2015-06-23 Paolo Carlini <paolo.carlini@oracle.com>
[official-gcc.git] / gcc / ada / par-util.adb
blobec9a916be0b99ad9282f72ee056d53d00aae3bf2
1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT COMPILER COMPONENTS --
4 -- --
5 -- P A R . U T I L --
6 -- --
7 -- B o d y --
8 -- --
9 -- Copyright (C) 1992-2013, 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 with Csets; use Csets;
27 with Namet.Sp; use Namet.Sp;
28 with Stylesw; use Stylesw;
29 with Uintp; use Uintp;
30 with Warnsw; use Warnsw;
32 with GNAT.Spelling_Checker; use GNAT.Spelling_Checker;
34 separate (Par)
35 package body Util is
37 ---------------------
38 -- Bad_Spelling_Of --
39 ---------------------
41 function Bad_Spelling_Of (T : Token_Type) return Boolean is
42 Tname : constant String := Token_Type'Image (T);
43 -- Characters of token name
45 S : String (1 .. Tname'Last - 4);
46 -- Characters of token name folded to lower case, omitting TOK_ at start
48 M1 : String (1 .. 42) := "incorrect spelling of keyword ************";
49 M2 : String (1 .. 44) := "illegal abbreviation of keyword ************";
50 -- Buffers used to construct error message
52 P1 : constant := 30;
53 P2 : constant := 32;
54 -- Starting subscripts in M1, M2 for keyword name
56 SL : constant Natural := S'Length;
57 -- Length of expected token name excluding TOK_ at start
59 begin
60 if Token /= Tok_Identifier then
61 return False;
62 end if;
64 for J in S'Range loop
65 S (J) := Fold_Lower (Tname (J + 4));
66 end loop;
68 Get_Name_String (Token_Name);
70 -- A special check for case of PROGRAM used for PROCEDURE
72 if T = Tok_Procedure
73 and then Name_Len = 7
74 and then Name_Buffer (1 .. 7) = "program"
75 then
76 Error_Msg_SC -- CODEFIX
77 ("PROCEDURE expected");
78 Token := T;
79 return True;
81 -- A special check for an illegal abbreviation
83 elsif Name_Len < S'Length
84 and then Name_Len >= 4
85 and then Name_Buffer (1 .. Name_Len) = S (1 .. Name_Len)
86 then
87 for J in 1 .. S'Last loop
88 M2 (P2 + J - 1) := Fold_Upper (S (J));
89 end loop;
91 Error_Msg_SC (M2 (1 .. P2 - 1 + S'Last));
92 Token := T;
93 return True;
94 end if;
96 -- Now we go into the full circuit to check for a misspelling
98 -- Never consider something a misspelling if either the actual or
99 -- expected string is less than 3 characters (before this check we
100 -- used to consider i to be a misspelled if in some cases).
102 if SL < 3 or else Name_Len < 3 then
103 return False;
105 -- Special case: prefix matches, i.e. the leading characters of the
106 -- token that we have exactly match the required keyword. If there
107 -- are at least two characters left over, assume that we have a case
108 -- of two keywords joined together which should not be joined.
110 elsif Name_Len > SL + 1
111 and then S = Name_Buffer (1 .. SL)
112 then
113 Scan_Ptr := Token_Ptr + S'Length;
114 Error_Msg_S ("|missing space");
115 Token := T;
116 return True;
117 end if;
119 if Is_Bad_Spelling_Of (Name_Buffer (1 .. Name_Len), S) then
120 for J in 1 .. S'Last loop
121 M1 (P1 + J - 1) := Fold_Upper (S (J));
122 end loop;
124 Error_Msg_SC -- CODFIX
125 (M1 (1 .. P1 - 1 + S'Last));
126 Token := T;
127 return True;
129 else
130 return False;
131 end if;
132 end Bad_Spelling_Of;
134 ----------------------
135 -- Check_95_Keyword --
136 ----------------------
138 -- On entry, the caller has checked that current token is an identifier
139 -- whose name matches the name of the 95 keyword New_Tok.
