| blob | d84e37735bc6028ed4eddb240c009a3402ee6245 |
1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT COMPILER COMPONENTS --
4 -- --
5 -- P A R . C H 5 --
6 -- --
7 -- B o d y --
8 -- --
9 -- Copyright (C) 1992-2005, 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 2, 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 COPYING. If not, write --
19 -- to the Free Software Foundation, 51 Franklin Street, Fifth Floor, --
20 -- Boston, MA 02110-1301, USA. --
21 -- --
22 -- GNAT was originally developed by the GNAT team at New York University. --
23 -- Extensive contributions were provided by Ada Core Technologies Inc. --
24 -- --
25 ------------------------------------------------------------------------------
28 -- Turn off subprogram body ordering check. Subprograms are in order
29 -- by RM section rather than alphabetical
34 -- Local functions, used only in this chapter
47 -- Parse assignment statement. On entry, the caller has scanned the left
48 -- hand side (passed in as Lhs), and the colon-equal (or some symbol
49 -- taken to be an error equivalent such as equal).
52 -- Parse begin-end statement. If Block_Name is non-Empty on entry, it is
53 -- the N_Identifier node for the label on the block. If Block_Name is
54 -- Empty on entry (the default), then the block statement is unlabeled.
57 -- Parse declare block. If Block_Name is non-Empty on entry, it is
58 -- the N_Identifier node for the label on the block. If Block_Name is
59 -- Empty on entry (the default), then the block statement is unlabeled.
62 -- Parse for statement. If Loop_Name is non-Empty on entry, it is
63 -- the N_Identifier node for the label on the loop. If Loop_Name is
64 -- Empty on entry (the default), then the for statement is unlabeled.
67 -- Parse loop statement. If Loop_Name is non-Empty on entry, it is
68 -- the N_Identifier node for the label on the loop. If Loop_Name is
69 -- Empty on entry (the default), then the loop statement is unlabeled.
72 -- Parse while statement. If Loop_Name is non-Empty on entry, it is
73 -- the N_Identifier node for the label on the loop. If Loop_Name is
74 -- Empty on entry (the default), then the while statement is unlabeled.
77 -- Given a letter 'L' for a loop or 'B' for a block, returns a name
78 -- of the form L_nn or B_nn where nn is a serial number obtained by
79 -- incrementing the variable Loop_Block_Count.
82 -- Scan past THEN token, testing for illegal junk after it
84 ---------------------------------
85 -- 5.1 Sequence of Statements --
86 ---------------------------------
88 -- SEQUENCE_OF_STATEMENTS ::= STATEMENT {STATEMENT}
90 -- STATEMENT ::=
91 -- {LABEL} SIMPLE_STATEMENT | {LABEL} COMPOUND_STATEMENT
93 -- SIMPLE_STATEMENT ::= NULL_STATEMENT
94 -- | ASSIGNMENT_STATEMENT | EXIT_STATEMENT
95 -- | GOTO_STATEMENT | PROCEDURE_CALL_STATEMENT
96 -- | RETURN_STATEMENT | ENTRY_CALL_STATEMENT
97 -- | REQUEUE_STATEMENT | DELAY_STATEMENT
98 -- | ABORT_STATEMENT | RAISE_STATEMENT
99 -- | CODE_STATEMENT
101 -- COMPOUND_STATEMENT ::=
102 -- IF_STATEMENT | CASE_STATEMENT
103 -- | LOOP_STATEMENT | BLOCK_STATEMENT
104 -- | ACCEPT_STATEMENT | SELECT_STATEMENT
106 -- This procedure scans a sequence of statements. The caller sets SS_Flags
107 -- to indicate acceptable termination conditions for the sequence:
109 -- SS_Flags.Eftm Terminate on ELSIF
110 -- SS_Flags.Eltm Terminate on ELSE
111 -- SS_Flags.Extm Terminate on EXCEPTION
112 -- SS_Flags.Ortm Terminate on OR
113 -- SS_Flags.Tatm Terminate on THEN ABORT (Token = ABORT on return)
114 -- SS_Flags.Whtm Terminate on WHEN
115 -- SS_Flags.Unco Unconditional terminate after scanning one statement
117 -- In addition, the scan is always terminated by encountering END or the
118 -- end of file (EOF) condition. If one of the six above terminators is
119 -- encountered with the corresponding SS_Flags flag not set, then the
120 -- action taken is as follows:
122 -- If the keyword occurs to the left of the expected column of the end
123 -- for the current sequence (as recorded in the current end context),
124 -- then it is assumed to belong to an outer context, and is considered
125 -- to terminate the sequence of statements.
