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1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT COMPILER COMPONENTS --
4 -- --
5 -- P A R . E N D H --
6 -- --
7 -- B o d y --
8 -- --
9 -- Copyright (C) 1992-2016, 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 ------------------------------------------------------------------------------
35 ----------------
36 -- Local Data --
37 ----------------
40 -- Type used to describe the result of the Pop_End_Context call
42 Accept_As_Scanned,
43 -- Current end sequence is entirely c correct. In this case Token and
44 -- the scan pointer are left pointing past the end sequence (i.e. they
45 -- are unchanged from the values set on entry to Pop_End_Context).
47 Insert_And_Accept,
48 -- Current end sequence is to be left in place to satisfy some outer
49 -- scope. Token and the scan pointer are set to point to the end
50 -- token, and should be left there. A message has been generated
51 -- indicating a missing end sequence. This status is also used for
52 -- the case when no end token is present.
54 Skip_And_Accept,
55 -- The end sequence is incorrect (and an error message has been
56 -- posted), but it will still be accepted. In this case Token and
57 -- the scan pointer point back to the end token, and the caller
58 -- should skip past the end sequence before proceeding.
60 Skip_And_Reject);
61 -- The end sequence is judged to belong to an unrecognized inner
62 -- scope. An appropriate message has been issued and the caller
63 -- should skip past the end sequence and then proceed as though
64 -- no end sequence had been encountered.
67 -- The variable set by Pop_End_Context call showing which of the four
68 -- decisions described above is judged the best.
71 -- Source location of END token
74 -- Set False if error is found in END line
77 -- Column of END line
80 -- Type of END expected. The special value E_Dummy is set to indicate that
81 -- no END token was present (so a missing END inserted message is needed)
84 -- Node_Id value for explicit name on END line, or for compiler supplied
85 -- name in the case where an optional name is not given. Empty if no name
86 -- appears. If non-empty, then it is either an N_Designator node for a
87 -- child unit or a node with a Chars field identifying the actual label.
90 -- Indicates that the value in End_Labl was for an explicit label
93 -- Set True if the entry is syntactically correct
96 -- Set True if the keyword in the END sequence matches, or if neither
97 -- the END sequence nor the END stack entry has a keyword.
100 -- Set True if both the END sequence and the END stack entry contained
101 -- labels (other than No_Name or Error_Name) and the labels matched.
102 -- This is a stronger condition than SYNTAX_OK, since it means that a
103 -- label was present, even in a case where it was optional. Note that
104 -- the case of no label required, and no label present does NOT set
105 -- Label_OK to True, it is True only if a positive label match is found.
108 -- Column_OK is set True if the END sequence appears in the expected column
111 -- Save state at start of END sequence, in case we decide not to eat it up
113 -----------------------
114 -- Local Subprograms --
115 -----------------------
118 -- Compare scanned END entry (as recorded by a prior call to P_End_Scan)
119 -- with a specified entry in the scope stack (the single parameter is the
120 -- entry index in the scope stack). Note that Scan is not called. The above
121 -- variables xxx_OK are set to indicate the result of the evaluation.
124 -- Determines whether the specified entry in the scope stack has an
125 -- explicit start label (i.e. one other than one that was created by
126 -- the parser when no explicit label was present).
129 -- Output a message complaining that the current END structure does not
130 -- match anything and is being deleted.
133 -- Output a message at the start of the current token which is always an
134 -- END, complaining that the END is not of the right form. The message
135 -- indicates the expected form. The information for the message is taken
136 -- from the top entry in the scope stack. The Ins parameter is True if
137 -- an end is being inserted, and false if an existing end is being
138 -- replaced. Note that in the case of a suspicious IS for the Ins case,
139 -- we do not output the message, but instead simply mark the scope stack
140 -- entry as being a case of a bad IS.
143 -- Output a message just before the current token, complaining that the
144 -- END is not of the right form. The message indicates the expected form.
