63 -- Pointer to last node in list. Empty if list is empty
65 Parent : Node_Id;
66 -- Pointer to parent of list. Empty if list has no parent
67 end record;
69 -- The node lists are stored in a table indexed by List_Id values
71 package Lists is new Table.Table (
72 Table_Component_Type => List_Header,
73 Table_Index_Type => List_Id'Base,
74 Table_Low_Bound => First_List_Id,
75 Table_Initial => Alloc.Lists_Initial,
76 Table_Increment => Alloc.Lists_Increment,
77 Table_Name => "Lists");
79 -- The nodes in the list all have the In_List flag set, and their Link
80 -- fields (which otherwise point to the parent) contain the List_Id of
81 -- the list header giving immediate access to the list containing the
82 -- node, and its parent and first and last elements.
84 -- Two auxiliary tables, indexed by Node_Id values and built in parallel
85 -- with the main nodes table and always having the same size contain the
86 -- list link values that allow locating the previous and next node in a
87 -- list. The entries in these tables are valid only if the In_List flag
88 -- is set in the corresponding node. Next_Node is Empty at the end of a
89 -- list and Prev_Node is Empty at the start of a list.
91 package Next_Node is new Table.Table (
92 Table_Component_Type => Node_Or_Entity_Id,
93 Table_Index_Type => Node_Or_Entity_Id'Base,
94 Table_Low_Bound => First_Node_Id,
95 Table_Initial => Alloc.Nodes_Initial,
96 Table_Increment => Alloc.Nodes_Increment,
97 Release_Threshold => Alloc.Nodes_Release_Threshold,
98 Table_Name => "Next_Node");
100 package Prev_Node is new Table.Table (
101 Table_Component_Type => Node_Or_Entity_Id,
102 Table_Index_Type => Node_Or_Entity_Id'Base,
103 Table_Low_Bound => First_Node_Id,
104 Table_Initial => Alloc.Nodes_Initial,
105 Table_Increment => Alloc.Nodes_Increment,
106 Table_Name => "Prev_Node");
108 -----------------------
109 -- Local Subprograms --
110 -----------------------
112 procedure Set_First (List : List_Id; To : Node_Or_Entity_Id);
113 pragma Inline (Set_First);
114 -- Sets First field of list header List to reference To
116 procedure Set_Last (List : List_Id; To : Node_Or_Entity_Id);
117 pragma Inline (Set_Last);
118 -- Sets Last field of list header List to reference To
120 procedure Set_List_Link (Node : Node_Or_Entity_Id; To : List_Id);
121 pragma Inline (Set_List_Link);
122 -- Sets list link of Node to list header To
124 procedure Set_Next (Node : Node_Or_Entity_Id; To : Node_Or_Entity_Id);
125 pragma Inline (Set_Next);
126 -- Sets the Next_Node pointer for Node to reference To
128 procedure Set_Prev (Node : Node_Or_Entity_Id; To : Node_Or_Entity_Id);
129 pragma Inline (Set_Prev);
130 -- Sets the Prev_Node pointer for Node to reference To
132 --------------------------
133 -- Allocate_List_Tables --
134 --------------------------
136 procedure Allocate_List_Tables (N : Node_Or_Entity_Id) is
137 Old_Last : constant Node_Or_Entity_Id'Base := Next_Node.Last;
139 begin
140 pragma Assert (N >= Old_Last);
141 Next_Node.Set_Last (N);
142 Prev_Node.Set_Last (N);
144 -- Make sure we have no uninitialized junk in any new entires added.
145 -- This ensures that Tree_Gen will not write out any uninitialized junk.