127 -- If the keyword occurs to the right of, or in the expected column of
128 -- the end for the current sequence, then an error message is output,
129 -- the keyword together with its associated context is skipped, and
130 -- the statement scan continues until another terminator is found.
132 -- Note that the first action means that control can return to the caller
133 -- with Token set to a terminator other than one of those specified by the
134 -- SS parameter. The caller should treat such a case as equivalent to END.
136 -- In addition, the flag SS_Flags.Sreq is set to True to indicate that at
137 -- least one real statement (other than a pragma) is required in the
138 -- statement sequence. During the processing of the sequence, this
139 -- flag is manipulated to indicate the current status of the requirement
140 -- for a statement. For example, it is turned off by the occurrence of a
141 -- statement, and back on by a label (which requires a following statement)
143 -- Error recovery: cannot raise Error_Resync. If an error occurs during
144 -- parsing a statement, then the scan pointer is advanced past the next
145 -- semicolon and the parse continues.
150 -- This flag indicates if a subsequent statement (other than a pragma)
151 -- is required. It is initialized from the Sreq flag, and modified as
152 -- statements are scanned (a statement turns it off, and a label turns
153 -- it back on again since a statement must follow a label).
156 -- This flag is set True if a declaration is encountered, so that the
157 -- error message about declarations in the statement part is only
158 -- given once for a given sequence of statements.
169 -- Procedure called to handle error of declaration encountered in
170 -- statement sequence.
173 -- Flag error if Statement_Required flag set
175 ----------------------
176 -- Junk_Declaration --
177 ----------------------
180 begin
189 -----------------------------
190 -- Test_Statement_Required --
191 -----------------------------
194 begin
200 -- Start of processing for P_Sequence_Of_Statements
202 begin
206 loop
212 begin
215 -- Deal with reserved identifier (in assignment or call)
221 -- We have an reserved word which is spelled in identifier
222 -- style, so the question is whether it really is intended
223 -- to be an identifier.
225 if
226 -- If followed by a semicolon, then it is an identifier,
227 -- with the exception of the cases tested for below.
236 -- If followed by colon, colon-equal, or dot, then we
237 -- definitely have an identifier (could not be reserved)
243 -- Left paren means we have an identifier except for those
244 -- reserved words that can legitimately be followed by a
245 -- left paren.
247 or else
257 then
258 -- Here we have an apparent reserved identifier and the
259 -- token past it is appropriate to this usage (and would
260 -- be a definite error if this is not an identifier). What
261 -- we do is to use P_Identifier to fix up the identifier,
262 -- and then fall into the normal processing.
267 -- Not a reserved identifier after all (or at least we can't
268 -- be sure that it is), so reset the scan and continue.
270 else
275 -- Now look to see what kind of statement we have
279 -- Case of end or EOF
283 -- These tokens always terminate the statement sequence
285 Test_Statement_Required;
288 -- Case of ELSIF
292 -- Terminate if Eftm set or if the ELSIF is to the left
293 -- of the expected column of the end for this sequence
297 then
298 Test_Statement_Required;
301 -- Otherwise complain and skip past ELSIF Condition then
303 else
307 Then_Scan;
311 -- Case of ELSE
315 -- Terminate if Eltm set or if the else is to the left
316 -- of the expected column of the end for this sequence
320 then
321 Test_Statement_Required;
324 -- Otherwise complain and skip past else
326 else
332 -- Case of exception
335 Test_Statement_Required;
337 -- If Extm not set and the exception is not to the left
338 -- of the expected column of the end for this sequence, then
339 -- we assume it belongs to the current sequence, even though
340 -- it is not permitted.
345 then
351 -- Always return, in the case where we scanned out handlers
352 -- that we did not expect, Parse_Exception_Handlers returned
353 -- with Token being either end or EOF, so we are OK
357 -- Case of OR
361 -- Terminate if Ortm set or if the or is to the left
362 -- of the expected column of the end for this sequence
366 then
367 Test_Statement_Required;
370 -- Otherwise complain and skip past or
372 else
378 -- Case of THEN (deal also with THEN ABORT)
384 -- Terminate if THEN ABORT allowed (ATC case)
388 -- Otherwise we treat THEN as some kind of mess where we
389 -- did not see the associated IF, but we pick up assuming
390 -- it had been there!