145 -- The information for the message is taken from the top entry in the
146 -- scope stack. Note that in the case of a suspicious IS, we do not output
147 -- the message, but instead simply mark the scope stack entry as a bad IS.
150 -- Pop_End_Context is called after processing a construct, to pop the
151 -- top entry off the end stack. It decides on the appropriate action to
152 -- to take, signalling the result by setting End_Action as described in
153 -- the global variable section.
156 -- This function compares the two names associated with the given nodes.
157 -- If they are both simple (i.e. have Chars fields), then they have to
158 -- be the same name. Otherwise they must both be N_Selected_Component
159 -- nodes, referring to the same set of names, or Label1 is an N_Designator
160 -- referring to the same set of names as the N_Defining_Program_Unit_Name
161 -- in Label2. Any other combination returns False. This routine is used
162 -- to compare the End_Labl scanned from the End line with the saved label
163 -- value in the scope stack.
165 ---------------
166 -- Check_End --
167 ---------------
169 function Check_End
172 is
174 -- Set True if the name on an END line is on a separate source line
175 -- from the END. This is highly suspicious, but is allowed. The point
176 -- is that we want to make sure that we don't just have a missing
177 -- semicolon misleading us into swallowing an identifier from the
178 -- following line.
181 -- Save state at start of name if Name_On_Separate_Line is TRUE
185 begin
189 -- Our first task is to scan out the END sequence if one is present.
190 -- If none is present, signal by setting End_Type to E_Dummy.
195 else
202 -- Set End_Span if expected. Note that this will be useless
203 -- if we do not have the right ending keyword, but in this
204 -- case we have a malformed program anyway, and the setting
205 -- of End_Span will simply be unreliable in this case anyway.
211 -- Cases of keywords where no label is allowed
233 -- Cases which do allow labels
235 else
236 -- LOOP
242 -- FOR or WHILE allowed (signalling error) to substitute for LOOP
243 -- if on the same line as the END.
246 and then not Token_Is_At_Start_Of_Line
247 then
252 -- Cases with no keyword
254 else
258 -- Now see if a name is present
262 Token = Tok_Operator_Symbol
263 then
267 else
274 -- We have now scanned out a name. Here is where we do a check
275 -- to catch the cases like:
276 --
277 -- end loop
278 -- X := 3;
279 --
280 -- where the missing semicolon might make us swallow up the X
281 -- as a bogus end label. In a situation like this, where the
282 -- apparent name is on a separate line, we accept it only if
283 -- it matches the label and is followed by a semicolon.
288 then
295 -- Here for case of name allowed, but no name present. We will
296 -- supply an implicit matching name, with source location set
297 -- to the scan location past the END token.
299 else
304 -- The task here is to construct a designator from the
305 -- opening label, with the components all marked as not
306 -- from source, and Is_End_Label set in the identifier
307 -- or operator symbol. The location for all components
308 -- is the current token location.
310 -- Case of child unit name
316 Chars =>
320 -- Copies a selected component or identifier
322 ---------------
323 -- Copy_Name --
324 ---------------
329 begin
331 return
333 Prefix =>
335 Selector_Name =>
338 else
345 -- Start of processing for Child_End
347 begin
350 End_Labl :=
356 -- Simple identifier case
360 then
365 then
368 End_Labl :=
377 -- Do style check for label permitted but not present. Note:
378 -- for the case of a block statement, the label is required
379 -- to be repeated, and this legality rule is enforced
380 -- independently.
382 if Style_Check
386 /= N_Block_Statement
387 then
394 -- Deal with terminating aspect specifications and following semi-
395 -- colon. We skip this in the case of END RECORD, since in this
396 -- case the aspect specifications and semicolon are handled at
397 -- a higher level.
