2018-08-29 Richard Biener <rguenther@suse.de>
[official-gcc.git] / gcc / ada / erroutc.adb
blob878fd880609b7846d002532be3767d7b53712424
1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT COMPILER COMPONENTS --
4 -- --
5 -- E R R O U T C --
6 -- --
7 -- B o d y --
8 -- --
9 -- Copyright (C) 1992-2018, 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 ------------------------------------------------------------------------------
26 -- Warning: Error messages can be generated during Gigi processing by direct
27 -- calls to error message routines, so it is essential that the processing
28 -- in this body be consistent with the requirements for the Gigi processing
29 -- environment, and that in particular, no disallowed table expansion is
30 -- allowed to occur.
32 with Atree; use Atree;
33 with Casing; use Casing;
34 with Csets; use Csets;
35 with Debug; use Debug;
36 with Err_Vars; use Err_Vars;
37 with Fname; use Fname;
38 with Namet; use Namet;
39 with Opt; use Opt;
40 with Output; use Output;
41 with Sinput; use Sinput;
42 with Snames; use Snames;
43 with Stringt; use Stringt;
44 with Targparm;
45 with Uintp; use Uintp;
46 with Widechar; use Widechar;
48 package body Erroutc is
50 -----------------------
51 -- Local Subprograms --
52 -----------------------
54 function Matches (S : String; P : String) return Boolean;
55 -- Returns true if the String S patches the pattern P, which can contain
56 -- wild card chars (*). The entire pattern must match the entire string.
57 -- Case is ignored in the comparison (so X matches x).
59 ---------------
60 -- Add_Class --
61 ---------------
63 procedure Add_Class is
64 begin
65 if Class_Flag then
66 Class_Flag := False;
67 Set_Msg_Char (''');
68 Get_Name_String (Name_Class);
69 Set_Casing (Identifier_Casing (Flag_Source));
70 Set_Msg_Name_Buffer;
71 end if;
72 end Add_Class;
74 ----------------------
75 -- Buffer_Ends_With --
76 ----------------------
78 function Buffer_Ends_With (C : Character) return Boolean is
79 begin
80 return Msglen > 0 and then Msg_Buffer (Msglen) = C;
81 end Buffer_Ends_With;
83 function Buffer_Ends_With (S : String) return Boolean is
84 Len : constant Natural := S'Length;
85 begin
86 return Msglen > Len
87 and then Msg_Buffer (Msglen - Len) = ' '
88 and then Msg_Buffer (Msglen - Len + 1 .. Msglen) = S;
89 end Buffer_Ends_With;
91 -------------------
92 -- Buffer_Remove --
93 -------------------
95 procedure Buffer_Remove (C : Character) is
96 begin
97 if Buffer_Ends_With (C) then
98 Msglen := Msglen - 1;
99 end if;
100 end Buffer_Remove;
102 procedure Buffer_Remove (S : String) is
103 begin
104 if Buffer_Ends_With (S) then
105 Msglen := Msglen - S'Length;
106 end if;
107 end Buffer_Remove;
109 -----------------------------
110 -- Check_Duplicate_Message --
111 -----------------------------
113 procedure Check_Duplicate_Message (M1, M2 : Error_Msg_Id) is
114 L1, L2 : Error_Msg_Id;
115 N1, N2 : Error_Msg_Id;
117 procedure Delete_Msg (Delete, Keep : Error_Msg_Id);
118 -- Called to delete message Delete, keeping message Keep. Marks msg
119 -- Delete and all its continuations with deleted flag set to True.
120 -- Also makes sure that for the error messages that are retained the
121 -- preferred message is the one retained (we prefer the shorter one in
122 -- the case where one has an Instance tag). Note that we always know
123 -- that Keep has at least as many continuations as Delete (since we
124 -- always delete the shorter sequence).
126 ----------------
127 -- Delete_Msg --
128 ----------------
130 procedure Delete_Msg (Delete, Keep : Error_Msg_Id) is
131 D, K : Error_Msg_Id;
133 begin
134 D := Delete;
135 K := Keep;
137 loop
138 Errors.Table (D).Deleted := True;
140 -- Adjust error message count
142 if Errors.Table (D).Info then
144 if Errors.Table (D).Warn then
145 Warning_Info_Messages := Warning_Info_Messages - 1;
146 Warnings_Detected := Warnings_Detected - 1;
147 else
148 Report_Info_Messages := Report_Info_Messages - 1;
149 end if;
151 elsif Errors.Table (D).Warn or else Errors.Table (D).Style then
152 Warnings_Detected := Warnings_Detected - 1;
154 -- Note: we do not need to decrement Warnings_Treated_As_Errors
155 -- because this only gets incremented if we actually output the
156 -- message, which we won't do if we are deleting it here!
158 elsif Errors.Table (D).Check then
159 Check_Messages := Check_Messages - 1;
161 else
162 Total_Errors_Detected := Total_Errors_Detected - 1;
164 if Errors.Table (D).Serious then
165 Serious_Errors_Detected := Serious_Errors_Detected - 1;
166 end if;
167 end if;
169 -- Substitute shorter of the two error messages
171 if Errors.Table (K).Text'Length > Errors.Table (D).Text'Length then
172 Errors.Table (K).Text := Errors.Table (D).Text;
173 end if;
175 D := Errors.Table (D).Next;
176 K := Errors.Table (K).Next;
178 if D = No_Error_Msg or else not Errors.Table (D).Msg_Cont then
179 return;
180 end if;
181 end loop;
182 end Delete_Msg;
184 -- Start of processing for Check_Duplicate_Message
186 begin
187 -- Both messages must be non-continuation messages and not deleted
189 if Errors.Table (M1).Msg_Cont
190 or else Errors.Table (M2).Msg_Cont
191 or else Errors.Table (M1).Deleted
192 or else Errors.Table (M2).Deleted
193 then
194 return;
195 end if;
197 -- Definitely not equal if message text does not match
199 if not Same_Error (M1, M2) then
200 return;
201 end if;
203 -- Same text. See if all continuations are also identical
205 L1 := M1;
206 L2 := M2;
208 loop
209 N1 := Errors.Table (L1).Next;
210 N2 := Errors.Table (L2).Next;
212 -- If M1 continuations have run out, we delete M1, either the
213 -- messages have the same number of continuations, or M2 has
214 -- more and we prefer the one with more anyway.
216 if N1 = No_Error_Msg or else not Errors.Table (N1).Msg_Cont then
217 Delete_Msg (M1, M2);
218 return;
220 -- If M2 continuations have run out, we delete M2
222 elsif N2 = No_Error_Msg or else not Errors.Table (N2).Msg_Cont then
223 Delete_Msg (M2, M1);
224 return;
226 -- Otherwise see if continuations are the same, if not, keep both
227 -- sequences, a curious case, but better to keep everything.