396 -- Case of WHEN (error because we are not in a case)
400 -- Terminate if Whtm set or if the WHEN is to the left
401 -- of the expected column of the end for this sequence
405 then
406 Test_Statement_Required;
409 -- Otherwise complain and skip when Choice {| Choice} =>
411 else
415 TF_Arrow;
419 -- Cases of statements starting with an identifier
422 Check_Bad_Layout;
424 -- Save scan pointers and line number in case block label
431 -- Check for common case of assignment, since it occurs
432 -- frequently, and we want to process it efficiently.
440 -- Check common case of procedure call, another case that
441 -- we want to speed up as much as possible.
449 -- Check for case of "go to" in place of "goto"
454 then
459 -- Check common case of = used instead of :=, just so we
460 -- give a better error message for this special misuse.
468 -- Check case of loop label or block label
473 then
476 -- Test for more than one label
478 loop
484 Error_Msg_SP
488 -- Use the second label as the "real" label
492 -- We will set Error_name as the Block_Label since
493 -- we really don't know which of the labels might
494 -- be used at the end of the loop or block!
498 -- If Id with no colon, then backup to point to the
499 -- Id and we will issue the message below when we try
500 -- to scan out the statement as some other form.
502 else
508 -- Loop_Statement (labeled Loop_Statement)
514 -- While statement (labeled loop statement with WHILE)
520 -- Declare statement (labeled block statement with
521 -- DECLARE part)
527 -- Begin statement (labeled block statement with no
528 -- DECLARE part)
534 -- For statement (labeled loop statement with FOR)
540 -- Improper statement follows label. If we have an
541 -- expression token, then assume the colon was part
542 -- of a misplaced declaration.
546 Junk_Declaration;
548 -- Otherwise complain we have inappropriate statement
550 else
551 Error_Msg_AP
557 -- Here we have an identifier followed by something
558 -- other than a colon, semicolon or assignment symbol.
559 -- The only valid possibility is a name extension symbol
565 -- Skip junk right parens in this context
572 -- Check context following call
580 -- Check common case of = used instead of :=
588 -- Check apostrophe cases
595 -- The only other valid item after a name is ; which
596 -- means that the item we just scanned was a call.
604 -- A slash following an identifier or a selected
605 -- component in this situation is most likely a
606 -- period (have a look at the keyboard :-)
610 or else
612 then
617 -- Else we have a missing semicolon
619 else
620 TF_Semicolon;
624 -- If junk after identifier, check if identifier is an
625 -- instance of an incorrectly spelled keyword. If so, we
626 -- do nothing. The Bad_Spelling_Of will have reset Token
627 -- to the appropriate keyword, so the next time round the
628 -- loop we will process the modified token. Note that we
629 -- check for ELSIF before ELSE here. That's not accidental.
630 -- We don't want to identify a misspelling of ELSE as
631 -- ELSIF, and in particular we do not want to treat ELSEIF
632 -- as ELSE IF.
634 else
659 then
662 -- If not a bad spelling, then we really have junk
664 else
667 -- If next token is first token on line, then we
668 -- consider that we were missing a semicolon after
669 -- the identifier, and process it as a procedure
670 -- call with no parameters.
678 -- Otherwise we give a missing := message and
679 -- simply abandon the junk that is there now.
681 else
689 -- Statement starting with operator symbol. This could be
690 -- a call, a name starting an assignment, or a qualified
691 -- expression.
694 Check_Bad_Layout;
697 -- An attempt at a range attribute or a qualified expression
698 -- must be illegal here (a code statement cannot possibly
699 -- allow qualification by a function name).
706 -- Scan possible assignment if we have a name
710 then
714 else
719 TF_Semicolon;
722 -- Label starting with << which must precede real statement
728 -- Pragma appearing as a statement in a statement sequence
731 Check_Bad_Layout;
734 -- Abort_Statement
737 Check_Bad_Layout;
741 -- Accept_Statement
744 Check_Bad_Layout;
748 -- Begin_Statement (Block_Statement with no declare, no label)
751 Check_Bad_Layout;
755 -- Case_Statement
758 Check_Bad_Layout;
762 -- Block_Statement with DECLARE and no label
765 Check_Bad_Layout;
769 -- Delay_Statement
772 Check_Bad_Layout;
776 -- Exit_Statement
779 Check_Bad_Layout;
783 -- Loop_Statement with FOR and no label
786 Check_Bad_Layout;
790 -- Goto_Statement
793 Check_Bad_Layout;
797 -- If_Statement
800 Check_Bad_Layout;
804 -- Loop_Statement
807 Check_Bad_Layout;
811 -- Null_Statement
814 Check_Bad_Layout;
818 -- Raise_Statement
821 Check_Bad_Layout;
825 -- Requeue_Statement
828 Check_Bad_Layout;
832 -- Return_Statement
835 Check_Bad_Layout;
839 -- Select_Statement
842 Check_Bad_Layout;
846 -- While_Statement (Block_Statement with while and no loop)
849 Check_Bad_Layout;
853 -- Anything else is some kind of junk, signal an error message
854 -- and then raise Error_Resync, to merge with the normal
855 -- handling of a bad statement.