401 -- Scan aspect specifications
405 -- Aspect specifications not allowed
409 -- Package declaration case
412 Error_Msg_SC
414 Error_Msg
418 -- Other cases where aspect specifications are not allowed
420 else
424 -- Aspect specifications allowed
426 else
430 -- If no aspect specifications, must have a semicolon
434 T_Semicolon;
436 -- Semicolon is missing. If the missing semicolon is at the end
437 -- of the line, i.e. we are at the start of the line now, then
438 -- a missing semicolon gets flagged, but is not serious enough
439 -- to consider the END statement to be bad in the sense that we
440 -- are dealing with (i.e. to be suspicious that this END is not
441 -- the END statement we are looking for).
443 -- Similarly, if we are at a colon, we flag it but a colon for
444 -- a semicolon is not serious enough to consider the END to be
445 -- incorrect. Same thing for a period in place of a semicolon.
447 elsif Token_Is_At_Start_Of_Line
450 then
451 T_Semicolon;
453 -- If the missing semicolon is not at the start of the line,
454 -- then we consider the END line to be dubious in this sense.
456 else
463 -- Now we call the Pop_End_Context routine to get a recommendation
464 -- as to what should be done with the END sequence we have scanned.
466 Pop_End_Context;
468 -- Remaining action depends on End_Action set by Pop_End_Context
472 -- Accept_As_Scanned. In this case, Pop_End_Context left Token
473 -- pointing past the last token of a syntactically correct END
477 -- Syntactically correct included the possibility of a missing
478 -- semicolon. If we do have a missing semicolon, then we have
479 -- already given a message, but now we scan out possible rubbish
480 -- on the same line as the END
482 while not Token_Is_At_Start_Of_Line
487 loop
493 -- Insert_And_Accept. In this case, Pop_End_Context has reset Token
494 -- to point to the start of the END sequence, and recommends that it
495 -- be left in place to satisfy an outer scope level END. This means
496 -- that we proceed as though an END were present, and leave the scan
497 -- pointer unchanged.
502 -- Skip_And_Accept. In this case, Pop_End_Context has reset Token
503 -- to point to the start of the END sequence. This END sequence is
504 -- syntactically incorrect, and an appropriate error message has
505 -- already been posted. Pop_End_Context recommends accepting the
506 -- END sequence as the one we want, so we skip past it and then
507 -- proceed as though an END were present.
510 End_Skip;
513 -- Skip_And_Reject. In this case, Pop_End_Context has reset Token
514 -- to point to the start of the END sequence. This END sequence is
515 -- syntactically incorrect, and an appropriate error message has
516 -- already been posted. Pop_End_Context recommends entirely ignoring
517 -- this END sequence, so we skip past it and then return False, since
518 -- as far as the caller is concerned, no END sequence is present.
521 End_Skip;
526 --------------
527 -- End Skip --
528 --------------
530 -- This procedure skips past an END sequence. On entry Token contains
531 -- Tok_End, and we know that the END sequence is syntactically incorrect,
532 -- and that an appropriate error message has already been posted. The
533 -- mission is simply to position the scan pointer to be the best guess of
534 -- the position after the END sequence. We do not issue any additional
535 -- error messages while carrying this out.
537 -- Error recovery: does not raise Error_Resync
540 begin
543 -- If the scan past the END leaves us on the next line, that's probably
544 -- where we should quit the scan, since it is likely that what we have
545 -- is a missing semicolon. Consider the following:
547 -- END
548 -- Process_Input;
550 -- This will have looked like a syntactically valid END sequence to the
551 -- initial scan of the END, but subsequent checking will have determined
552 -- that the label Process_Input is not an appropriate label. The real
553 -- error is a missing semicolon after the END, and by leaving the scan
554 -- pointer just past the END, we will improve the error recovery.
560 -- If there is a semicolon after the END, scan it out and we are done
563 T_Semicolon;
567 -- Otherwise skip past a token after the END on the same line. Note
568 -- that we do not eat a token on the following line since it seems
569 -- very unlikely in any case that the END gets separated from its
570 -- token, and we do not want to swallow up a keyword that starts a
571 -- legitimate construct following the bad END.