229 elsif not Same_Error (N1, N2) then
230 return;
232 -- If continuations are the same, continue scan
234 else
235 L1 := N1;
236 L2 := N2;
237 end if;
238 end loop;
239 end Check_Duplicate_Message;
241 ------------------------
242 -- Compilation_Errors --
243 ------------------------
245 function Compilation_Errors return Boolean is
246 begin
247 return
248 Total_Errors_Detected /= 0
249 or else (Warnings_Detected - Warning_Info_Messages /= 0
250 and then Warning_Mode = Treat_As_Error)
251 or else Warnings_Treated_As_Errors /= 0;
252 end Compilation_Errors;
254 ------------------
255 -- Debug_Output --
256 ------------------
258 procedure Debug_Output (N : Node_Id) is
259 begin
260 if Debug_Flag_1 then
261 Write_Str ("*** following error message posted on node id = #");
262 Write_Int (Int (N));
263 Write_Str (" ***");
264 Write_Eol;
265 end if;
266 end Debug_Output;
268 ----------
269 -- dmsg --
270 ----------
272 procedure dmsg (Id : Error_Msg_Id) is
273 E : Error_Msg_Object renames Errors.Table (Id);
275 begin
276 w ("Dumping error message, Id = ", Int (Id));
277 w (" Text = ", E.Text.all);
278 w (" Next = ", Int (E.Next));
279 w (" Prev = ", Int (E.Prev));
280 w (" Sfile = ", Int (E.Sfile));
282 Write_Str
283 (" Sptr = ");
284 Write_Location (E.Sptr);
285 Write_Eol;
287 Write_Str
288 (" Optr = ");
289 Write_Location (E.Optr);
290 Write_Eol;
292 w (" Line = ", Int (E.Line));
293 w (" Col = ", Int (E.Col));
294 w (" Warn = ", E.Warn);
295 w (" Warn_Err = ", E.Warn_Err);
296 w (" Warn_Chr = '" & E.Warn_Chr & ''');
297 w (" Style = ", E.Style);
298 w (" Serious = ", E.Serious);
299 w (" Uncond = ", E.Uncond);
300 w (" Msg_Cont = ", E.Msg_Cont);
301 w (" Deleted = ", E.Deleted);
302 w (" Node = ", Int (E.Node));
304 Write_Eol;
305 end dmsg;
307 ------------------
308 -- Get_Location --
309 ------------------
311 function Get_Location (E : Error_Msg_Id) return Source_Ptr is
312 begin
313 return Errors.Table (E).Sptr;
314 end Get_Location;
316 ----------------
317 -- Get_Msg_Id --
318 ----------------
320 function Get_Msg_Id return Error_Msg_Id is
321 begin
322 return Cur_Msg;
323 end Get_Msg_Id;
325 ---------------------
326 -- Get_Warning_Tag --
327 ---------------------
329 function Get_Warning_Tag (Id : Error_Msg_Id) return String is
330 Warn : constant Boolean := Errors.Table (Id).Warn;
331 Warn_Chr : constant Character := Errors.Table (Id).Warn_Chr;
332 begin
333 if Warn and then Warn_Chr /= ' ' then
334 if Warn_Chr = '?' then
335 return "[enabled by default]";
336 elsif Warn_Chr = '*' then
337 return "[restriction warning]";
338 elsif Warn_Chr = '$' then
339 return "[-gnatel]";
340 elsif Warn_Chr in 'a' .. 'z' then
341 return "[-gnatw" & Warn_Chr & ']';
342 else pragma Assert (Warn_Chr in 'A' .. 'Z');
343 return "[-gnatw." & Fold_Lower (Warn_Chr) & ']';
344 end if;
345 else
346 return "";
347 end if;
348 end Get_Warning_Tag;
350 -------------
351 -- Matches --
352 -------------
354 function Matches (S : String; P : String) return Boolean is
355 Slast : constant Natural := S'Last;
356 PLast : constant Natural := P'Last;
358 SPtr : Natural := S'First;
359 PPtr : Natural := P'First;
361 begin
362 -- Loop advancing through characters of string and pattern
364 SPtr := S'First;
365 PPtr := P'First;
366 loop
367 -- Return True if pattern is a single asterisk
369 if PPtr = PLast and then P (PPtr) = '*' then
370 return True;
372 -- Return True if both pattern and string exhausted
374 elsif PPtr > PLast and then SPtr > Slast then
375 return True;
377 -- Return False, if one exhausted and not the other
379 elsif PPtr > PLast or else SPtr > Slast then
380 return False;
382 -- Case where pattern starts with asterisk
384 elsif P (PPtr) = '*' then
386 -- Try all possible starting positions in S for match with the
387 -- remaining characters of the pattern. This is the recursive
388 -- call that implements the scanner backup.
390 for J in SPtr .. Slast loop
391 if Matches (S (J .. Slast), P (PPtr + 1 .. PLast)) then
392 return True;
393 end if;
394 end loop;
396 return False;
398 -- Dealt with end of string and *, advance if we have a match
400 elsif Fold_Lower (S (SPtr)) = Fold_Lower (P (PPtr)) then
401 SPtr := SPtr + 1;
402 PPtr := PPtr + 1;
404 -- If first characters do not match, that's decisive
406 else
407 return False;
408 end if;
409 end loop;
410 end Matches;
412 -----------------------
413 -- Output_Error_Msgs --
414 -----------------------
416 procedure Output_Error_Msgs (E : in out Error_Msg_Id) is
417 P : Source_Ptr;
418 T : Error_Msg_Id;
419 S : Error_Msg_Id;
421 Flag_Num : Pos;
422 Mult_Flags : Boolean := False;
424 begin
425 S := E;
427 -- Skip deleted messages at start
429 if Errors.Table (S).Deleted then
430 Set_Next_Non_Deleted_Msg (S);
431 end if;
433 -- Figure out if we will place more than one error flag on this line
435 T := S;
436 while T /= No_Error_Msg
437 and then Errors.Table (T).Line = Errors.Table (E).Line
438 and then Errors.Table (T).Sfile = Errors.Table (E).Sfile
439 loop
440 if Errors.Table (T).Sptr > Errors.Table (E).Sptr then
441 Mult_Flags := True;
442 end if;
444 Set_Next_Non_Deleted_Msg (T);
445 end loop;
447 -- Output the error flags. The circuit here makes sure that the tab
448 -- characters in the original line are properly accounted for. The
449 -- eight blanks at the start are to match the line number.