147 for J in Old_Last + 1 .. N loop
148 Next_Node.Table (J) := Empty;
149 Prev_Node.Table (J) := Empty;
150 end loop;
151 end Allocate_List_Tables;
153 ------------
154 -- Append --
155 ------------
157 procedure Append (Node : Node_Or_Entity_Id; To : List_Id) is
158 L : constant Node_Or_Entity_Id := Last (To);
160 procedure Append_Debug;
161 pragma Inline (Append_Debug);
162 -- Output debug information if Debug_Flag_N set
164 ------------------
165 -- Append_Debug --
166 ------------------
168 procedure Append_Debug is
169 begin
170 if Debug_Flag_N then
171 Write_Str ("Append node ");
172 Write_Int (Int (Node));
173 Write_Str (" to list ");
174 Write_Int (Int (To));
175 Write_Eol;
176 end if;
177 end Append_Debug;
179 -- Start of processing for Append
181 begin
182 pragma Assert (not Is_List_Member (Node));
184 if Node = Error then
185 return;
186 end if;
188 pragma Debug (Append_Debug);
190 if No (L) then
191 Set_First (To, Node);
192 else
193 Set_Next (L, Node);
194 end if;
196 Set_Last (To, Node);
198 Nodes.Table (Node).In_List := True;
200 Set_Next (Node, Empty);
201 Set_Prev (Node, L);
202 Set_List_Link (Node, To);
203 end Append;
205 -----------------
206 -- Append_List --
207 -----------------
209 procedure Append_List (List : List_Id; To : List_Id) is
210 procedure Append_List_Debug;
211 pragma Inline (Append_List_Debug);
212 -- Output debug information if Debug_Flag_N set
214 -----------------------
215 -- Append_List_Debug --
216 -----------------------
218 procedure Append_List_Debug is
219 begin
220 if Debug_Flag_N then
221 Write_Str ("Append list ");
222 Write_Int (Int (List));
223 Write_Str (" to list ");
224 Write_Int (Int (To));
225 Write_Eol;
226 end if;
227 end Append_List_Debug;
229 -- Start of processing for Append_List
231 begin
232 if Is_Empty_List (List) then
233 return;
235 else
236 declare
237 L : constant Node_Or_Entity_Id := Last (To);
238 F : constant Node_Or_Entity_Id := First (List);
239 N : Node_Or_Entity_Id;
241 begin
242 pragma Debug (Append_List_Debug);
244 N := F;
245 loop
246 Set_List_Link (N, To);
247 N := Next (N);
248 exit when No (N);
249 end loop;
251 if No (L) then
252 Set_First (To, F);
253 else
254 Set_Next (L, F);
255 end if;
257 Set_Prev (F, L);
258 Set_Last (To, Last (List));
260 Set_First (List, Empty);
261 Set_Last (List, Empty);
262 end;
263 end if;
264 end Append_List;
266 --------------------
267 -- Append_List_To --
268 --------------------
270 procedure Append_List_To (To : List_Id; List : List_Id) is
271 begin
272 Append_List (List, To);
273 end Append_List_To;
275 ----------------
276 -- Append_New --
277 ----------------
279 procedure Append_New (Node : Node_Or_Entity_Id; To : in out List_Id) is
280 begin
281 if No (To) then
282 To := New_List;
283 end if;
285 Append (Node, To);
286 end Append_New;
288 -------------------
289 -- Append_New_To --
290 -------------------
292 procedure Append_New_To (To : in out List_Id; Node : Node_Or_Entity_Id) is
293 begin
294 Append_New (Node, To);
295 end Append_New_To;
297 ---------------
298 -- Append_To --
299 ---------------
301 procedure Append_To (To : List_Id; Node : Node_Or_Entity_Id) is
302 begin
303 Append (Node, To);
304 end Append_To;
306 -----------
307 -- First --
308 -----------
310 function First (List : List_Id) return Node_Or_Entity_Id is
311 begin
312 if List = No_List then
313 return Empty;
314 else
315 pragma Assert (List <= Lists.Last);
316 return Lists.Table (List).First;
317 end if;
318 end First;
320 ----------------------
321 -- First_Non_Pragma --
322 ----------------------
324 function First_Non_Pragma (List : List_Id) return Node_Or_Entity_Id is
325 N : constant Node_Or_Entity_Id := First (List);
326 begin
327 if Nkind (N) /= N_Pragma
328 and then
329 Nkind (N) /= N_Null_Statement
330 then
331 return N;
332 else
333 return Next_Non_Pragma (N);
334 end if;
335 end First_Non_Pragma;
337 ----------------
338 -- Initialize --
339 ----------------
341 procedure Initialize is
342 E : constant List_Id := Error_List;
344 begin
345 Lists.Init;
346 Next_Node.Init;
347 Prev_Node.Init;
349 -- Allocate Error_List list header
351 Lists.Increment_Last;
352 Set_Parent (E, Empty);
353 Set_First (E, Empty);
354 Set_Last (E, Empty);
355 end Initialize;
357 ------------------
358 -- In_Same_List --
359 ------------------
361 function In_Same_List (N1, N2 : Node_Or_Entity_Id) return Boolean is
362 begin
363 return List_Containing (N1) = List_Containing (N2);
364 end In_Same_List;
366 ------------------
367 -- Insert_After --
368 ------------------
370 procedure Insert_After
371 (After : Node_Or_Entity_Id;
372 Node : Node_Or_Entity_Id)
374 procedure Insert_After_Debug;
375 pragma Inline (Insert_After_Debug);
376 -- Output debug information if Debug_Flag_N set
378 ------------------------
379 -- Insert_After_Debug --
380 ------------------------
382 procedure Insert_After_Debug is