860 Junk_Declaration;
862 else
868 -- On error resynchronization, skip past next semicolon, and, since
869 -- we are still in the statement loop, look for next statement. We
870 -- set Statement_Required False to avoid an unnecessary error message
871 -- complaining that no statement was found (i.e. we consider the
872 -- junk to satisfy the requirement for a statement being present).
874 exception
876 Resync_Past_Semicolon_Or_To_Loop_Or_Then;
888 --------------------
889 -- 5.1 Statement --
890 --------------------
892 -- Parsed by P_Sequence_Of_Statements (5.1), except for the case
893 -- of a statement of the form of a name, which is handled here. The
894 -- argument passed in is the tree for the name which has been scanned
895 -- The returned value is the corresponding statement form.
897 -- This routine is also used by Par.Prag for processing the procedure
898 -- call that appears as the second argument of a pragma Assert.
900 -- Error recovery: cannot raise Error_Resync
905 begin
906 -- Case of Indexed component, which is a procedure call with arguments
909 declare
913 begin
920 -- Case of function call node, which is a really a procedure call
923 declare
928 begin
935 -- Case of call to attribute that denotes a procedure. Here we
936 -- just leave the attribute reference unchanged.
940 then
943 -- All other cases of names are parameterless procedure calls
945 else
946 Stmt_Node :=
954 ---------------------------
955 -- 5.1 Simple Statement --
956 ---------------------------
958 -- Parsed by P_Sequence_Of_Statements (5.1)
960 -----------------------------
961 -- 5.1 Compound Statement --
962 -----------------------------
964 -- Parsed by P_Sequence_Of_Statements (5.1)
966 -------------------------
967 -- 5.1 Null Statement --
968 -------------------------
970 -- NULL_STATEMENT ::= null;
972 -- The caller has already checked that the current token is null
974 -- Error recovery: cannot raise Error_Resync
979 begin
982 TF_Semicolon;
986 ----------------
987 -- 5.1 Label --
988 ----------------
990 -- LABEL ::= <<label_STATEMENT_IDENTIFIER>>
992 -- STATEMENT_INDENTIFIER ::= DIRECT_NAME
994 -- The IDENTIFIER of a STATEMENT_IDENTIFIER shall be an identifier
995 -- (not an OPERATOR_SYMBOL)
997 -- The caller has already checked that the current token is <<
999 -- Error recovery: can raise Error_Resync
1004 begin
1008 T_Greater_Greater;
1013 -------------------------------
1014 -- 5.1 Statement Identifier --
1015 -------------------------------
1017 -- Statement label is parsed by P_Label (5.1)
1019 -- Loop label is parsed by P_Loop_Statement (5.5), P_For_Statement (5.5)
1020 -- or P_While_Statement (5.5)
1022 -- Block label is parsed by P_Begin_Statement (5.6) or
1023 -- P_Declare_Statement (5.6)
1025 -------------------------------
1026 -- 5.2 Assignment Statement --
1027 -------------------------------
1029 -- ASSIGNMENT_STATEMENT ::=
1030 -- variable_NAME := EXPRESSION;
1032 -- Error recovery: can raise Error_Resync
1037 begin
1041 TF_Semicolon;
1045 -----------------------
1046 -- 5.3 If Statement --
1047 -----------------------
1049 -- IF_STATEMENT ::=
1050 -- if CONDITION then
1051 -- SEQUENCE_OF_STATEMENTS
1052 -- {elsif CONDITION then
1053 -- SEQUENCE_OF_STATEMENTS}
1054 -- [else
1055 -- SEQUENCE_OF_STATEMENTS]
1056 -- end if;
1058 -- The caller has checked that the initial token is IF (or in the error
1059 -- case of a mysterious THEN, the initial token may simply be THEN, in
1060 -- which case, no condition (or IF) was scanned).