451 if not Debug_Flag_2 then
452 Write_Str (" ");
453 P := Line_Start (Errors.Table (E).Sptr);
454 Flag_Num := 1;
456 -- Loop through error messages for this line to place flags
458 T := S;
459 while T /= No_Error_Msg
460 and then Errors.Table (T).Line = Errors.Table (E).Line
461 and then Errors.Table (T).Sfile = Errors.Table (E).Sfile
462 loop
463 declare
464 Src : Source_Buffer_Ptr
465 renames Source_Text (Errors.Table (T).Sfile);
467 begin
468 -- Loop to output blanks till current flag position
470 while P < Errors.Table (T).Sptr loop
472 -- Horizontal tab case, just echo the tab
474 if Src (P) = ASCII.HT then
475 Write_Char (ASCII.HT);
476 P := P + 1;
478 -- Deal with wide character case, but don't include brackets
479 -- notation in this circuit, since we know that this will
480 -- display unencoded (no one encodes brackets notation).
482 elsif Src (P) /= '['
483 and then Is_Start_Of_Wide_Char (Src, P)
484 then
485 Skip_Wide (Src, P);
486 Write_Char (' ');
488 -- Normal non-wide character case (or bracket)
490 else
491 P := P + 1;
492 Write_Char (' ');
493 end if;
494 end loop;
496 -- Output flag (unless already output, this happens if more
497 -- than one error message occurs at the same flag position).
499 if P = Errors.Table (T).Sptr then
500 if (Flag_Num = 1 and then not Mult_Flags)
501 or else Flag_Num > 9
502 then
503 Write_Char ('|');
504 else
505 Write_Char
506 (Character'Val (Character'Pos ('0') + Flag_Num));
507 end if;
509 -- Skip past the corresponding source text character
511 -- Horizontal tab case, we output a flag at the tab position
512 -- so now we output a tab to match up with the text.
514 if Src (P) = ASCII.HT then
515 Write_Char (ASCII.HT);
516 P := P + 1;
518 -- Skip wide character other than left bracket
520 elsif Src (P) /= '['
521 and then Is_Start_Of_Wide_Char (Src, P)
522 then
523 Skip_Wide (Src, P);
525 -- Skip normal non-wide character case (or bracket)
527 else
528 P := P + 1;
529 end if;
530 end if;
531 end;
533 Set_Next_Non_Deleted_Msg (T);
534 Flag_Num := Flag_Num + 1;
535 end loop;
537 Write_Eol;
538 end if;
540 -- Now output the error messages
542 T := S;
543 while T /= No_Error_Msg
544 and then Errors.Table (T).Line = Errors.Table (E).Line
545 and then Errors.Table (T).Sfile = Errors.Table (E).Sfile
546 loop
547 Write_Str (" >>> ");
548 Output_Msg_Text (T);
550 if Debug_Flag_2 then
551 while Column < 74 loop
552 Write_Char (' ');
553 end loop;
555 Write_Str (" <<<");
556 end if;
558 Write_Eol;
559 Set_Next_Non_Deleted_Msg (T);
560 end loop;
562 E := T;
563 end Output_Error_Msgs;
565 ------------------------
566 -- Output_Line_Number --
567 ------------------------
569 procedure Output_Line_Number (L : Logical_Line_Number) is
570 D : Int; -- next digit
571 C : Character; -- next character
572 Z : Boolean; -- flag for zero suppress
573 N, M : Int; -- temporaries
575 begin
576 if L = No_Line_Number then
577 Write_Str (" ");
579 else
580 Z := False;
581 N := Int (L);
583 M := 100_000;
584 while M /= 0 loop
585 D := Int (N / M);
586 N := N rem M;
587 M := M / 10;
589 if D = 0 then
590 if Z then
591 C := '0';
592 else
593 C := ' ';
594 end if;
595 else
596 Z := True;
597 C := Character'Val (D + 48);
598 end if;
600 Write_Char (C);
601 end loop;
603 Write_Str (". ");
604 end if;
605 end Output_Line_Number;
607 ---------------------
608 -- Output_Msg_Text --
609 ---------------------
611 procedure Output_Msg_Text (E : Error_Msg_Id) is
612 Offs : constant Nat := Column - 1;
613 -- Offset to start of message, used for continuations
615 Max : Integer;
616 -- Maximum characters to output on next line
618 Length : Nat;
619 -- Maximum total length of lines
621 Text : constant String_Ptr := Errors.Table (E).Text;
622 Ptr : Natural;
623 Split : Natural;
624 Start : Natural;
626 begin
627 declare
628 Tag : constant String := Get_Warning_Tag (E);
629 Txt : String_Ptr;
630 Len : Natural;
632 begin
633 -- Postfix warning tag to message if needed
635 if Tag /= "" and then Warning_Doc_Switch then
636 if Include_Subprogram_In_Messages then
637 Txt :=
638 new String'
639 (Subprogram_Name_Ptr (Errors.Table (E).Node) &
640 ": " & Text.all & ' ' & Tag);
641 else
642 Txt := new String'(Text.all & ' ' & Tag);
643 end if;
645 elsif Include_Subprogram_In_Messages
646 and then (Errors.Table (E).Warn or else Errors.Table (E).Style)
647 then
648 Txt :=
649 new String'
650 (Subprogram_Name_Ptr (Errors.Table (E).Node) &
651 ": " & Text.all);
652 else
653 Txt := Text;
654 end if;
656 -- Deal with warning case
658 if Errors.Table (E).Warn or else Errors.Table (E).Info then
660 -- For info messages, prefix message with "info: "
662 if Errors.Table (E).Info then
663 Txt := new String'("info: " & Txt.all);
665 -- Warning treated as error
667 elsif Errors.Table (E).Warn_Err then
669 -- We prefix with "error:" rather than warning: and postfix
670 -- [warning-as-error] at the end.