383 begin
384 if Debug_Flag_N then
385 Write_Str ("Insert node");
386 Write_Int (Int (Node));
387 Write_Str (" after node ");
388 Write_Int (Int (After));
389 Write_Eol;
390 end if;
391 end Insert_After_Debug;
393 -- Start of processing for Insert_After
395 begin
396 pragma Assert
397 (Is_List_Member (After) and then not Is_List_Member (Node));
399 if Node = Error then
400 return;
401 end if;
403 pragma Debug (Insert_After_Debug);
405 declare
406 Before : constant Node_Or_Entity_Id := Next (After);
407 LC : constant List_Id := List_Containing (After);
409 begin
410 if Present (Before) then
411 Set_Prev (Before, Node);
412 else
413 Set_Last (LC, Node);
414 end if;
416 Set_Next (After, Node);
418 Nodes.Table (Node).In_List := True;
420 Set_Prev (Node, After);
421 Set_Next (Node, Before);
422 Set_List_Link (Node, LC);
423 end;
424 end Insert_After;
426 -------------------
427 -- Insert_Before --
428 -------------------
430 procedure Insert_Before
431 (Before : Node_Or_Entity_Id;
432 Node : Node_Or_Entity_Id)
434 procedure Insert_Before_Debug;
435 pragma Inline (Insert_Before_Debug);
436 -- Output debug information if Debug_Flag_N set
438 -------------------------
439 -- Insert_Before_Debug --
440 -------------------------
442 procedure Insert_Before_Debug is
443 begin
444 if Debug_Flag_N then
445 Write_Str ("Insert node");
446 Write_Int (Int (Node));
447 Write_Str (" before node ");
448 Write_Int (Int (Before));
449 Write_Eol;
450 end if;
451 end Insert_Before_Debug;
453 -- Start of processing for Insert_Before
455 begin
456 pragma Assert
457 (Is_List_Member (Before) and then not Is_List_Member (Node));
459 if Node = Error then
460 return;
461 end if;
463 pragma Debug (Insert_Before_Debug);
465 declare
466 After : constant Node_Or_Entity_Id := Prev (Before);
467 LC : constant List_Id := List_Containing (Before);
469 begin
470 if Present (After) then
471 Set_Next (After, Node);
472 else
473 Set_First (LC, Node);
474 end if;
476 Set_Prev (Before, Node);
478 Nodes.Table (Node).In_List := True;
480 Set_Prev (Node, After);
481 Set_Next (Node, Before);
482 Set_List_Link (Node, LC);
483 end;
484 end Insert_Before;
486 -----------------------
487 -- Insert_List_After --
488 -----------------------
490 procedure Insert_List_After (After : Node_Or_Entity_Id; List : List_Id) is
492 procedure Insert_List_After_Debug;
493 pragma Inline (Insert_List_After_Debug);
494 -- Output debug information if Debug_Flag_N set
496 -----------------------------
497 -- Insert_List_After_Debug --
498 -----------------------------
500 procedure Insert_List_After_Debug is
501 begin
502 if Debug_Flag_N then
503 Write_Str ("Insert list ");
504 Write_Int (Int (List));
505 Write_Str (" after node ");
506 Write_Int (Int (After));
507 Write_Eol;
508 end if;
509 end Insert_List_After_Debug;
511 -- Start of processing for Insert_List_After
513 begin
514 pragma Assert (Is_List_Member (After));
516 if Is_Empty_List (List) then
517 return;
519 else
520 declare
521 Before : constant Node_Or_Entity_Id := Next (After);
522 LC : constant List_Id := List_Containing (After);
523 F : constant Node_Or_Entity_Id := First (List);
524 L : constant Node_Or_Entity_Id := Last (List);
525 N : Node_Or_Entity_Id;
527 begin
528 pragma Debug (Insert_List_After_Debug);
530 N := F;
531 loop
532 Set_List_Link (N, LC);
533 exit when N = L;
534 N := Next (N);
535 end loop;
537 if Present (Before) then
538 Set_Prev (Before, L);
539 else
540 Set_Last (LC, L);
541 end if;
543 Set_Next (After, F);
544 Set_Prev (F, After);
545 Set_Next (L, Before);
547 Set_First (List, Empty);
548 Set_Last (List, Empty);
549 end;
550 end if;
551 end Insert_List_After;
553 ------------------------
554 -- Insert_List_Before --
555 ------------------------
557 procedure Insert_List_Before (Before : Node_Or_Entity_Id; List : List_Id) is
559 procedure Insert_List_Before_Debug;
560 pragma Inline (Insert_List_Before_Debug);
561 -- Output debug information if Debug_Flag_N set
563 ------------------------------
564 -- Insert_List_Before_Debug --
565 ------------------------------
567 procedure Insert_List_Before_Debug is
568 begin
569 if Debug_Flag_N then
570 Write_Str ("Insert list ");
571 Write_Int (Int (List));
572 Write_Str (" before node ");
573 Write_Int (Int (Before));
574 Write_Eol;
575 end if;
576 end Insert_List_Before_Debug;
578 -- Start of processing for Insert_List_Before
580 begin
581 pragma Assert (Is_List_Member (Before));
583 if Is_Empty_List (List) then
584 return;
586 else
587 declare
588 After : constant Node_Or_Entity_Id := Prev (Before);
589 LC : constant List_Id := List_Containing (Before);
590 F : constant Node_Or_Entity_Id := First (List);
591 L : constant Node_Or_Entity_Id := Last (List);
592 N : Node_Or_Entity_Id;
594 begin
595 pragma Debug (Insert_List_Before_Debug);
597 N := F;
598 loop
599 Set_List_Link (N, LC);
600 exit when N = L;
601 N := Next (N);