1062 -- Error recovery: can raise Error_Resync
1070 -- An internal procedure used to scan out a single ELSIF part. On entry
1071 -- the ELSIF (or an ELSE which has been determined should be ELSIF) is
1072 -- scanned out and is in Prev_Token.
1075 -- An internal procedure used to check that THEN, ELSE ELSE, or ELSIF
1076 -- appear in the right place if column checking is enabled (i.e. if
1077 -- they are the first token on the line, then they must appear in
1078 -- the same column as the opening IF).
1081 -- This procedure carries out the style checks for a THEN token
1082 -- Note that the caller has set Loc to the Source_Ptr value for
1083 -- the previous IF or ELSIF token. These checks apply only to a
1084 -- THEN at the start of a line.
1087 -- An internal routine used to do a special error recovery check when
1088 -- an ELSE is encountered. It determines if the ELSE should be treated
1089 -- as an ELSIF. A positive decision (TRUE returned, is made if the ELSE
1090 -- is followed by a sequence of tokens, starting on the same line as
1091 -- the ELSE, which are not expression terminators, followed by a THEN.
1092 -- On entry, the ELSE has been scanned out.
1095 begin
1103 Check_Then_Column;
1104 Then_Scan;
1105 Set_Then_Statements
1111 begin
1114 then
1121 begin
1123 Check_If_Column;
1131 begin
1135 else
1138 loop
1142 else
1154 -- Start of processing for P_If_Statement
1156 begin
1159 Push_Scope_Stack;
1171 -- Deal with misuse of IF expression => used instead
1172 -- of WHEN expression =>
1181 Check_Then_Column;
1183 else
1188 Then_Scan;
1190 Set_Then_Statements
1193 -- This loop scans out else and elsif parts
1195 loop
1197 Check_If_Column;
1204 Add_Elsif_Part;
1207 Check_If_Column;
1212 Add_Elsif_Part;
1214 else
1215 -- Here we have an else that really is an else
1219 Append_List
1222 else
1223 Set_Else_Statements
1228 -- If anything other than ELSE or ELSIF, exit the loop. The token
1229 -- had better be END (and in fact it had better be END IF), but
1230 -- we will let End_Statements take care of checking that.
1232 else
1237 End_Statements;
1242 --------------------
1243 -- 5.3 Condition --
1244 --------------------
1246 -- CONDITION ::= boolean_EXPRESSION
1251 begin
1254 -- It is never possible for := to follow a condition, so if we get
1255 -- a := we assume it is a mistyped equality. Note that we do not try
1256 -- to reconstruct the tree correctly in this case, but we do at least
1257 -- give an accurate error message.
1268 -- Otherwise check for redundant parens
1270 else
1271 if Style_Check
1273 then
1277 -- And return the result
1283 -------------------------
1284 -- 5.4 Case Statement --
1285 -------------------------
1287 -- CASE_STATEMENT ::=
1288 -- case EXPRESSION is
1289 -- CASE_STATEMENT_ALTERNATIVE
1290 -- {CASE_STATEMENT_ALTERNATIVE}
1291 -- end case;
1293 -- The caller has checked that the first token is CASE
1295 -- Can raise Error_Resync
1302 begin
1305 Push_Scope_Stack;
1314 TF_Is;
1316 -- Prepare to parse case statement alternatives
1322 -- Loop through case statement alternatives
1324 loop
1325 -- If we have a WHEN or OTHERS, then that's fine keep going. Note
1326 -- that it is a semantic check to ensure the proper use of OTHERS
1331 -- If we have an END, then probably we are at the end of the case
1332 -- but we only exit if Check_End thinks the END was reasonable.
1337 -- Here if token is other than WHEN, OTHERS or END. We definitely
1338 -- have an error, but the question is whether or not to get out of
1339 -- the case statement. We don't want to get out early, or we will
1340 -- get a slew of junk error messages for subsequent when tokens.
1342 -- If the token is not at the start of the line, or if it is indented
1343 -- with respect to the current case statement, then the best guess is
1344 -- that we are still supposed to be inside the case statement. We
1345 -- complain about the missing WHEN, and discard the junk statements.
1347 elsif not Token_Is_At_Start_Of_Line
1349 then
1352 -- Here is a possibility for infinite looping if we don't make
1353 -- progress. So try to process statements, otherwise exit
1355 declare
1357 begin
1362 -- Here we have a junk token at the start of the line and it is
1363 -- not indented. If Check_End thinks there is a missing END, then
1364 -- we will get out of the case, otherwise we keep going.