141 procedure Check_95_Keyword (Token_95, Next : Token_Type) is
142 Scan_State : Saved_Scan_State;
144 begin
145 Save_Scan_State (Scan_State); -- at identifier/keyword
146 Scan; -- past identifier/keyword
148 if Token = Next then
149 Restore_Scan_State (Scan_State); -- to identifier
150 Error_Msg_Name_1 := Token_Name;
151 Error_Msg_SC ("(Ada 83) keyword* cannot be used!");
152 Token := Token_95;
153 else
154 Restore_Scan_State (Scan_State); -- to identifier
155 end if;
156 end Check_95_Keyword;
158 ----------------------
159 -- Check_Bad_Layout --
160 ----------------------
162 procedure Check_Bad_Layout is
163 begin
164 if RM_Column_Check and then Token_Is_At_Start_Of_Line
165 and then Start_Column <= Scope.Table (Scope.Last).Ecol
166 then
167 Error_Msg_BC -- CODEFIX
168 ("(style) incorrect layout");
169 end if;
170 end Check_Bad_Layout;
172 --------------------------
173 -- Check_Future_Keyword --
174 --------------------------
176 procedure Check_Future_Keyword is
177 begin
178 -- Ada 2005 (AI-284): Compiling in Ada 95 mode we warn that INTERFACE,
179 -- OVERRIDING, and SYNCHRONIZED are new reserved words.
181 if Ada_Version = Ada_95
182 and then Warn_On_Ada_2005_Compatibility
183 then
184 if Nam_In (Token_Name, Name_Overriding, Name_Synchronized)
185 or else (Token_Name = Name_Interface
186 and then Prev_Token /= Tok_Pragma)
187 then
188 Error_Msg_N ("& is a reserved word in Ada 2005?y?", Token_Node);
189 end if;
190 end if;
192 -- Similarly, warn about Ada 2012 reserved words
194 if Ada_Version in Ada_95 .. Ada_2005
195 and then Warn_On_Ada_2012_Compatibility
196 then
197 if Token_Name = Name_Some then
198 Error_Msg_N ("& is a reserved word in Ada 2012?y?", Token_Node);
199 end if;
200 end if;
202 -- Note: we deliberately do not emit these warnings when operating in
203 -- Ada 83 mode because in that case we assume the user is building
204 -- legacy code anyway and is not interested in updating Ada versions.
206 end Check_Future_Keyword;
208 --------------------------
209 -- Check_Misspelling_Of --
210 --------------------------
212 procedure Check_Misspelling_Of (T : Token_Type) is
213 begin
214 if Bad_Spelling_Of (T) then
215 null;
216 end if;
217 end Check_Misspelling_Of;
219 -----------------------------
220 -- Check_Simple_Expression --
221 -----------------------------
223 procedure Check_Simple_Expression (E : Node_Id) is
224 begin
225 if Expr_Form = EF_Non_Simple then
226 Error_Msg_N ("this expression must be parenthesized", E);
227 end if;
228 end Check_Simple_Expression;
230 ---------------------------------------
231 -- Check_Simple_Expression_In_Ada_83 --
232 ---------------------------------------
234 procedure Check_Simple_Expression_In_Ada_83 (E : Node_Id) is
235 begin
236 if Expr_Form = EF_Non_Simple then
237 if Ada_Version = Ada_83 then
238 Error_Msg_N ("(Ada 83) this expression must be parenthesized!", E);
239 end if;
240 end if;
241 end Check_Simple_Expression_In_Ada_83;
243 ------------------------
244 -- Check_Subtype_Mark --
245 ------------------------
247 function Check_Subtype_Mark (Mark : Node_Id) return Node_Id is
248 begin
249 if Nkind (Mark) = N_Identifier
250 or else Nkind (Mark) = N_Selected_Component
251 or else (Nkind (Mark) = N_Attribute_Reference
252 and then Is_Type_Attribute_Name (Attribute_Name (Mark)))
253 or else Mark = Error
254 then
255 return Mark;
256 else
257 Error_Msg ("subtype mark expected", Sloc (Mark));
258 return Error;
259 end if;
260 end Check_Subtype_Mark;
262 -------------------
263 -- Comma_Present --
264 -------------------
266 function Comma_Present return Boolean is
267 Scan_State : Saved_Scan_State;
268 Paren_Count : Nat;
270 begin
271 -- First check, if a comma is present, then a comma is present
273 if Token = Tok_Comma then
274 T_Comma;
275 return True;
277 -- If we have a right paren, then that is taken as ending the list
278 -- i.e. no comma is present.