602 end loop;
604 if Present (After) then
605 Set_Next (After, F);
606 else
607 Set_First (LC, F);
608 end if;
610 Set_Prev (Before, L);
611 Set_Prev (F, After);
612 Set_Next (L, Before);
614 Set_First (List, Empty);
615 Set_Last (List, Empty);
616 end;
617 end if;
618 end Insert_List_Before;
620 -------------------
621 -- Is_Empty_List --
622 -------------------
624 function Is_Empty_List (List : List_Id) return Boolean is
625 begin
626 return First (List) = Empty;
627 end Is_Empty_List;
629 --------------------
630 -- Is_List_Member --
631 --------------------
633 function Is_List_Member (Node : Node_Or_Entity_Id) return Boolean is
634 begin
635 return Nodes.Table (Node).In_List;
636 end Is_List_Member;
638 -----------------------
639 -- Is_Non_Empty_List --
640 -----------------------
642 function Is_Non_Empty_List (List : List_Id) return Boolean is
643 begin
644 return First (List) /= Empty;
645 end Is_Non_Empty_List;
647 ----------
648 -- Last --
649 ----------
651 function Last (List : List_Id) return Node_Or_Entity_Id is
652 begin
653 pragma Assert (List <= Lists.Last);
654 return Lists.Table (List).Last;
655 end Last;
657 ------------------
658 -- Last_List_Id --
659 ------------------
661 function Last_List_Id return List_Id is
662 begin
663 return Lists.Last;
664 end Last_List_Id;
666 ---------------------
667 -- Last_Non_Pragma --
668 ---------------------
670 function Last_Non_Pragma (List : List_Id) return Node_Or_Entity_Id is
671 N : constant Node_Or_Entity_Id := Last (List);
672 begin
673 if Nkind (N) /= N_Pragma then
674 return N;
675 else
676 return Prev_Non_Pragma (N);
677 end if;
678 end Last_Non_Pragma;
680 ---------------------
681 -- List_Containing --
682 ---------------------
684 function List_Containing (Node : Node_Or_Entity_Id) return List_Id is
685 begin
686 pragma Assert (Is_List_Member (Node));
687 return List_Id (Nodes.Table (Node).Link);
688 end List_Containing;
690 -----------------
691 -- List_Length --
692 -----------------
694 function List_Length (List : List_Id) return Nat is
695 Result : Nat;
696 Node : Node_Or_Entity_Id;
698 begin
699 Result := 0;
700 Node := First (List);
701 while Present (Node) loop
702 Result := Result + 1;
703 Node := Next (Node);
704 end loop;
706 return Result;
707 end List_Length;
709 -------------------
710 -- Lists_Address --
711 -------------------
713 function Lists_Address return System.Address is
714 begin
715 return Lists.Table (First_List_Id)'Address;
716 end Lists_Address;
718 ----------
719 -- Lock --
720 ----------
722 procedure Lock is
723 begin
724 Lists.Release;
725 Lists.Locked := True;
726 Prev_Node.Release;
727 Prev_Node.Locked := True;
728 Next_Node.Release;
729 Next_Node.Locked := True;
730 end Lock;
732 ----------------
733 -- Lock_Lists --
734 ----------------
736 procedure Lock_Lists is
737 begin
738 pragma Assert (not Locked);
739 Locked := True;
740 end Lock_Lists;
742 -------------------
743 -- New_Copy_List --
744 -------------------
746 function New_Copy_List (List : List_Id) return List_Id is
747 NL : List_Id;
748 E : Node_Or_Entity_Id;
750 begin
751 if List = No_List then
752 return No_List;
754 else
755 NL := New_List;
756 E := First (List);
758 while Present (E) loop
759 Append (New_Copy (E), NL);
760 E := Next (E);
761 end loop;
763 return NL;
764 end if;
765 end New_Copy_List;
767 ----------------------------
768 -- New_Copy_List_Original --
769 ----------------------------
771 function New_Copy_List_Original (List : List_Id) return List_Id is
772 NL : List_Id;
773 E : Node_Or_Entity_Id;
775 begin
776 if List = No_List then
777 return No_List;
779 else
780 NL := New_List;
782 E := First (List);
783 while Present (E) loop
784 if Comes_From_Source (E) then
785 Append (New_Copy (E), NL);
786 end if;
788 E := Next (E);
789 end loop;
791 return NL;
792 end if;
793 end New_Copy_List_Original;
795 --------------
796 -- New_List --
797 --------------
799 function New_List return List_Id is
801 procedure New_List_Debug;
802 pragma Inline (New_List_Debug);
803 -- Output debugging information if Debug_Flag_N is set
805 --------------------
806 -- New_List_Debug --
807 --------------------
809 procedure New_List_Debug is
810 begin
811 if Debug_Flag_N then
812 Write_Str ("Allocate new list, returned ID = ");
813 Write_Int (Int (Lists.Last));
814 Write_Eol;
815 end if;
816 end New_List_Debug;
818 -- Start of processing for New_List
820 begin
821 Lists.Increment_Last;
823 declare
824 List : constant List_Id := Lists.Last;
826 begin
827 Set_Parent (List, Empty);
828 Set_First (List, Empty);
829 Set_Last (List, Empty);
831 pragma Debug (New_List_Debug);
832 return (List);
833 end;
834 end New_List;
836 -- Since the one argument case is common, we optimize to build the right
837 -- list directly, rather than first building an empty list and then doing
838 -- the insertion, which results in some unnecessary work.