672 Warnings_Treated_As_Errors := Warnings_Treated_As_Errors + 1;
673 Txt := new String'("error: " & Txt.all & " [warning-as-error]");
675 -- Normal case, prefix with "warning: "
677 else
678 Txt := new String'("warning: " & Txt.all);
679 end if;
681 -- No prefix needed for style message, "(style)" is there already
683 elsif Errors.Table (E).Style then
684 null;
686 -- No prefix needed for check message, severity is there already
688 elsif Errors.Table (E).Check then
689 null;
691 -- All other cases, add "error: " if unique error tag set
693 elsif Opt.Unique_Error_Tag then
694 Txt := new String'("error: " & Txt.all);
695 end if;
697 -- Set error message line length and length of message
699 if Error_Msg_Line_Length = 0 then
700 Length := Nat'Last;
701 else
702 Length := Error_Msg_Line_Length;
703 end if;
705 Max := Integer (Length - Column + 1);
706 Len := Txt'Length;
708 -- Here we have to split the message up into multiple lines
710 Ptr := 1;
711 loop
712 -- Make sure we do not have ludicrously small line
714 Max := Integer'Max (Max, 20);
716 -- If remaining text fits, output it respecting LF and we are done
718 if Len - Ptr < Max then
719 for J in Ptr .. Len loop
720 if Txt (J) = ASCII.LF then
721 Write_Eol;
722 Write_Spaces (Offs);
723 else
724 Write_Char (Txt (J));
725 end if;
726 end loop;
728 return;
730 -- Line does not fit
732 else
733 Start := Ptr;
735 -- First scan forward looking for a hard end of line
737 for Scan in Ptr .. Ptr + Max - 1 loop
738 if Txt (Scan) = ASCII.LF then
739 Split := Scan - 1;
740 Ptr := Scan + 1;
741 goto Continue;
742 end if;
743 end loop;
745 -- Otherwise scan backwards looking for a space
747 for Scan in reverse Ptr .. Ptr + Max - 1 loop
748 if Txt (Scan) = ' ' then
749 Split := Scan - 1;
750 Ptr := Scan + 1;
751 goto Continue;
752 end if;
753 end loop;
755 -- If we fall through, no space, so split line arbitrarily
757 Split := Ptr + Max - 1;
758 Ptr := Split + 1;
759 end if;
761 <<Continue>>
762 if Start <= Split then
763 Write_Line (Txt (Start .. Split));
764 Write_Spaces (Offs);
765 end if;
767 Max := Integer (Length - Column + 1);
768 end loop;
769 end;
770 end Output_Msg_Text;
772 ---------------------
773 -- Prescan_Message --
774 ---------------------
776 procedure Prescan_Message (Msg : String) is
777 J : Natural;
779 begin
780 -- Nothing to do for continuation line
782 if Msg (Msg'First) = '\' then
783 return;
784 end if;
786 -- Set initial values of globals (may be changed during scan)
788 Is_Serious_Error := True;
789 Is_Unconditional_Msg := False;
790 Is_Warning_Msg := False;
791 Has_Double_Exclam := False;
793 -- Check style message
795 Is_Style_Msg :=
796 Msg'Length > 7 and then Msg (Msg'First .. Msg'First + 6) = "(style)";
798 -- Check info message
800 Is_Info_Msg :=
801 Msg'Length > 6 and then Msg (Msg'First .. Msg'First + 5) = "info: ";
803 -- Check check message
805 Is_Check_Msg :=
806 (Msg'Length > 8 and then Msg (Msg'First .. Msg'First + 7) = "medium: ")
807 or else
808 (Msg'Length > 6 and then Msg (Msg'First .. Msg'First + 5) = "high: ")
809 or else
810 (Msg'Length > 5 and then Msg (Msg'First .. Msg'First + 4) = "low: ");
812 -- Loop through message looking for relevant insertion sequences
814 J := Msg'First;
815 while J <= Msg'Last loop
817 -- If we have a quote, don't look at following character
819 if Msg (J) = ''' then
820 J := J + 2;
822 -- Warning message (? or < insertion sequence)
824 elsif Msg (J) = '?' or else Msg (J) = '<' then
825 Is_Warning_Msg := Msg (J) = '?' or else Error_Msg_Warn;
826 Warning_Msg_Char := ' ';
827 J := J + 1;
829 if Is_Warning_Msg then
830 declare
831 C : constant Character := Msg (J - 1);
832 begin
833 if J <= Msg'Last then
834 if Msg (J) = C then
835 Warning_Msg_Char := '?';
836 J := J + 1;
838 elsif J < Msg'Last and then Msg (J + 1) = C
839 and then (Msg (J) in 'a' .. 'z' or else
840 Msg (J) in 'A' .. 'Z' or else
841 Msg (J) = '*' or else
842 Msg (J) = '$')
843 then
844 Warning_Msg_Char := Msg (J);
845 J := J + 2;
846 end if;
847 end if;
848 end;
849 end if;
851 -- Bomb if untagged warning message. This code can be uncommented
852 -- for debugging when looking for untagged warning messages.
854 -- if Is_Warning_Msg and then Warning_Msg_Char = ' ' then
855 -- raise Program_Error;
856 -- end if;
858 -- Unconditional message (! insertion)
860 elsif Msg (J) = '!' then
861 Is_Unconditional_Msg := True;
862 J := J + 1;
864 if J <= Msg'Last and then Msg (J) = '!' then
865 Has_Double_Exclam := True;
866 J := J + 1;
867 end if;
869 -- Non-serious error (| insertion)
871 elsif Msg (J) = '|' then
872 Is_Serious_Error := False;
873 J := J + 1;
875 else
876 J := J + 1;
877 end if;
878 end loop;
880 if Is_Info_Msg or Is_Warning_Msg or Is_Style_Msg or Is_Check_Msg then
881 Is_Serious_Error := False;
882 end if;
883 end Prescan_Message;
885 --------------------
886 -- Purge_Messages --
887 --------------------
889 procedure Purge_Messages (From : Source_Ptr; To : Source_Ptr) is
890 E : Error_Msg_Id;
892 function To_Be_Purged (E : Error_Msg_Id) return Boolean;
893 -- Returns True for a message that is to be purged. Also adjusts
894 -- error counts appropriately.