280 elsif Token = Tok_Right_Paren then
281 return False;
283 -- If pragmas, then get rid of them and make a recursive call
284 -- to process what follows these pragmas.
286 elsif Token = Tok_Pragma then
287 P_Pragmas_Misplaced;
288 return Comma_Present;
290 -- At this stage we have an error, and the goal is to decide on whether
291 -- or not we should diagnose an error and report a (non-existent)
292 -- comma as being present, or simply to report no comma is present
294 -- If we are a semicolon, then the question is whether we have a missing
295 -- right paren, or whether the semicolon should have been a comma. To
296 -- guess the right answer, we scan ahead keeping track of the paren
297 -- level, looking for a clue that helps us make the right decision.
299 -- This approach is highly accurate in the single error case, and does
300 -- not make bad mistakes in the multiple error case (indeed we can't
301 -- really make a very bad decision at this point in any case).
303 elsif Token = Tok_Semicolon then
304 Save_Scan_State (Scan_State);
305 Scan; -- past semicolon
307 -- Check for being followed by identifier => which almost certainly
308 -- means we are still in a parameter list and the comma should have
309 -- been a semicolon (such a sequence could not follow a semicolon)
311 if Token = Tok_Identifier then
312 Scan;
314 if Token = Tok_Arrow then
315 goto Assume_Comma;
316 end if;
317 end if;
319 -- If that test didn't work, loop ahead looking for a comma or
320 -- semicolon at the same parenthesis level. Always remember that
321 -- we can't go badly wrong in an error situation like this.
323 Paren_Count := 0;
325 -- Here is the look ahead loop, Paren_Count tells us whether the
326 -- token we are looking at is at the same paren level as the
327 -- suspicious semicolon that we are trying to figure out.
329 loop
331 -- If we hit another semicolon or an end of file, and we have
332 -- not seen a right paren or another comma on the way, then
333 -- probably the semicolon did end the list. Indeed that is
334 -- certainly the only single error correction possible here.
336 if Token = Tok_Semicolon or else Token = Tok_EOF then
337 Restore_Scan_State (Scan_State);
338 return False;
340 -- A comma at the same paren level as the semicolon is a strong
341 -- indicator that the semicolon should have been a comma, indeed
342 -- again this is the only possible single error correction.
344 elsif Token = Tok_Comma then
345 exit when Paren_Count = 0;
347 -- A left paren just bumps the paren count
349 elsif Token = Tok_Left_Paren then
350 Paren_Count := Paren_Count + 1;
352 -- A right paren that is at the same paren level as the semicolon
353 -- also means that the only possible single error correction is
354 -- to assume that the semicolon should have been a comma. If we
355 -- are not at the same paren level, then adjust the paren level.
357 elsif Token = Tok_Right_Paren then
358 exit when Paren_Count = 0;
359 Paren_Count := Paren_Count - 1;
360 end if;
362 -- Keep going, we haven't made a decision yet
364 Scan;
365 end loop;
367 -- If we fall through the loop, it means that we found a terminating
368 -- right paren or another comma. In either case it is reasonable to
369 -- assume that the semicolon was really intended to be a comma. Also
370 -- come here for the identifier arrow case.