840 function New_List (Node : Node_Or_Entity_Id) return List_Id is
842 procedure New_List_Debug;
843 pragma Inline (New_List_Debug);
844 -- Output debugging information if Debug_Flag_N is set
846 --------------------
847 -- New_List_Debug --
848 --------------------
850 procedure New_List_Debug is
851 begin
852 if Debug_Flag_N then
853 Write_Str ("Allocate new list, returned ID = ");
854 Write_Int (Int (Lists.Last));
855 Write_Eol;
856 end if;
857 end New_List_Debug;
859 -- Start of processing for New_List
861 begin
862 if Node = Error then
863 return New_List;
865 else
866 pragma Assert (not Is_List_Member (Node));
868 Lists.Increment_Last;
870 declare
871 List : constant List_Id := Lists.Last;
873 begin
874 Set_Parent (List, Empty);
875 Set_First (List, Node);
876 Set_Last (List, Node);
878 Nodes.Table (Node).In_List := True;
879 Set_List_Link (Node, List);
880 Set_Prev (Node, Empty);
881 Set_Next (Node, Empty);
882 pragma Debug (New_List_Debug);
883 return List;
884 end;
885 end if;
886 end New_List;
888 function New_List
889 (Node1 : Node_Or_Entity_Id;
890 Node2 : Node_Or_Entity_Id) return List_Id
892 L : constant List_Id := New_List (Node1);
893 begin
894 Append (Node2, L);
895 return L;
896 end New_List;
898 function New_List
899 (Node1 : Node_Or_Entity_Id;
900 Node2 : Node_Or_Entity_Id;
901 Node3 : Node_Or_Entity_Id) return List_Id
903 L : constant List_Id := New_List (Node1);
904 begin
905 Append (Node2, L);
906 Append (Node3, L);
907 return L;
908 end New_List;
910 function New_List
911 (Node1 : Node_Or_Entity_Id;
912 Node2 : Node_Or_Entity_Id;
913 Node3 : Node_Or_Entity_Id;
914 Node4 : Node_Or_Entity_Id) return List_Id
916 L : constant List_Id := New_List (Node1);
917 begin
918 Append (Node2, L);
919 Append (Node3, L);
920 Append (Node4, L);
921 return L;
922 end New_List;
924 function New_List
925 (Node1 : Node_Or_Entity_Id;
926 Node2 : Node_Or_Entity_Id;
927 Node3 : Node_Or_Entity_Id;
928 Node4 : Node_Or_Entity_Id;
929 Node5 : Node_Or_Entity_Id) return List_Id
931 L : constant List_Id := New_List (Node1);
932 begin
933 Append (Node2, L);
934 Append (Node3, L);
935 Append (Node4, L);
936 Append (Node5, L);
937 return L;
938 end New_List;
940 function New_List
941 (Node1 : Node_Or_Entity_Id;
942 Node2 : Node_Or_Entity_Id;
943 Node3 : Node_Or_Entity_Id;
944 Node4 : Node_Or_Entity_Id;
945 Node5 : Node_Or_Entity_Id;
946 Node6 : Node_Or_Entity_Id) return List_Id
948 L : constant List_Id := New_List (Node1);
949 begin
950 Append (Node2, L);
951 Append (Node3, L);
952 Append (Node4, L);
953 Append (Node5, L);
954 Append (Node6, L);
955 return L;
956 end New_List;
958 ----------
959 -- Next --
960 ----------
962 function Next (Node : Node_Or_Entity_Id) return Node_Or_Entity_Id is
963 begin
964 pragma Assert (Is_List_Member (Node));
965 return Next_Node.Table (Node);
966 end Next;
968 procedure Next (Node : in out Node_Or_Entity_Id) is
969 begin
970 Node := Next (Node);
971 end Next;
973 -----------------------
974 -- Next_Node_Address --
975 -----------------------
977 function Next_Node_Address return System.Address is
978 begin
979 return Next_Node.Table (First_Node_Id)'Address;
980 end Next_Node_Address;
982 ---------------------
983 -- Next_Non_Pragma --
984 ---------------------
986 function Next_Non_Pragma
987 (Node : Node_Or_Entity_Id) return Node_Or_Entity_Id
989 N : Node_Or_Entity_Id;
991 begin
992 N := Node;
993 loop
994 N := Next (N);
995 exit when not Nkind_In (N, N_Pragma, N_Null_Statement);
996 end loop;
998 return N;
999 end Next_Non_Pragma;
1001 procedure Next_Non_Pragma (Node : in out Node_Or_Entity_Id) is
1002 begin
1003 Node := Next_Non_Pragma (Node);