896 ------------------
897 -- To_Be_Purged --
898 ------------------
900 function To_Be_Purged (E : Error_Msg_Id) return Boolean is
901 begin
902 if E /= No_Error_Msg
903 and then Errors.Table (E).Sptr > From
904 and then Errors.Table (E).Sptr < To
905 then
906 if Errors.Table (E).Warn or else Errors.Table (E).Style then
907 Warnings_Detected := Warnings_Detected - 1;
909 else
910 Total_Errors_Detected := Total_Errors_Detected - 1;
912 if Errors.Table (E).Serious then
913 Serious_Errors_Detected := Serious_Errors_Detected - 1;
914 end if;
915 end if;
917 return True;
919 else
920 return False;
921 end if;
922 end To_Be_Purged;
924 -- Start of processing for Purge_Messages
926 begin
927 while To_Be_Purged (First_Error_Msg) loop
928 First_Error_Msg := Errors.Table (First_Error_Msg).Next;
929 end loop;
931 E := First_Error_Msg;
932 while E /= No_Error_Msg loop
933 while To_Be_Purged (Errors.Table (E).Next) loop
934 Errors.Table (E).Next :=
935 Errors.Table (Errors.Table (E).Next).Next;
936 end loop;
938 E := Errors.Table (E).Next;
939 end loop;
940 end Purge_Messages;
942 ----------------
943 -- Same_Error --
944 ----------------
946 function Same_Error (M1, M2 : Error_Msg_Id) return Boolean is
947 Msg1 : constant String_Ptr := Errors.Table (M1).Text;
948 Msg2 : constant String_Ptr := Errors.Table (M2).Text;
950 Msg2_Len : constant Integer := Msg2'Length;
951 Msg1_Len : constant Integer := Msg1'Length;
953 begin
954 return
955 Msg1.all = Msg2.all
956 or else
957 (Msg1_Len - 10 > Msg2_Len
958 and then
959 Msg2.all = Msg1.all (1 .. Msg2_Len)
960 and then
961 Msg1 (Msg2_Len + 1 .. Msg2_Len + 10) = ", instance")
962 or else
963 (Msg2_Len - 10 > Msg1_Len
964 and then
965 Msg1.all = Msg2.all (1 .. Msg1_Len)
966 and then
967 Msg2 (Msg1_Len + 1 .. Msg1_Len + 10) = ", instance");
968 end Same_Error;
970 -------------------
971 -- Set_Msg_Blank --
972 -------------------
974 procedure Set_Msg_Blank is
975 begin
976 if Msglen > 0
977 and then Msg_Buffer (Msglen) /= ' '
978 and then Msg_Buffer (Msglen) /= '('
979 and then Msg_Buffer (Msglen) /= '-'
980 and then not Manual_Quote_Mode
981 then
982 Set_Msg_Char (' ');
983 end if;
984 end Set_Msg_Blank;
986 -------------------------------
987 -- Set_Msg_Blank_Conditional --
988 -------------------------------
990 procedure Set_Msg_Blank_Conditional is
991 begin
992 if Msglen > 0
993 and then Msg_Buffer (Msglen) /= ' '
994 and then Msg_Buffer (Msglen) /= '('
995 and then Msg_Buffer (Msglen) /= '"'
996 and then not Manual_Quote_Mode
997 then
998 Set_Msg_Char (' ');
999 end if;
1000 end Set_Msg_Blank_Conditional;
1002 ------------------
1003 -- Set_Msg_Char --
1004 ------------------
1006 procedure Set_Msg_Char (C : Character) is
1007 begin
1009 -- The check for message buffer overflow is needed to deal with cases
1010 -- where insertions get too long (in particular a child unit name can
1011 -- be very long).
1013 if Msglen < Max_Msg_Length then
1014 Msglen := Msglen + 1;
1015 Msg_Buffer (Msglen) := C;
1016 end if;
1017 end Set_Msg_Char;
1019 ---------------------------------
1020 -- Set_Msg_Insertion_File_Name --
1021 ---------------------------------
1023 procedure Set_Msg_Insertion_File_Name is
1024 begin
1025 if Error_Msg_File_1 = No_File then
1026 null;
1028 elsif Error_Msg_File_1 = Error_File_Name then
1029 Set_Msg_Blank;
1030 Set_Msg_Str ("<error>");
1032 else
1033 Set_Msg_Blank;
1034 Get_Name_String (Error_Msg_File_1);
1035 Set_Msg_Quote;
1036 Set_Msg_Name_Buffer;
1037 Set_Msg_Quote;
1038 end if;
1040 -- The following assignments ensure that the second and third {
1041 -- insertion characters will correspond to the Error_Msg_File_2 and
1042 -- Error_Msg_File_3 values and We suppress possible validity checks in
1043 -- case operating in -gnatVa mode, and Error_Msg_File_2 or
1044 -- Error_Msg_File_3 is not needed and has not been set.
1046 declare
1047 pragma Suppress (Range_Check);
1048 begin
1049 Error_Msg_File_1 := Error_Msg_File_2;
1050 Error_Msg_File_2 := Error_Msg_File_3;
1051 end;
1052 end Set_Msg_Insertion_File_Name;
1054 -----------------------------------
1055 -- Set_Msg_Insertion_Line_Number --
1056 -----------------------------------
1058 procedure Set_Msg_Insertion_Line_Number (Loc, Flag : Source_Ptr) is
1059 Sindex_Loc : Source_File_Index;
1060 Sindex_Flag : Source_File_Index;
1061 Fname : File_Name_Type;
1062 Int_File : Boolean;
1064 procedure Set_At;
1065 -- Outputs "at " unless last characters in buffer are " from ". Certain
1066 -- messages read better with from than at.
1068 ------------
1069 -- Set_At --
1070 ------------
1072 procedure Set_At is
1073 begin
1074 if Msglen < 6
1075 or else Msg_Buffer (Msglen - 5 .. Msglen) /= " from "
1076 then
1077 Set_Msg_Str ("at ");
1078 end if;
1079 end Set_At;
1081 -- Start of processing for Set_Msg_Insertion_Line_Number
1083 begin
1084 Set_Msg_Blank;
1086 if Loc = No_Location then
1087 Set_At;
1088 Set_Msg_Str ("unknown location");
1090 elsif Loc = System_Location then
1091 Set_Msg_Str ("in package System");
1092 Set_Msg_Insertion_Run_Time_Name;
1094 elsif Loc = Standard_Location then
1095 Set_Msg_Str ("in package Standard");
1097 elsif Loc = Standard_ASCII_Location then
1098 Set_Msg_Str ("in package Standard.ASCII");
1100 else
1101 -- Add "at file-name:" if reference is to other than the source
1102 -- file in which the error message is placed. Note that we check
1103 -- full file names, rather than just the source indexes, to
1104 -- deal with generic instantiations from the current file.
1106 Sindex_Loc := Get_Source_File_Index (Loc);
1107 Sindex_Flag := Get_Source_File_Index (Flag);
1109 if Full_File_Name (Sindex_Loc) /= Full_File_Name (Sindex_Flag) then
1110 Set_At;
1111 Fname := Reference_Name (Get_Source_File_Index (Loc));
1112 Int_File := Is_Internal_File_Name (Fname);
1113 Get_Name_String (Fname);
1114 Set_Msg_Name_Buffer;
1116 if not (Int_File and Debug_Flag_Dot_K) then
1117 Set_Msg_Char (':');
1118 Set_Msg_Int (Int (Get_Logical_Line_Number (Loc)));
1119 end if;
1121 -- If in current file, add text "at line "
1123 else
1124 Set_At;
1125 Set_Msg_Str ("line ");
1126 Int_File := False;
1127 Set_Msg_Int (Int (Get_Logical_Line_Number (Loc)));
1128 end if;
1130 -- Deal with the instantiation case. We may have a reference to,
1131 -- e.g. a type, that is declared within a generic template, and
1132 -- what we are really referring to is the occurrence in an instance.
