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1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT COMPILER COMPONENTS --
4 -- --
5 -- P A R . C H 3 --
6 -- --
7 -- B o d y --
8 -- --
9 -- Copyright (C) 1992-2017, Free Software Foundation, Inc. --
10 -- --
11 -- GNAT is free software; you can redistribute it and/or modify it under --
12 -- terms of the GNU General Public License as published by the Free Soft- --
13 -- ware Foundation; either version 3, or (at your option) any later ver- --
14 -- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
15 -- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
16 -- or FITNESS FOR A PARTICULAR PURPOSE. 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 ------------------------------------------------------------------------------
27 -- Turn off subprogram body ordering check. Subprograms are in order
28 -- by RM section rather than alphabetical.
34 ---------
35 -- Ch3 --
36 ---------
40 -----------------------
41 -- Local Subprograms --
42 -----------------------
63 -- Check that the expression N meets the Restricted_Expression syntax.
64 -- The syntax is as follows:
65 --
66 -- RESTRICTED_EXPRESSION ::=
67 -- RESTRICTED_RELATION {and RESTRICTED_RELATION}
68 -- | RESTRICTED_RELATION {and then RESTRICTED_RELATION}
69 -- | RESTRICTED_RELATION {or RESTRICTED_RELATION}
70 -- | RESTRICTED_RELATION {or else RESTRICTED_RELATION}
71 -- | RESTRICTED_RELATION {xor RESTRICTED_RELATION}
72 --
73 -- RESTRICTED_RELATION ::=
74 -- SIMPLE_EXPRESSION [RELATIONAL_OPERATOR SIMPLE_EXPRESSION]
75 --
76 -- This syntax is used for choices when extensions (and set notations)
77 -- are enabled, to remove the ambiguity of "when X in A | B". We consider
78 -- it very unlikely that this will ever arise in practice.
80 procedure P_Declarative_Items
84 -- Scans out a single declarative item, or, in the case of a declaration
85 -- with a list of identifiers, a list of declarations, one for each of the
86 -- identifiers in the list. The declaration or declarations scanned are
87 -- appended to the given list. Done indicates whether or not there may be
88 -- additional declarative items to scan. If Done is True, then a decision
89 -- has been made that there are no more items to scan. If Done is False,
90 -- then there may be additional declarations to scan. In_Spec is true if
91 -- we are scanning a package declaration, and is used to generate an
92 -- appropriate message if a statement is encountered in such a context.
94 procedure P_Identifier_Declarations
98 -- Scans out a set of declarations for an identifier or list of
99 -- identifiers, and appends them to the given list. The parameters have
100 -- the same significance as for P_Declarative_Items.
102 procedure Statement_When_Declaration_Expected
106 -- Called when a statement is found at a point where a declaration was
107 -- expected. The parameters are as described for P_Declarative_Items.
110 -- Posts a "declaration expected" error messages at the start of the
111 -- current token, and if this is the first such message issued, saves
112 -- the message id in Missing_Begin_Msg, for possible later replacement.
114 ---------------------------------
115 -- Check_Restricted_Expression --
116 ---------------------------------
119 begin
126 then
131 -------------------
132 -- Init_Expr_Opt --
133 -------------------
136 begin
137 -- For colon, assume it means := unless it is at the end of
138 -- a line, in which case guess that it means a semicolon.
142 T_Semicolon;
146 -- Here if := or something that we will take as equivalent
151 then
154 -- Another possibility. If we have a literal followed by a semicolon,
155 -- we assume that we have a missing colon-equal.
158 declare
161 begin
167 else
173 -- Otherwise we definitely have no initialization expression
175 else
179 -- Merge here if we have an initialization expression
181 T_Colon_Equal;
185 else
190 ----------------------------
191 -- 3.1 Basic Declaration --
192 ----------------------------
194 -- Parsed by P_Basic_Declarative_Items (3.9)
196 ------------------------------
197 -- 3.1 Defining Identifier --
198 ------------------------------
200 -- DEFINING_IDENTIFIER ::= IDENTIFIER
202 -- Error recovery: can raise Error_Resync
207 begin
208 -- Scan out the identifier. Note that this code is essentially identical
209 -- to P_Identifier, except that in the call to Scan_Reserved_Identifier
210 -- we set Force_Msg to True, since we want at least one message for each
211 -- separate declaration (but not use) of a reserved identifier.
213 -- Duplication should be removed, common code should be factored???