573 if not Token_Is_At_Start_Of_Line
574 and then
576 -- Cases of normal tokens following an END
584 -- Cases of bogus keywords ending loops
589 -- Cases of operator symbol names without quotes
598 then
601 -- If that leaves us on the next line, then we are done. This is the
602 -- same principle described above for the case of END at line end
607 -- If we just scanned out record, then we are done, since the
608 -- semicolon after END RECORD is not part of the END sequence
613 -- If we have a semicolon, scan it out and we are done
616 T_Semicolon;
621 -- Check for a label present on the same line
623 loop
631 then
644 -- Skip final semicolon
647 T_Semicolon;
649 -- If we don't have a final semicolon, skip until we either encounter
650 -- an END token, or a semicolon or the start of the next line. This
651 -- allows general junk to follow the end line (normally it is hard to
652 -- think that anyone will put anything deliberate here, and remember
653 -- that we know there is a missing semicolon in any case). We also
654 -- quite on an EOF (or else we would get stuck in an infinite loop
655 -- if there is no line end at the end of the last line of the file)
657 else
661 and then not Token_Is_At_Start_Of_Line
662 loop
670 --------------------
671 -- End Statements --
672 --------------------
674 -- This procedure is called when END is required or expected to terminate
675 -- a sequence of statements. The caller has already made an appropriate
676 -- entry on the scope stack to describe the expected form of the END.
677 -- End_Statements should only be used in cases where the only appropriate
678 -- terminator is END.
680 -- Error recovery: cannot raise Error_Resync;
682 procedure End_Statements
686 is
687 begin
688 -- This loop runs more than once in the case where Check_End rejects
689 -- the END sequence, as indicated by Check_End returning False.
691 loop
700 -- Extra statements past the bogus END are discarded. This is not
701 -- ideal for maximum error recovery, but it's too much trouble to
702 -- find an appropriate place to put them.
708 ------------------------
709 -- Evaluate End Entry --
710 ------------------------
715 begin
721 Label_OK := End_Labl_Present
725 -- Special case to consider. Suppose we have the suspicious label case,
726 -- e.g. a situation like:
728 -- My_Label;
729 -- declare
730 -- ...
731 -- begin
732 -- ...
733 -- end My_Label;
735 -- This is the case where we want to use the entry in the suspicous
736 -- label table to flag the semicolon saying it should be a colon.
738 -- Label_OK will be false because the label does not match (we have
739 -- My_Label on the end line, and the generated name for the scope). Also
740 -- End_Labl_Present will be True.
742 if not Label_OK
743 and then End_Labl_Present
745 then
746 -- Here is where we will search the suspicious labels table
749 declare
752 begin
753 -- See if character name of label matches
757 -- And first token of loop/block identifies this entry
760 then
761 -- We have the special case, issue the error message
763 Error_Msg -- CODEFIX
766 -- And indicate we consider the Label OK after all
775 -- Compute setting of Syntax_OK. We definitely have a syntax error
776 -- if the Token does not match properly or if P_End_Scan detected
777 -- a syntax error such as a missing semicolon.
782 -- Final check is that label is OK. Certainly it is OK if there
783 -- was an exact match on the label (the END label = the stack label)
788 -- Case of label present
792 -- If probably misspelling, then complain, and pretend it is OK
794 declare
797 begin
803 then
809 Error_Msg_N -- CODEFIX
820 -- Otherwise we have cases of no label on the END line. For the loop
821 -- case, this is acceptable only if the loop is unlabeled.
826 -- Cases where a label is definitely allowed on the END line
830 or else
833 -- Otherwise we have cases which don't allow labels anyway, so we
834 -- certainly accept an END which does not have a label.
836 else
841 --------------------------
842 -- Explicit_Start_Label --
843 --------------------------
849 begin
853 -- In the following test we protect the call to Comes_From_Source
854 -- against lines containing previously reported syntax errors.