1133 -- In this case, the line number of the instantiation is also of
1134 -- interest, and we add a notation:
1136 -- , instance at xxx
1138 -- where xxx is a line number output using this same routine (and
1139 -- the recursion can go further if the instantiation is itself in
1140 -- a generic template).
1142 -- The flag location passed to us in this situation is indeed the
1143 -- line number within the template, but as described in Sinput.L
1144 -- (file sinput-l.ads, section "Handling Generic Instantiations")
1145 -- we can retrieve the location of the instantiation itself from
1146 -- this flag location value.
1148 -- Note: this processing is suppressed if Suppress_Instance_Location
1149 -- is set True. This is used to prevent redundant annotations of the
1150 -- location of the instantiation in the case where we are placing
1151 -- the messages on the instantiation in any case.
1153 if Instantiation (Sindex_Loc) /= No_Location
1154 and then not Suppress_Instance_Location
1155 then
1156 Set_Msg_Str (", instance ");
1157 Set_Msg_Insertion_Line_Number (Instantiation (Sindex_Loc), Flag);
1158 end if;
1159 end if;
1160 end Set_Msg_Insertion_Line_Number;
1162 ----------------------------
1163 -- Set_Msg_Insertion_Name --
1164 ----------------------------
1166 procedure Set_Msg_Insertion_Name is
1167 begin
1168 if Error_Msg_Name_1 = No_Name then
1169 null;
1171 elsif Error_Msg_Name_1 = Error_Name then
1172 Set_Msg_Blank;
1173 Set_Msg_Str ("<error>");
1175 else
1176 Set_Msg_Blank_Conditional;
1177 Get_Unqualified_Decoded_Name_String (Error_Msg_Name_1);
1179 -- Remove %s or %b at end. These come from unit names. If the
1180 -- caller wanted the (unit) or (body), then they would have used
1181 -- the $ insertion character. Certainly no error message should
1182 -- ever have %b or %s explicitly occurring.
1184 if Name_Len > 2
1185 and then Name_Buffer (Name_Len - 1) = '%'
1186 and then (Name_Buffer (Name_Len) = 'b'
1187 or else
1188 Name_Buffer (Name_Len) = 's')
1189 then
1190 Name_Len := Name_Len - 2;
1191 end if;
1193 -- Remove upper case letter at end, again, we should not be getting
1194 -- such names, and what we hope is that the remainder makes sense.
1196 if Name_Len > 1 and then Name_Buffer (Name_Len) in 'A' .. 'Z' then
1197 Name_Len := Name_Len - 1;
1198 end if;
1200 -- If operator name or character literal name, just print it as is
1201 -- Also print as is if it ends in a right paren (case of x'val(nnn))
1203 if Name_Buffer (1) = '"'
1204 or else Name_Buffer (1) = '''
1205 or else Name_Buffer (Name_Len) = ')'
1206 then
1207 Set_Msg_Name_Buffer;
1209 -- Else output with surrounding quotes in proper casing mode
1211 else
1212 Set_Casing (Identifier_Casing (Flag_Source));
1213 Set_Msg_Quote;
1214 Set_Msg_Name_Buffer;
1215 Set_Msg_Quote;
1216 end if;
1217 end if;
1219 -- The following assignments ensure that the second and third percent
1220 -- insertion characters will correspond to the Error_Msg_Name_2 and
1221 -- Error_Msg_Name_3 as required. We suppress possible validity checks in
1222 -- case operating in -gnatVa mode, and Error_Msg_Name_1/2 is not needed
1223 -- and has not been set.
1225 declare
1226 pragma Suppress (Range_Check);
1227 begin
1228 Error_Msg_Name_1 := Error_Msg_Name_2;
1229 Error_Msg_Name_2 := Error_Msg_Name_3;
1230 end;
1231 end Set_Msg_Insertion_Name;
1233 ------------------------------------
1234 -- Set_Msg_Insertion_Name_Literal --
1235 ------------------------------------
1237 procedure Set_Msg_Insertion_Name_Literal is
1238 begin
1239 if Error_Msg_Name_1 = No_Name then
1240 null;
1242 elsif Error_Msg_Name_1 = Error_Name then
1243 Set_Msg_Blank;
1244 Set_Msg_Str ("<error>");
1246 else
1247 Set_Msg_Blank;
1248 Get_Name_String (Error_Msg_Name_1);
1249 Set_Msg_Quote;
1250 Set_Msg_Name_Buffer;
1251 Set_Msg_Quote;
1252 end if;
1254 -- The following assignments ensure that the second and third % or %%
1255 -- insertion characters will correspond to the Error_Msg_Name_2 and
1256 -- Error_Msg_Name_3 values and We suppress possible validity checks in
1257 -- case operating in -gnatVa mode, and Error_Msg_Name_2 or
1258 -- Error_Msg_Name_3 is not needed and has not been set.