1366 else
1371 -- Make sure we have at least one alternative
1374 Error_Msg
1376 First_When_Loc);
1379 else
1385 -------------------------------------
1386 -- 5.4 Case Statement Alternative --
1387 -------------------------------------
1389 -- CASE_STATEMENT_ALTERNATIVE ::=
1390 -- when DISCRETE_CHOICE_LIST =>
1391 -- SEQUENCE_OF_STATEMENTS
1393 -- The caller has checked that the initial token is WHEN or OTHERS
1394 -- Error recovery: can raise Error_Resync
1399 begin
1404 TF_Arrow;
1409 -------------------------
1410 -- 5.5 Loop Statement --
1411 -------------------------
1413 -- LOOP_STATEMENT ::=
1414 -- [LOOP_STATEMENT_IDENTIFIER:]
1415 -- [ITERATION_SCHEME] loop
1416 -- SEQUENCE_OF_STATEMENTS
1417 -- end loop [loop_IDENTIFIER];
1419 -- ITERATION_SCHEME ::=
1420 -- while CONDITION
1421 -- | for LOOP_PARAMETER_SPECIFICATION
1423 -- The parsing of loop statements is handled by one of three functions
1424 -- P_Loop_Statement, P_For_Statement or P_While_Statement depending
1425 -- on the initial keyword in the construct (excluding the identifier)
1427 -- P_Loop_Statement
1429 -- This function parses the case where no iteration scheme is present
1431 -- The caller has checked that the initial token is LOOP. The parameter
1432 -- is the node identifiers for the loop label if any (or is set to Empty
1433 -- if there is no loop label).
1435 -- Error recovery : cannot raise Error_Resync
1441 begin
1442 Push_Scope_Stack;
1449 TF_Loop;
1452 Created_Name :=
1459 else
1469 -- P_For_Statement
1471 -- This function parses a loop statement with a FOR iteration scheme
1473 -- The caller has checked that the initial token is FOR. The parameter
1474 -- is the node identifier for the block label if any (or is set to Empty
1475 -- if there is no block label).
1477 -- Note: the caller fills in the Identifier field if a label was present
1479 -- Error recovery: can raise Error_Resync
1487 begin
1488 Push_Scope_Stack;
1497 Set_Loop_Parameter_Specification
1500 -- The following is a special test so that a miswritten for loop such
1501 -- as "loop for I in 1..10;" is handled nicely, without making an extra
1502 -- entry in the scope stack. We don't bother to actually fix up the
1503 -- tree in this case since it's not worth the effort. Instead we just
1504 -- eat up the loop junk, leaving the entry for what now looks like an
1505 -- unmodified loop intact.
1509 Pop_Scope_Stack;
1512 -- Normal case
1514 else
1518 Created_Name :=
1525 else
1529 TF_Loop;
1538 -- P_While_Statement
1540 -- This procedure scans a loop statement with a WHILE iteration scheme
1542 -- The caller has checked that the initial token is WHILE. The parameter
1543 -- is the node identifier for the block label if any (or is set to Empty
1544 -- if there is no block label).
1546 -- Error recovery: cannot raise Error_Resync
1554 begin
1555 Push_Scope_Stack;
1566 -- The following is a special test so that a miswritten for loop such
1567 -- as "loop while I > 10;" is handled nicely, without making an extra
1568 -- entry in the scope stack. We don't bother to actually fix up the
1569 -- tree in this case since it's not worth the effort. Instead we just
1570 -- eat up the loop junk, leaving the entry for what now looks like an
1571 -- unmodified loop intact.
1575 Pop_Scope_Stack;
1578 -- Normal case
1580 else
1582 TF_Loop;
1585 Created_Name :=
1592 else
1604 ---------------------------------------
1605 -- 5.5 Loop Parameter Specification --
1606 ---------------------------------------
1608 -- LOOP_PARAMETER_SPECIFICATION ::=
1609 -- DEFINING_IDENTIFIER in [reverse] DISCRETE_SUBTYPE_DEFINITION
1611 -- Error recovery: cannot raise Error_Resync
1619 begin
1620 Loop_Param_Specification_Node :=
1638 T_In;
1645 Set_Discrete_Subtype_Definition
1649 exception
1654 --------------------------
1655 -- 5.6 Block Statement --
1656 --------------------------
1658 -- BLOCK_STATEMENT ::=
1659 -- [block_STATEMENT_IDENTIFIER:]
1660 -- [declare
1661 -- DECLARATIVE_PART]
1662 -- begin
1663 -- HANDLED_SEQUENCE_OF_STATEMENTS
1664 -- end [block_IDENTIFIER];
1666 -- The parsing of block statements is handled by one of the two functions
1667 -- P_Declare_Statement or P_Begin_Statement depending on whether or not
1668 -- a declare section is present
1670 -- P_Declare_Statement
1672 -- This function parses a block statement with DECLARE present
1674 -- The caller has checked that the initial token is DECLARE.