1004 end Next_Non_Pragma;
1006 --------
1007 -- No --
1008 --------
1010 function No (List : List_Id) return Boolean is
1011 begin
1012 return List = No_List;
1013 end No;
1015 ---------------
1016 -- Num_Lists --
1017 ---------------
1019 function Num_Lists return Nat is
1020 begin
1021 return Int (Lists.Last) - Int (Lists.First) + 1;
1022 end Num_Lists;
1024 ------------
1025 -- Parent --
1026 ------------
1028 function Parent (List : List_Id) return Node_Or_Entity_Id is
1029 begin
1030 pragma Assert (List <= Lists.Last);
1031 return Lists.Table (List).Parent;
1032 end Parent;
1034 ----------
1035 -- Pick --
1036 ----------
1038 function Pick (List : List_Id; Index : Pos) return Node_Or_Entity_Id is
1039 Elmt : Node_Or_Entity_Id;
1041 begin
1042 Elmt := First (List);
1043 for J in 1 .. Index - 1 loop
1044 Elmt := Next (Elmt);
1045 end loop;
1047 return Elmt;
1048 end Pick;
1050 -------------
1051 -- Prepend --
1052 -------------
1054 procedure Prepend (Node : Node_Or_Entity_Id; To : List_Id) is
1055 F : constant Node_Or_Entity_Id := First (To);
1057 procedure Prepend_Debug;
1058 pragma Inline (Prepend_Debug);
1059 -- Output debug information if Debug_Flag_N set
1061 -------------------
1062 -- Prepend_Debug --
1063 -------------------
1065 procedure Prepend_Debug is
1066 begin
1067 if Debug_Flag_N then
1068 Write_Str ("Prepend node ");
1069 Write_Int (Int (Node));
1070 Write_Str (" to list ");
1071 Write_Int (Int (To));
1072 Write_Eol;
1073 end if;
1074 end Prepend_Debug;
1076 -- Start of processing for Prepend_Debug
1078 begin
1079 pragma Assert (not Is_List_Member (Node));
1081 if Node = Error then
1082 return;
1083 end if;
1085 pragma Debug (Prepend_Debug);
1087 if No (F) then
1088 Set_Last (To, Node);
1089 else
1090 Set_Prev (F, Node);
1091 end if;
1093 Set_First (To, Node);
1095 Nodes.Table (Node).In_List := True;
1097 Set_Next (Node, F);
1098 Set_Prev (Node, Empty);
1099 Set_List_Link (Node, To);
1100 end Prepend;
1102 ------------------
1103 -- Prepend_List --
1104 ------------------
1106 procedure Prepend_List (List : List_Id; To : List_Id) is
1108 procedure Prepend_List_Debug;
1109 pragma Inline (Prepend_List_Debug);
1110 -- Output debug information if Debug_Flag_N set
1112 ------------------------
1113 -- Prepend_List_Debug --
1114 ------------------------
1116 procedure Prepend_List_Debug is
1117 begin
1118 if Debug_Flag_N then
1119 Write_Str ("Prepend list ");
1120 Write_Int (Int (List));
1121 Write_Str (" to list ");
1122 Write_Int (Int (To));
1123 Write_Eol;
1124 end if;
1125 end Prepend_List_Debug;
1127 -- Start of processing for Prepend_List
1129 begin
1130 if Is_Empty_List (List) then
1131 return;
1133 else
1134 declare
1135 F : constant Node_Or_Entity_Id := First (To);
1136 L : constant Node_Or_Entity_Id := Last (List);
1137 N : Node_Or_Entity_Id;
1139 begin
1140 pragma Debug (Prepend_List_Debug);
1142 N := L;
1143 loop
1144 Set_List_Link (N, To);
1145 N := Prev (N);
1146 exit when No (N);
1147 end loop;
1149 if No (F) then
1150 Set_Last (To, L);
1151 else
1152 Set_Next (L, F);
1153 end if;
1155 Set_Prev (F, L);
1156 Set_First (To, First (List));
1158 Set_First (List, Empty);
1159 Set_Last (List, Empty);
1160 end;
1161 end if;
1162 end Prepend_List;
1164 ---------------------
1165 -- Prepend_List_To --
1166 ---------------------
1168 procedure Prepend_List_To (To : List_Id; List : List_Id) is
1169 begin
1170 Prepend_List (List, To);
1171 end Prepend_List_To;
1173 -----------------
1174 -- Prepend_New --
1175 -----------------
1177 procedure Prepend_New (Node : Node_Or_Entity_Id; To : in out List_Id) is
1178 begin
1179 if No (To) then
1180 To := New_List;