1260 declare
1261 pragma Suppress (Range_Check);
1262 begin
1263 Error_Msg_Name_1 := Error_Msg_Name_2;
1264 Error_Msg_Name_2 := Error_Msg_Name_3;
1265 end;
1266 end Set_Msg_Insertion_Name_Literal;
1268 -------------------------------------
1269 -- Set_Msg_Insertion_Reserved_Name --
1270 -------------------------------------
1272 procedure Set_Msg_Insertion_Reserved_Name is
1273 begin
1274 Set_Msg_Blank_Conditional;
1275 Get_Name_String (Error_Msg_Name_1);
1276 Set_Msg_Quote;
1277 Set_Casing (Keyword_Casing (Flag_Source), All_Lower_Case);
1278 Set_Msg_Name_Buffer;
1279 Set_Msg_Quote;
1280 end Set_Msg_Insertion_Reserved_Name;
1282 -------------------------------------
1283 -- Set_Msg_Insertion_Reserved_Word --
1284 -------------------------------------
1286 procedure Set_Msg_Insertion_Reserved_Word
1287 (Text : String;
1288 J : in out Integer)
1290 begin
1291 Set_Msg_Blank_Conditional;
1292 Name_Len := 0;
1294 while J <= Text'Last and then Text (J) in 'A' .. 'Z' loop
1295 Add_Char_To_Name_Buffer (Text (J));
1296 J := J + 1;
1297 end loop;
1299 -- Here is where we make the special exception for RM
1301 if Name_Len = 2 and then Name_Buffer (1 .. 2) = "RM" then
1302 Set_Msg_Name_Buffer;
1304 -- We make a similar exception for SPARK
1306 elsif Name_Len = 5 and then Name_Buffer (1 .. 5) = "SPARK" then
1307 Set_Msg_Name_Buffer;
1309 -- Neither RM nor SPARK: case appropriately and add surrounding quotes
1311 else
1312 Set_Casing (Keyword_Casing (Flag_Source), All_Lower_Case);
1313 Set_Msg_Quote;
1314 Set_Msg_Name_Buffer;
1315 Set_Msg_Quote;
1316 end if;
1317 end Set_Msg_Insertion_Reserved_Word;
1319 -------------------------------------
1320 -- Set_Msg_Insertion_Run_Time_Name --
1321 -------------------------------------
1323 procedure Set_Msg_Insertion_Run_Time_Name is
1324 begin
1325 if Targparm.Run_Time_Name_On_Target /= No_Name then
1326 Set_Msg_Blank_Conditional;
1327 Set_Msg_Char ('(');
1328 Get_Name_String (Targparm.Run_Time_Name_On_Target);
1329 Set_Casing (Mixed_Case);
1330 Set_Msg_Str (Name_Buffer (1 .. Name_Len));
1331 Set_Msg_Char (')');
1332 end if;
1333 end Set_Msg_Insertion_Run_Time_Name;
1335 ----------------------------
1336 -- Set_Msg_Insertion_Uint --
1337 ----------------------------
1339 procedure Set_Msg_Insertion_Uint is
1340 begin
1341 Set_Msg_Blank;
1342 UI_Image (Error_Msg_Uint_1);
1344 for J in 1 .. UI_Image_Length loop
1345 Set_Msg_Char (UI_Image_Buffer (J));
1346 end loop;
1348 -- The following assignment ensures that a second caret insertion
1349 -- character will correspond to the Error_Msg_Uint_2 parameter. We
1350 -- suppress possible validity checks in case operating in -gnatVa mode,
1351 -- and Error_Msg_Uint_2 is not needed and has not been set.
1353 declare
1354 pragma Suppress (Range_Check);
1355 begin
1356 Error_Msg_Uint_1 := Error_Msg_Uint_2;
1357 end;
1358 end Set_Msg_Insertion_Uint;
1360 -----------------
1361 -- Set_Msg_Int --
1362 -----------------
1364 procedure Set_Msg_Int (Line : Int) is
1365 begin
1366 if Line > 9 then
1367 Set_Msg_Int (Line / 10);
1368 end if;
1370 Set_Msg_Char (Character'Val (Character'Pos ('0') + (Line rem 10)));
1371 end Set_Msg_Int;
1373 -------------------------
1374 -- Set_Msg_Name_Buffer --
1375 -------------------------
1377 procedure Set_Msg_Name_Buffer is
1378 begin
1379 Set_Msg_Str (Name_Buffer (1 .. Name_Len));
1380 end Set_Msg_Name_Buffer;
1382 -------------------
1383 -- Set_Msg_Quote --
1384 -------------------
1386 procedure Set_Msg_Quote is
1387 begin
1388 if not Manual_Quote_Mode then
1389 Set_Msg_Char ('"');
1390 end if;
1391 end Set_Msg_Quote;
1393 -----------------
1394 -- Set_Msg_Str --
1395 -----------------
1397 procedure Set_Msg_Str (Text : String) is
1398 begin
1399 -- Do replacement for special x'Class aspect names
1401 if Text = "_Pre" then
1402 Set_Msg_Str ("Pre'Class");
1404 elsif Text = "_Post" then
1405 Set_Msg_Str ("Post'Class");
1407 elsif Text = "_Type_Invariant" then
1408 Set_Msg_Str ("Type_Invariant'Class");
1410 elsif Text = "_pre" then
1411 Set_Msg_Str ("pre'class");
1413 elsif Text = "_post" then
1414 Set_Msg_Str ("post'class");
1416 elsif Text = "_type_invariant" then
1417 Set_Msg_Str ("type_invariant'class");
1419 elsif Text = "_PRE" then
1420 Set_Msg_Str ("PRE'CLASS");
1422 elsif Text = "_POST" then
1423 Set_Msg_Str ("POST'CLASS");
1425 elsif Text = "_TYPE_INVARIANT" then
1426 Set_Msg_Str ("TYPE_INVARIANT'CLASS");
1428 -- Normal case with no replacement
1430 else
1431 for J in Text'Range loop
1432 Set_Msg_Char (Text (J));
1433 end loop;
1434 end if;
1435 end Set_Msg_Str;
1437 ------------------------------
1438 -- Set_Next_Non_Deleted_Msg --
1439 ------------------------------
1441 procedure Set_Next_Non_Deleted_Msg (E : in out Error_Msg_Id) is
1442 begin
1443 if E = No_Error_Msg then
1444 return;
1446 else
1447 loop
1448 E := Errors.Table (E).Next;
1449 exit when E = No_Error_Msg or else not Errors.Table (E).Deleted;
1450 end loop;
1451 end if;
1452 end Set_Next_Non_Deleted_Msg;
1454 ------------------------------
1455 -- Set_Specific_Warning_Off --
1456 ------------------------------
1458 procedure Set_Specific_Warning_Off
1459 (Loc : Source_Ptr;
1460 Msg : String;
1461 Reason : String_Id;
1462 Config : Boolean;
1463 Used : Boolean := False)
1465 begin
1466 Specific_Warnings.Append
1467 ((Start => Loc,
1468 Msg => new String'(Msg),
1469 Stop => Source_Last (Get_Source_File_Index (Loc)),
1470 Reason => Reason,
1471 Open => True,
1472 Used => Used,
1473 Config => Config));
1474 end Set_Specific_Warning_Off;
1476 -----------------------------
1477 -- Set_Specific_Warning_On --
1478 -----------------------------
1480 procedure Set_Specific_Warning_On
1481 (Loc : Source_Ptr;
1482 Msg : String;
1483 Err : out Boolean)
1485 begin
1486 for J in 1 .. Specific_Warnings.Last loop
1487 declare
1488 SWE : Specific_Warning_Entry renames Specific_Warnings.Table (J);
1490 begin
1491 if Msg = SWE.Msg.all
1492 and then Loc > SWE.Start
1493 and then SWE.Open
1494 and then Get_Source_File_Index (SWE.Start) =
1495 Get_Source_File_Index (Loc)
1496 then
1497 SWE.Stop := Loc;
1498 SWE.Open := False;
1499 Err := False;
1501 -- If a config pragma is specifically cancelled, consider
1502 -- that it is no longer active as a configuration pragma.