372 <<Assume_Comma>>
373 Restore_Scan_State (Scan_State);
374 Error_Msg_SC -- CODEFIX
375 ("|"";"" should be "",""");
376 Scan; -- past the semicolon
377 return True;
379 -- If we are not at semicolon or a right paren, then we base the
380 -- decision on whether or not the next token can be part of an
381 -- expression. If not, then decide that no comma is present (the
382 -- caller will eventually generate a missing right parent message)
384 elsif Token in Token_Class_Eterm then
385 return False;
387 -- Otherwise we assume a comma is present, even if none is present,
388 -- since the next token must be part of an expression, so if we were
389 -- at the end of the list, then there is more than one error present.
391 else
392 T_Comma; -- to give error
393 return True;
394 end if;
395 end Comma_Present;
397 -----------------------
398 -- Discard_Junk_List --
399 -----------------------
401 procedure Discard_Junk_List (L : List_Id) is
402 pragma Warnings (Off, L);
403 begin
404 null;
405 end Discard_Junk_List;
407 -----------------------
408 -- Discard_Junk_Node --
409 -----------------------
411 procedure Discard_Junk_Node (N : Node_Id) is
412 pragma Warnings (Off, N);
413 begin
414 null;
415 end Discard_Junk_Node;
417 ------------
418 -- Ignore --
419 ------------
421 procedure Ignore (T : Token_Type) is
422 begin
423 while Token = T loop
424 if T = Tok_Comma then
425 Error_Msg_SC -- CODEFIX
426 ("|extra "","" ignored");
428 elsif T = Tok_Left_Paren then
429 Error_Msg_SC -- CODEFIX
430 ("|extra ""("" ignored");
432 -- Note: the following error used to be labeled as a non-serious
433 -- error like the other similar messages here (with a | at the start
434 -- of the message). But this caused some annoying cascaded errors
435 -- that were confusing, as shown by this example:
437 -- A : array (1 .. 9) of Integer :=
438 -- ((1 .. 2) => 0,
439 -- 1 2 3
440 -- >>> positional aggregate cannot have one component
441 -- >>> named association cannot follow positional association
442 -- >>> extra ")" ignored
444 -- So we decided to label it as serious after all
446 elsif T = Tok_Right_Paren then
447 Error_Msg_SC -- CODEFIX
448 ("extra "")"" ignored");
450 elsif T = Tok_Semicolon then
451 Error_Msg_SC -- CODEFIX
452 ("|extra "";"" ignored");
454 elsif T = Tok_Colon then
455 Error_Msg_SC -- CODEFIX
456 ("|extra "":"" ignored");
458 else
459 declare
460 Tname : constant String := Token_Type'Image (Token);
461 begin
462 Error_Msg_SC ("|extra " & Tname (5 .. Tname'Last) & "ignored");
463 end;
464 end if;
466 Scan; -- Scan past ignored token
467 end loop;
468 end Ignore;
470 ----------------------------
471 -- Is_Reserved_Identifier --
472 ----------------------------
474 function Is_Reserved_Identifier (C : Id_Check := None) return Boolean is
475 begin
476 if not Is_Reserved_Keyword (Token) then
477 return False;
479 else
480 declare
481 Ident_Casing : constant Casing_Type :=
482 Identifier_Casing (Current_Source_File);
483 Key_Casing : constant Casing_Type :=
484 Keyword_Casing (Current_Source_File);
486 begin
487 -- If the casing of identifiers and keywords is different in
488 -- this source file, and the casing of this token matches the
489 -- keyword casing, then we return False, since it is pretty
490 -- clearly intended to be a keyword.
492 if Ident_Casing = Unknown
493 or else Key_Casing = Unknown
494 or else Ident_Casing = Key_Casing
495 or else Determine_Token_Casing /= Key_Casing
496 then
497 return True;
499 -- Here we have a keyword written clearly with keyword casing.