861 then
864 else
869 ------------------------
870 -- Output_End_Deleted --
871 ------------------------
874 begin
893 else
898 -------------------------
899 -- Output_End_Expected --
900 -------------------------
905 begin
906 -- Suppress message if this was a potentially junk entry (e.g. a record
907 -- entry where no record keyword was present).
919 else
923 -- Suppress message if error was posted on opening label
927 then
932 Error_Msg_SC -- CODEFIX
936 Error_Msg_SC -- CODEFIX
941 Error_Msg_SC -- CODEFIX
943 else
944 Error_Msg_SC -- CODEFIX
949 Error_Msg_SC -- CODEFIX
953 Error_Msg_SC -- CODEFIX
957 Error_Msg_SC -- CODEFIX
960 -- All remaining cases are cases with a name (we do not treat the
961 -- suspicious is cases specially for a replaced end, only for an
962 -- inserted end).
966 Error_Msg_SC -- CODEFIX
968 else
969 Error_Msg_SC -- CODEFIX
973 -- The other possibility is a missing END for a subprogram with a
974 -- suspicious IS (that probably should have been a semicolon). The
975 -- missing IS confirms the suspicion.
982 ------------------------
983 -- Output_End_Missing --
984 ------------------------
989 begin
990 -- Suppress message if this was a potentially junk entry (e.g. a record
991 -- entry where no record keyword was present).
1002 else
1015 else
1020 Error_Msg_SC
1024 Error_Msg_SC
1028 Error_Msg_BC
1034 else
1043 ---------------------
1044 -- Pop_End_Context --
1045 ---------------------
1050 -- This flag is set True if the END sequence is syntactically incorrect,
1051 -- but is (from a heuristic point of view), pretty likely to be simply
1052 -- a misspelling of the intended END.
1055 -- This flag is set True if we decide that the current END sequence
1056 -- belongs to some outer level entry in the scope stack, and thus
1057 -- we will NOT eat it up in matching the current expected END.
1059 begin
1060 -- If not at END, then output END expected message
1063 Output_End_Missing;
1064 Pop_Scope_Stack;
1068 -- Otherwise we do have an END present
1070 else
1071 -- A special check. If we have END; followed by an end of file,
1072 -- WITH or SEPARATE, then if we are not at the outer level, then
1073 -- we have a syntax error. Consider the example:
1075 -- ...
1076 -- declare
1077 -- X : Integer;
1078 -- begin
1079 -- X := Father (A);
1080 -- Process (X, X);
1081 -- end;
1082 -- with Package1;
1083 -- ...
1085 -- Now the END; here is a syntactically correct closer for the
1086 -- declare block, but if we eat it up, then we obviously have
1087 -- a missing END for the outer context (since WITH can only appear
1088 -- at the outer level.
1090 -- In this situation, we always reserve the END; for the outer level,
1091 -- even if it is in the wrong column. This is because it's much more
1092 -- useful to have the error message point to the DECLARE than to the
1093 -- package header in this case.
1095 -- We also reserve an end with a name before the end of file if the
1096 -- name is the one we expect at the outer level.
1105 then
1108 Pop_Scope_Stack;
1113 -- Otherwise we go through the normal END evaluation procedure
1117 -- If top entry in stack is syntactically correct, then we have
1118 -- scanned it out and everything is fine. This is the required
1119 -- action to properly process correct Ada programs.
1123 -- Complain if checking columns and END is not in right column.
1124 -- Right in this context means exactly right, or on the same
1125 -- line as the opener.
1131 -- A special case, for END RECORD, we are also allowed to
1132 -- line up with the TYPE keyword opening the declaration.
1137 then
1139 Error_Msg
1144 -- One final check. If the end had a label, check for an exact
1145 -- duplicate of this end sequence, and if so, skip it with an
1146 -- appropriate message.
1149 declare
1155 begin
1162 then
1165 -- We only consider it an error if the label is a match
1166 -- and would be wrong for the level one above us, and
1167 -- the indentation is the same.