1504 SWE.Config := False;
1505 return;
1506 end if;
1507 end;
1508 end loop;
1510 Err := True;
1511 end Set_Specific_Warning_On;
1513 ---------------------------
1514 -- Set_Warnings_Mode_Off --
1515 ---------------------------
1517 procedure Set_Warnings_Mode_Off (Loc : Source_Ptr; Reason : String_Id) is
1518 begin
1519 -- Don't bother with entries from instantiation copies, since we will
1520 -- already have a copy in the template, which is what matters.
1522 if Instantiation (Get_Source_File_Index (Loc)) /= No_Location then
1523 return;
1524 end if;
1526 -- If all warnings are suppressed by command line switch, this can
1527 -- be ignored, unless we are in GNATprove_Mode which requires pragma
1528 -- Warnings to be stored for the formal verification backend.
1530 if Warning_Mode = Suppress
1531 and then not GNATprove_Mode
1532 then
1533 return;
1534 end if;
1536 -- If last entry in table already covers us, this is a redundant pragma
1537 -- Warnings (Off) and can be ignored.
1539 if Warnings.Last >= Warnings.First
1540 and then Warnings.Table (Warnings.Last).Start <= Loc
1541 and then Loc <= Warnings.Table (Warnings.Last).Stop
1542 then
1543 return;
1544 end if;
1546 -- If none of those special conditions holds, establish a new entry,
1547 -- extending from the location of the pragma to the end of the current
1548 -- source file. This ending point will be adjusted by a subsequent
1549 -- corresponding pragma Warnings (On).
1551 Warnings.Append
1552 ((Start => Loc,
1553 Stop => Source_Last (Get_Source_File_Index (Loc)),
1554 Reason => Reason));
1555 end Set_Warnings_Mode_Off;
1557 --------------------------
1558 -- Set_Warnings_Mode_On --
1559 --------------------------
1561 procedure Set_Warnings_Mode_On (Loc : Source_Ptr) is
1562 begin
1563 -- Don't bother with entries from instantiation copies, since we will
1564 -- already have a copy in the template, which is what matters.
1566 if Instantiation (Get_Source_File_Index (Loc)) /= No_Location then
1567 return;
1568 end if;
1570 -- If all warnings are suppressed by command line switch, this can
1571 -- be ignored, unless we are in GNATprove_Mode which requires pragma
1572 -- Warnings to be stored for the formal verification backend.
1574 if Warning_Mode = Suppress
1575 and then not GNATprove_Mode
1576 then
1577 return;
1578 end if;
1580 -- If the last entry in the warnings table covers this pragma, then
1581 -- we adjust the end point appropriately.
1583 if Warnings.Last >= Warnings.First
1584 and then Warnings.Table (Warnings.Last).Start <= Loc
1585 and then Loc <= Warnings.Table (Warnings.Last).Stop
1586 then
1587 Warnings.Table (Warnings.Last).Stop := Loc;
1588 end if;
1589 end Set_Warnings_Mode_On;
1591 --------------------------------
1592 -- Validate_Specific_Warnings --
1593 --------------------------------
1595 procedure Validate_Specific_Warnings (Eproc : Error_Msg_Proc) is
1596 begin
1597 if not Warn_On_Warnings_Off then
1598 return;
1599 end if;
1601 for J in Specific_Warnings.First .. Specific_Warnings.Last loop
1602 declare
1603 SWE : Specific_Warning_Entry renames Specific_Warnings.Table (J);
1605 begin
1606 if not SWE.Config then
1608 -- Warn for unmatched Warnings (Off, ...)
1610 if SWE.Open then
1611 Eproc.all
1612 ("?W?pragma Warnings Off with no matching Warnings On",
1613 SWE.Start);
1615 -- Warn for ineffective Warnings (Off, ..)
1617 elsif not SWE.Used
1619 -- Do not issue this warning for -Wxxx messages since the
1620 -- back-end doesn't report the information. Note that there
1621 -- is always an asterisk at the start of every message.
1623 and then not
1624 (SWE.Msg'Length > 3 and then SWE.Msg (2 .. 3) = "-W")
1625 then
1626 Eproc.all
1627 ("?W?no warning suppressed by this pragma", SWE.Start);
1628 end if;
1629 end if;
1630 end;
1631 end loop;
1632 end Validate_Specific_Warnings;
1634 -------------------------------------
1635 -- Warning_Specifically_Suppressed --
1636 -------------------------------------
1638 function Warning_Specifically_Suppressed
1639 (Loc : Source_Ptr;
1640 Msg : String_Ptr;
1641 Tag : String := "") return String_Id
1643 begin
1644 -- Loop through specific warning suppression entries
1646 for J in Specific_Warnings.First .. Specific_Warnings.Last loop
1647 declare
1648 SWE : Specific_Warning_Entry renames Specific_Warnings.Table (J);
1650 begin
1651 -- Pragma applies if it is a configuration pragma, or if the
1652 -- location is in range of a specific non-configuration pragma.
1654 if SWE.Config
1655 or else (SWE.Start <= Loc and then Loc <= SWE.Stop)
1656 then
1657 if Matches (Msg.all, SWE.Msg.all)
1658 or else Matches (Tag, SWE.Msg.all)
1659 then
1660 SWE.Used := True;
1661 return SWE.Reason;
1662 end if;
1663 end if;
1664 end;
1665 end loop;
1667 return No_String;
1668 end Warning_Specifically_Suppressed;
1670 ------------------------------
1671 -- Warning_Treated_As_Error --
1672 ------------------------------
1674 function Warning_Treated_As_Error (Msg : String) return Boolean is
1675 begin
1676 for J in 1 .. Warnings_As_Errors_Count loop
1677 if Matches (Msg, Warnings_As_Errors (J).all) then
1678 return True;
1679 end if;
1680 end loop;
1682 return False;
1683 end Warning_Treated_As_Error;
1685 -------------------------
1686 -- Warnings_Suppressed --
1687 -------------------------
1689 function Warnings_Suppressed (Loc : Source_Ptr) return String_Id is
1690 begin
1691 -- Loop through table of ON/OFF warnings
1693 for J in Warnings.First .. Warnings.Last loop
1694 if Warnings.Table (J).Start <= Loc
1695 and then Loc <= Warnings.Table (J).Stop
1696 then
1697 return Warnings.Table (J).Reason;
1698 end if;
1699 end loop;
1701 if Warning_Mode = Suppress then
1702 return Null_String_Id;
1703 else
1704 return No_String;
1705 end if;
1706 end Warnings_Suppressed;
1708 end Erroutc;