500 -- In default mode, we would not be willing to consider this as
501 -- a reserved identifier, but if C is set, we may still accept it
503 elsif C /= None then
504 declare
505 Scan_State : Saved_Scan_State;
506 OK_Next_Tok : Boolean;
508 begin
509 Save_Scan_State (Scan_State);
510 Scan;
512 if Token_Is_At_Start_Of_Line then
513 return False;
514 end if;
516 case C is
517 when None =>
518 raise Program_Error;
520 when C_Comma_Right_Paren =>
521 OK_Next_Tok :=
522 Token = Tok_Comma or else Token = Tok_Right_Paren;
524 when C_Comma_Colon =>
525 OK_Next_Tok :=
526 Token = Tok_Comma or else Token = Tok_Colon;
528 when C_Do =>
529 OK_Next_Tok :=
530 Token = Tok_Do;
532 when C_Dot =>
533 OK_Next_Tok :=
534 Token = Tok_Dot;
536 when C_Greater_Greater =>
537 OK_Next_Tok :=
538 Token = Tok_Greater_Greater;
540 when C_In =>
541 OK_Next_Tok :=
542 Token = Tok_In;
544 when C_Is =>
545 OK_Next_Tok :=
546 Token = Tok_Is;
548 when C_Left_Paren_Semicolon =>
549 OK_Next_Tok :=
550 Token = Tok_Left_Paren or else Token = Tok_Semicolon;
552 when C_Use =>
553 OK_Next_Tok :=
554 Token = Tok_Use;
556 when C_Vertical_Bar_Arrow =>
557 OK_Next_Tok :=
558 Token = Tok_Vertical_Bar or else Token = Tok_Arrow;
559 end case;
561 Restore_Scan_State (Scan_State);
563 if OK_Next_Tok then
564 return True;
565 end if;
566 end;
567 end if;
568 end;
569 end if;
571 -- If we fall through it is not a reserved identifier
573 return False;
574 end Is_Reserved_Identifier;
576 ----------------------
577 -- Merge_Identifier --
578 ----------------------
580 procedure Merge_Identifier (Prev : Node_Id; Nxt : Token_Type) is
581 begin
582 if Token /= Tok_Identifier then
583 return;
584 end if;
586 declare
587 S : Saved_Scan_State;
588 T : Token_Type;
590 begin
591 Save_Scan_State (S);
592 Scan;
593 T := Token;
594 Restore_Scan_State (S);
596 if T /= Nxt then
597 return;
598 end if;
599 end;
601 -- Check exactly one space between identifiers
603 if Source (Token_Ptr - 1) /= ' '
604 or else Int (Token_Ptr) /=
605 Int (Prev_Token_Ptr) + Length_Of_Name (Chars (Prev)) + 1
606 then
607 return;
608 end if;
610 -- Do the merge
612 Get_Name_String (Chars (Token_Node));
614 declare
615 Buf : constant String (1 .. Name_Len) :=
616 Name_Buffer (1 .. Name_Len);
618 begin
619 Get_Name_String (Chars (Prev));
620 Add_Char_To_Name_Buffer ('_');
621 Add_Str_To_Name_Buffer (Buf);
622 Set_Chars (Prev, Name_Find);
623 end;
625 Error_Msg_Node_1 := Prev;
626 Error_Msg_SC ("unexpected identifier, possibly & was meant here");
627 Scan;
628 end Merge_Identifier;
630 -------------------
631 -- Next_Token_Is --
632 -------------------
634 function Next_Token_Is (Tok : Token_Type) return Boolean is
635 Scan_State : Saved_Scan_State;
636 Result : Boolean;
637 begin
638 Save_Scan_State (Scan_State);
639 Scan;
640 Result := (Token = Tok);
641 Restore_Scan_State (Scan_State);
642 return Result;
643 end Next_Token_Is;
645 -------------------
646 -- No_Constraint --
647 -------------------
649 procedure No_Constraint is
650 begin
651 -- If we have a token that could start a constraint on the same line
652 -- then cnsider this an illegal constraint. It seems unlikely it could
653 -- be anything else if it is on the same line.