1676 -- Error recovery: cannot raise Error_Resync
1678 function P_Declare_Statement
1680 return Node_Id
1681 is
1685 begin
1688 Push_Scope_Stack;
1698 Created_Name :=
1705 else
1714 -- P_Begin_Statement
1716 -- This function parses a block statement with no DECLARE present
1718 -- The caller has checked that the initial token is BEGIN
1720 -- Error recovery: cannot raise Error_Resync
1722 function P_Begin_Statement
1724 return Node_Id
1725 is
1729 begin
1732 Push_Scope_Stack;
1740 Created_Name :=
1747 else
1756 Set_Handled_Statement_Sequence
1762 -------------------------
1763 -- 5.7 Exit Statement --
1764 -------------------------
1766 -- EXIT_STATEMENT ::=
1767 -- exit [loop_NAME] [when CONDITION];
1769 -- The caller has checked that the initial token is EXIT
1771 -- Error recovery: can raise Error_Resync
1777 -- This function deals with the following specialized situation
1778 --
1779 -- when 'x' =>
1780 -- exit [identifier]
1781 -- when 'y' =>
1782 --
1783 -- This looks like a messed up EXIT WHEN, when in fact the problem
1784 -- is a missing semicolon. It is called with Token pointing to the
1785 -- WHEN token, and returns True if a semicolon is missing before
1786 -- the WHEN as in the above example.
1788 -------------------------------
1789 -- Missing_Semicolon_On_Exit --
1790 -------------------------------
1795 begin
1802 else
1810 else
1817 -- Start of processing for P_Exit_Statement
1819 begin
1827 -- This EXIT has no name, so check that
1828 -- the innermost loop is unnamed too.
1830 Check_No_Exit_Name :
1835 then
1836 -- Innermost loop in fact had a name, style check fails
1850 -- Allow IF instead of WHEN, giving error message
1853 T_When;
1858 TF_Semicolon;
1862 -------------------------
1863 -- 5.8 Goto Statement --
1864 -------------------------
1866 -- GOTO_STATEMENT ::= goto label_NAME;
1868 -- The caller has checked that the initial token is GOTO (or TO in the
1869 -- error case where GO and TO were incorrectly separated).
1871 -- Error recovery: can raise Error_Resync
1876 begin
1881 No_Constraint;
1882 TF_Semicolon;
1886 ---------------------------
1887 -- Parse_Decls_Begin_End --
1888 ---------------------------
1890 -- This function parses the construct:
1892 -- DECLARATIVE_PART
1893 -- begin
1894 -- HANDLED_SEQUENCE_OF_STATEMENTS
1895 -- end [NAME];
1897 -- The caller has built the scope stack entry, and created the node to
1898 -- whose Declarations and Handled_Statement_Sequence fields are to be
1899 -- set. On return these fields are filled in (except in the case of a
1900 -- task body, where the handled statement sequence is optional, and may
1901 -- thus be Empty), and the scan is positioned past the End sequence.
1903 -- If the BEGIN is missing, then the parent node is used to help construct
1904 -- an appropriate missing BEGIN message. Possibilities for the parent are:
1906 -- N_Block_Statement declare block
1907 -- N_Entry_Body entry body
1908 -- N_Package_Body package body (begin part optional)
1909 -- N_Subprogram_Body procedure or function body
1910 -- N_Task_Body task body
1912 -- Note: in the case of a block statement, there is definitely a DECLARE
1913 -- present (because a Begin statement without a DECLARE is handled by the
1914 -- P_Begin_Statement procedure, which does not call Parse_Decls_Begin_End.
1916 -- Error recovery: cannot raise Error_Resync
1928 -- Called to post a missing begin message. In the normal case this is
1929 -- posted at the start of the current token. A special case arises when
1930 -- P_Declarative_Items has previously found a missing begin, in which
1931 -- case we replace the original error message.
1934 -- Construct an empty handled statement sequence and install in Parent
1935 -- Leaves HSS set to reference the newly constructed statement sequence.