1181 end if;
1183 Prepend (Node, To);
1184 end Prepend_New;
1186 --------------------
1187 -- Prepend_New_To --
1188 --------------------
1190 procedure Prepend_New_To (To : in out List_Id; Node : Node_Or_Entity_Id) is
1191 begin
1192 Prepend_New (Node, To);
1193 end Prepend_New_To;
1195 ----------------
1196 -- Prepend_To --
1197 ----------------
1199 procedure Prepend_To (To : List_Id; Node : Node_Or_Entity_Id) is
1200 begin
1201 Prepend (Node, To);
1202 end Prepend_To;
1204 -------------
1205 -- Present --
1206 -------------
1208 function Present (List : List_Id) return Boolean is
1209 begin
1210 return List /= No_List;
1211 end Present;
1213 ----------
1214 -- Prev --
1215 ----------
1217 function Prev (Node : Node_Or_Entity_Id) return Node_Or_Entity_Id is
1218 begin
1219 pragma Assert (Is_List_Member (Node));
1220 return Prev_Node.Table (Node);
1221 end Prev;
1223 procedure Prev (Node : in out Node_Or_Entity_Id) is
1224 begin
1225 Node := Prev (Node);
1226 end Prev;
1228 -----------------------
1229 -- Prev_Node_Address --
1230 -----------------------
1232 function Prev_Node_Address return System.Address is
1233 begin
1234 return Prev_Node.Table (First_Node_Id)'Address;
1235 end Prev_Node_Address;
1237 ---------------------
1238 -- Prev_Non_Pragma --
1239 ---------------------
1241 function Prev_Non_Pragma
1242 (Node : Node_Or_Entity_Id) return Node_Or_Entity_Id
1244 N : Node_Or_Entity_Id;
1246 begin
1247 N := Node;
1248 loop
1249 N := Prev (N);
1250 exit when Nkind (N) /= N_Pragma;
1251 end loop;
1253 return N;
1254 end Prev_Non_Pragma;
1256 procedure Prev_Non_Pragma (Node : in out Node_Or_Entity_Id) is
1257 begin
1258 Node := Prev_Non_Pragma (Node);
1259 end Prev_Non_Pragma;
1261 ------------
1262 -- Remove --
1263 ------------
1265 procedure Remove (Node : Node_Or_Entity_Id) is
1266 Lst : constant List_Id := List_Containing (Node);
1267 Prv : constant Node_Or_Entity_Id := Prev (Node);
1268 Nxt : constant Node_Or_Entity_Id := Next (Node);
1270 procedure Remove_Debug;
1271 pragma Inline (Remove_Debug);
1272 -- Output debug information if Debug_Flag_N set
1274 ------------------
1275 -- Remove_Debug --
1276 ------------------
1278 procedure Remove_Debug is
1279 begin
1280 if Debug_Flag_N then
1281 Write_Str ("Remove node ");
1282 Write_Int (Int (Node));
1283 Write_Eol;
1284 end if;
1285 end Remove_Debug;
1287 -- Start of processing for Remove
1289 begin
1290 pragma Debug (Remove_Debug);
1292 if No (Prv) then
1293 Set_First (Lst, Nxt);
1294 else
1295 Set_Next (Prv, Nxt);
1296 end if;
1298 if No (Nxt) then
1299 Set_Last (Lst, Prv);
1300 else
1301 Set_Prev (Nxt, Prv);
1302 end if;
1304 Nodes.Table (Node).In_List := False;
1305 Set_Parent (Node, Empty);
1306 end Remove;
1308 -----------------
1309 -- Remove_Head --
1310 -----------------
1312 function Remove_Head (List : List_Id) return Node_Or_Entity_Id is
1313 Frst : constant Node_Or_Entity_Id := First (List);
1315 procedure Remove_Head_Debug;
1316 pragma Inline (Remove_Head_Debug);
1317 -- Output debug information if Debug_Flag_N set
1319 -----------------------
1320 -- Remove_Head_Debug --
1321 -----------------------
1323 procedure Remove_Head_Debug is
1324 begin
1325 if Debug_Flag_N then
1326 Write_Str ("Remove head of list ");
1327 Write_Int (Int (List));
1328 Write_Eol;
1329 end if;
1330 end Remove_Head_Debug;
1332 -- Start of processing for Remove_Head
1334 begin
1335 pragma Debug (Remove_Head_Debug);
1337 if Frst = Empty then
1338 return Empty;
1340 else
1341 declare
1342 Nxt : constant Node_Or_Entity_Id := Next (Frst);
1344 begin
1345 Set_First (List, Nxt);
1347 if No (Nxt) then
1348 Set_Last (List, Empty);