655 if Token in Token_Class_Consk then
656 Error_Msg_SC ("constraint not allowed here");
657 Discard_Junk_Node (P_Constraint_Opt);
658 end if;
659 end No_Constraint;
661 ---------------------
662 -- Pop_Scope_Stack --
663 ---------------------
665 procedure Pop_Scope_Stack is
666 begin
667 pragma Assert (Scope.Last > 0);
668 Scope.Decrement_Last;
670 if Debug_Flag_P then
671 Error_Msg_Uint_1 := UI_From_Int (Scope.Last);
672 Error_Msg_SC ("decrement scope stack ptr, new value = ^!");
673 end if;
674 end Pop_Scope_Stack;
676 ----------------------
677 -- Push_Scope_Stack --
678 ----------------------
680 procedure Push_Scope_Stack is
681 begin
682 Scope.Increment_Last;
684 if Style_Check_Max_Nesting_Level
685 and then Scope.Last = Style_Max_Nesting_Level + 1
686 then
687 Error_Msg
688 ("(style) maximum nesting level exceeded",
689 First_Non_Blank_Location);
690 end if;
692 Scope.Table (Scope.Last).Junk := False;
693 Scope.Table (Scope.Last).Node := Empty;
695 if Debug_Flag_P then
696 Error_Msg_Uint_1 := UI_From_Int (Scope.Last);
697 Error_Msg_SC ("increment scope stack ptr, new value = ^!");
698 end if;
699 end Push_Scope_Stack;
701 ----------------------
702 -- Separate_Present --
703 ----------------------
705 function Separate_Present return Boolean is
706 Scan_State : Saved_Scan_State;
708 begin
709 if Token = Tok_Separate then
710 return True;
712 elsif Token /= Tok_Identifier then
713 return False;
715 else
716 Save_Scan_State (Scan_State);
717 Scan; -- past identifier
719 if Token = Tok_Semicolon then
720 Restore_Scan_State (Scan_State);
721 return Bad_Spelling_Of (Tok_Separate);
723 else
724 Restore_Scan_State (Scan_State);
725 return False;
726 end if;
727 end if;
728 end Separate_Present;
730 --------------------------
731 -- Signal_Bad_Attribute --
732 --------------------------
734 procedure Signal_Bad_Attribute is
735 begin
736 Bad_Attribute (Token_Node, Token_Name, Warn => False);
737 end Signal_Bad_Attribute;
739 -----------------------------
740 -- Token_Is_At_End_Of_Line --
741 -----------------------------
743 function Token_Is_At_End_Of_Line return Boolean is
744 S : Source_Ptr;
746 begin
747 -- Skip past blanks and horizontal tabs
749 S := Scan_Ptr;
750 while Source (S) = ' ' or else Source (S) = ASCII.HT loop
751 S := S + 1;
752 end loop;
754 -- We are at end of line if at a control character (CR/LF/VT/FF/EOF)
755 -- or if we are at the start of an end of line comment sequence.
757 return Source (S) < ' '
758 or else (Source (S) = '-' and then Source (S + 1) = '-');
759 end Token_Is_At_End_Of_Line;
761 -------------------------------
762 -- Token_Is_At_Start_Of_Line --
763 -------------------------------
765 function Token_Is_At_Start_Of_Line return Boolean is
766 begin
767 return (Token_Ptr = First_Non_Blank_Location or else Token = Tok_EOF);
768 end Token_Is_At_Start_Of_Line;
770 -----------------------------------
771 -- Warn_If_Standard_Redefinition --
772 -----------------------------------
774 procedure Warn_If_Standard_Redefinition (N : Node_Id) is
775 begin
776 if Warn_On_Standard_Redefinition then
777 declare
778 C : constant Entity_Id := Current_Entity (N);
779 begin
780 if Present (C) and then Sloc (C) = Standard_Location then
781 Error_Msg_N ("redefinition of entity& in Standard?K?", N);
782 end if;
783 end;
784 end if;
785 end Warn_If_Standard_Redefinition;
787 end Util;