1937 -------------------
1938 -- Missing_Begin --
1939 -------------------
1942 begin
1945 else
1948 -- Purge any messages issued after than, since a missing begin
1949 -- can cause a lot of havoc, and it is better not to dump these
1950 -- cascaded messages on the user.
1956 ------------------
1957 -- Set_Null_HSS --
1958 ------------------
1963 begin
1964 Null_Stm :=
1968 HSS :=
1976 -- Start of processing for Parse_Decls_Begin_End
1978 begin
1981 -- Check for misplacement of later vs basic declarations in Ada 83
1986 -- Loop through sequence of basic declarative items
1993 then
1996 -- Once a body is encountered, we only allow later declarative
1997 -- items. The inner loop checks the rest of the list.
1999 else
2005 then
2008 Error_Msg_N
2019 -- Here is where we deal with the case of IS used instead of semicolon.
2020 -- Specifically, if the last declaration in the declarative part is a
2021 -- subprogram body still marked as having a bad IS, then this is where
2022 -- we decide that the IS should really have been a semicolon and that
2023 -- the body should have been a declaration. Note that if the bad IS
2024 -- had turned out to be OK (i.e. a decent begin/end was found for it),
2025 -- then the Bad_Is_Detected flag would have been reset by now.
2032 then
2033 -- OK, we have the case of a bad IS, so we need to fix up the tree.
2034 -- What we have now is a subprogram body with attached declarations
2035 -- and a possible statement sequence.
2037 -- First step is to take the declarations that were part of the bogus
2038 -- subprogram body and append them to the outer declaration chain.
2039 -- In other words we append them past the body (which we will later
2040 -- convert into a declaration).
2044 -- Now take the handled statement sequence of the bogus body and
2045 -- set it as the statement sequence for the outer construct. Note
2046 -- that it may be empty (we specially allowed a missing BEGIN for
2047 -- a subprogram body marked as having a bad IS -- see below).
2052 -- Next step is to convert the old body node to a declaration node
2058 -- Final step is to put the declarations for the parent where
2059 -- they belong, and then fall through the IF to scan out the
2060 -- END statements.
2064 -- This is the normal case (i.e. any case except the bad IS case)
2065 -- If we have a BEGIN, then scan out the sequence of statements, and
2066 -- also reset the expected column for the END to match the BEGIN.
2068 else
2077 and then Token_Is_At_Start_Of_Line
2079 then
2082 else
2089 P_Handled_Sequence_Of_Statements);
2091 -- No BEGIN present
2093 else
2096 -- A special check for the missing IS case. If we have a
2097 -- subprogram body that was marked as having a suspicious
2098 -- IS, and the current token is END, then we simply confirm
2099 -- the suspicion, and do not require a BEGIN to be present
2104 then
2107 -- Otherwise BEGIN is not required for a package body, so we
2108 -- don't mind if it is missing, but we do construct a dummy
2109 -- one (so that we have somewhere to set End_Label).
2111 -- However if we have something other than a BEGIN which
2112 -- looks like it might be statements, then we signal a missing
2113 -- BEGIN for these cases as well. We define "something which
2114 -- looks like it might be statements" as a token other than
2115 -- END, EOF, or a token which starts declarations.
2121 then
2124 -- These are cases in which a BEGIN is required and not present
2126 else
2129 -- Prepare to issue error message
2134 -- Now issue appropriate message
2144 = N_Function_Specification
2145 then
2147 else
2151 -- The case for package body arises only when
2152 -- we have possible statement junk present.
2157 else
2162 -- Here we pick up the statements after the BEGIN that
2163 -- should have been present but was not. We don't insist
2164 -- on statements being present if P_Declarative_Part had
2165 -- already found a missing BEGIN, since it might have
2166 -- swallowed a lone statement into the declarative part.
2170 then
2172 else
2174 P_Handled_Sequence_Of_Statements);
2180 -- Here with declarations and handled statement sequence scanned
2184 else
2185 End_Statements;
2188 -- We know that End_Statements removed an entry from the scope stack
2189 -- (because it is required to do so under all circumstances). We can
2190 -- therefore reference the entry it removed one past the stack top.
2191 -- What we are interested in is whether it was a case of a bad IS.
2200 -------------------------
2201 -- Set_Loop_Block_Name --
2202 -------------------------
2205 begin
2214 ---------------
2215 -- Then_Scan --
2216 ---------------
2219 begin
2220 TF_Then;
2224 TF_Then;
2229 Scan;
2232 or else
2234 then
2235 Scan;
2242 Scan;