1172 and then
1174 or else
1176 or else
1180 then
1181 T_Semicolon;
1193 -- All OK, so return to caller indicating END is OK
1195 Pop_Scope_Stack;
1200 -- If that check failed, then we definitely have an error. The issue
1201 -- is how to choose among three possible courses of action:
1203 -- 1. Ignore the current END text completely, scanning past it,
1204 -- deciding that it belongs neither to the current context,
1205 -- nor to any outer context.
1207 -- 2. Accept the current END text, scanning past it, and issuing
1208 -- an error message that it does not have the right form.
1210 -- 3. Leave the current END text in place, NOT scanning past it,
1211 -- issuing an error message indicating the END expected for the
1212 -- current context. In this case, the END is available to match
1213 -- some outer END context.
1215 -- From a correct functioning point of view, it does not make any
1216 -- difference which of these three approaches we take, the program
1217 -- will work correctly in any case. However, making an accurate
1218 -- choice among these alternatives, i.e. choosing the one that
1219 -- corresponds to what the programmer had in mind, does make a
1220 -- significant difference in the quality of error recovery.
1224 -- First we see how good the current END entry is with respect to
1225 -- what we expect. It is considered pretty good if the token is OK,
1226 -- and either the label or the column matches. An END for RECORD is
1227 -- always considered to be pretty good in the record case. This is
1228 -- because not only does a record disallow a nested structure, but
1229 -- also it is unlikely that such nesting could occur by accident.
1234 -- Next check, if there is a deeper entry in the stack which
1235 -- has a very high probability of being acceptable, then insert
1236 -- the END entry we want, leaving the higher level entry for later
1241 -- To even consider the deeper entry to be immediately acceptable,
1242 -- it must be syntactically correct. Furthermore it must either
1243 -- have a correct label, or the correct column. If the current
1244 -- entry was a close match (Pretty_Good set), then we are even
1245 -- more strict in accepting the outer level one: even if it has
1246 -- the right label, it must have the right column as well.
1251 else
1254 else
1258 -- If the outer entry does convincingly match the END text, then
1259 -- back up the scan to the start of the END sequence, issue an
1260 -- error message indicating the END we expected, and return with
1261 -- Token pointing to the END (case 3 from above discussion).
1264 Output_End_Missing;
1265 Pop_Scope_Stack;
1271 -- Here we have a situation in which the current END entry is
1272 -- syntactically incorrect, but there is no deeper entry in the
1273 -- END stack which convincingly matches it.
1275 -- If the END text was judged to be a Pretty_Good match for the
1276 -- expected token or if it appears left of the expected column,
1277 -- then we will accept it as the one we want, scanning past it, even
1278 -- though it is not completely right (we issue a message showing what
1279 -- we expected it to be). This is action 2 from the discussion above.
1280 -- There is one other special case to consider: the LOOP case.
1281 -- Consider the example:
1283 -- Lbl: loop
1284 -- null;
1285 -- end loop;
1287 -- Here the column lines up with Lbl, so END LOOP is to the right,
1288 -- but it is still acceptable. LOOP is the one case where alignment
1289 -- practices vary substantially in practice.
1291 if Pretty_Good
1295 then
1297 Pop_Scope_Stack;
1301 -- Here we have the case where the END is to the right of the
1302 -- expected column and does not have a correct label to convince
1303 -- us that it nevertheless belongs to the current scope. For this
1304 -- we consider that it probably belongs not to the current context,
1305 -- but to some inner context that was not properly recognized (due to
1306 -- other syntax errors), and for which no proper scope stack entry
1307 -- was made. The proper action in this case is to delete the END text
1308 -- and return False to the caller as a signal to keep on looking for
1309 -- an acceptable END. This is action 1 from the discussion above.
1311 else
1312 Output_End_Deleted;
1319 ----------------
1320 -- Same_Label --
1321 ----------------
1324 begin
1327 then
1332 then
1338 then
1342 else