1349 else
1350 Set_Prev (Nxt, Empty);
1351 end if;
1353 Nodes.Table (Frst).In_List := False;
1354 Set_Parent (Frst, Empty);
1355 return Frst;
1356 end;
1357 end if;
1358 end Remove_Head;
1360 -----------------
1361 -- Remove_Next --
1362 -----------------
1364 function Remove_Next
1365 (Node : Node_Or_Entity_Id) return Node_Or_Entity_Id
1367 Nxt : constant Node_Or_Entity_Id := Next (Node);
1369 procedure Remove_Next_Debug;
1370 pragma Inline (Remove_Next_Debug);
1371 -- Output debug information if Debug_Flag_N set
1373 -----------------------
1374 -- Remove_Next_Debug --
1375 -----------------------
1377 procedure Remove_Next_Debug is
1378 begin
1379 if Debug_Flag_N then
1380 Write_Str ("Remove next node after ");
1381 Write_Int (Int (Node));
1382 Write_Eol;
1383 end if;
1384 end Remove_Next_Debug;
1386 -- Start of processing for Remove_Next
1388 begin
1389 if Present (Nxt) then
1390 declare
1391 Nxt2 : constant Node_Or_Entity_Id := Next (Nxt);
1392 LC : constant List_Id := List_Containing (Node);
1394 begin
1395 pragma Debug (Remove_Next_Debug);
1396 Set_Next (Node, Nxt2);
1398 if No (Nxt2) then
1399 Set_Last (LC, Node);
1400 else
1401 Set_Prev (Nxt2, Node);
1402 end if;
1404 Nodes.Table (Nxt).In_List := False;
1405 Set_Parent (Nxt, Empty);
1406 end;
1407 end if;
1409 return Nxt;
1410 end Remove_Next;
1412 ---------------
1413 -- Set_First --
1414 ---------------
1416 procedure Set_First (List : List_Id; To : Node_Or_Entity_Id) is
1417 begin
1418 pragma Assert (not Locked);
1419 Lists.Table (List).First := To;
1420 end Set_First;
1422 --------------
1423 -- Set_Last --
1424 --------------
1426 procedure Set_Last (List : List_Id; To : Node_Or_Entity_Id) is
1427 begin
1428 pragma Assert (not Locked);
1429 Lists.Table (List).Last := To;
1430 end Set_Last;
1432 -------------------
1433 -- Set_List_Link --
1434 -------------------
1436 procedure Set_List_Link (Node : Node_Or_Entity_Id; To : List_Id) is
1437 begin
1438 pragma Assert (not Locked);
1439 Nodes.Table (Node).Link := Union_Id (To);
1440 end Set_List_Link;
1442 --------------
1443 -- Set_Next --
1444 --------------
1446 procedure Set_Next (Node : Node_Or_Entity_Id; To : Node_Or_Entity_Id) is
1447 begin
1448 pragma Assert (not Locked);
1449 Next_Node.Table (Node) := To;
1450 end Set_Next;
1452 ----------------
1453 -- Set_Parent --
1454 ----------------
1456 procedure Set_Parent (List : List_Id; Node : Node_Or_Entity_Id) is
1457 begin
1458 pragma Assert (not Locked);
1459 pragma Assert (List <= Lists.Last);
1460 Lists.Table (List).Parent := Node;
1461 end Set_Parent;
1463 --------------
1464 -- Set_Prev --
1465 --------------
1467 procedure Set_Prev (Node : Node_Or_Entity_Id; To : Node_Or_Entity_Id) is
1468 begin
1469 pragma Assert (not Locked);
1470 Prev_Node.Table (Node) := To;
1471 end Set_Prev;
1473 ---------------
1474 -- Tree_Read --
1475 ---------------
1477 procedure Tree_Read is
1478 begin
1479 pragma Assert (not Locked);
1480 Lists.Tree_Read;
1481 Next_Node.Tree_Read;
1482 Prev_Node.Tree_Read;
1483 end Tree_Read;
1485 ----------------
1486 -- Tree_Write --
1487 ----------------
1489 procedure Tree_Write is
1490 begin
1491 Lists.Tree_Write;
1492 Next_Node.Tree_Write;
1493 Prev_Node.Tree_Write;
1494 end Tree_Write;
1496 ------------
1497 -- Unlock --
1498 ------------
1500 procedure Unlock is
1501 begin
1502 Lists.Locked := False;
1503 Prev_Node.Locked := False;
1504 Next_Node.Locked := False;
1505 end Unlock;
1507 ------------------
1508 -- Unlock_Lists --
1509 ------------------
1511 procedure Unlock_Lists is
1512 begin
1513 pragma Assert (Locked);
1514 Locked := False;
1515 end Unlock_Lists;
1517 end Nlists;