216 Check_Future_Keyword;
218 -- If we have a reserved identifier, manufacture an identifier with
219 -- a corresponding name after posting an appropriate error message
224 -- Otherwise we have junk that cannot be interpreted as an identifier
226 else
234 -- If we already have a defining identifier, clean it out and make
235 -- a new clean identifier. This situation arises in some error cases
236 -- and we need to fix it.
242 -- Change identifier to defining identifier if not in error
247 -- Warn if standard redefinition, except that we never warn on a
248 -- record field definition (since this is always a harmless case).
258 -----------------------------
259 -- 3.2.1 Type Declaration --
260 -----------------------------
262 -- TYPE_DECLARATION ::=
263 -- FULL_TYPE_DECLARATION
264 -- | INCOMPLETE_TYPE_DECLARATION
265 -- | PRIVATE_TYPE_DECLARATION
266 -- | PRIVATE_EXTENSION_DECLARATION
268 -- FULL_TYPE_DECLARATION ::=
269 -- type DEFINING_IDENTIFIER [KNOWN_DISCRIMINANT_PART] is TYPE_DEFINITION
270 -- [ASPECT_SPECIFICATIONS];
271 -- | CONCURRENT_TYPE_DECLARATION
273 -- INCOMPLETE_TYPE_DECLARATION ::=
274 -- type DEFINING_IDENTIFIER [DISCRIMINANT_PART] [is tagged];
276 -- PRIVATE_TYPE_DECLARATION ::=
277 -- type DEFINING_IDENTIFIER [DISCRIMINANT_PART]
278 -- is [abstract] [tagged] [limited] private
279 -- [ASPECT_SPECIFICATIONS];
281 -- PRIVATE_EXTENSION_DECLARATION ::=
282 -- type DEFINING_IDENTIFIER [DISCRIMINANT_PART] is
283 -- [abstract] [limited | synchronized]
284 -- new ancestor_SUBTYPE_INDICATION [and INTERFACE_LIST]
285 -- with private [ASPECT_SPECIFICATIONS];
287 -- TYPE_DEFINITION ::=
288 -- ENUMERATION_TYPE_DEFINITION | INTEGER_TYPE_DEFINITION
289 -- | REAL_TYPE_DEFINITION | ARRAY_TYPE_DEFINITION
290 -- | RECORD_TYPE_DEFINITION | ACCESS_TYPE_DEFINITION
291 -- | DERIVED_TYPE_DEFINITION | INTERFACE_TYPE_DEFINITION
293 -- INTEGER_TYPE_DEFINITION ::=
294 -- SIGNED_INTEGER_TYPE_DEFINITION
295 -- MODULAR_TYPE_DEFINITION
297 -- INTERFACE_TYPE_DEFINITION ::=
298 -- [limited | task | protected | synchronized ] interface
299 -- [and INTERFACE_LIST]
301 -- Error recovery: can raise Error_Resync
303 -- The processing for full type declarations, incomplete type declarations,
304 -- private type declarations and type definitions is included in this
305 -- function. The processing for concurrent type declarations is NOT here,
306 -- but rather in chapter 9 (this function handles only declarations
307 -- starting with TYPE).
323 -- Normally holds type definition, except in the case of a private
324 -- extension declaration, in which case it holds the declaration itself
326 begin
330 -- If we have TYPE, then proceed ahead and scan identifier
337 -- Otherwise this is an error case
339 else
340 T_Type;
350 else
355 -- Incomplete type declaration. We complete the processing for this
356 -- case here and return the resulting incomplete type declaration node
366 else
370 -- Full type declaration or private type declaration, must have IS
373 TF_Is;
377 Error_Msg_SC -- CODEFIX
381 else
382 TF_Is;
385 -- First an error check, if we have two identifiers in a row, a likely
386 -- possibility is that the first of the identifiers is an incorrectly
387 -- spelled keyword.
390 declare
394 begin
400 if I2
401 and then
406 then
412 -- Check for misuse of Ada 95 keyword abstract in Ada 83 mode
419 -- Check cases of misuse of ABSTRACT
426 -- Ada 2005 (AI-419): AARM 3.4 (2/2)
432 then
437 -- Check for misuse of Ada 95 keyword Tagged
445 -- Special check for misuse of Aliased
452 -- The following processing deals with either a private type declaration
453 -- or a full type declaration. In the private type case, we build the
454 -- N_Private_Type_Declaration node, setting its Tagged_Present and
455 -- Limited_Present flags, on encountering the Private keyword, and
456 -- leave Typedef_Node set to Empty. For the full type declaration
457 -- case, Typedef_Node gets set to the type definition.
461 -- Switch on token following the IS. The loop normally runs once. It
462 -- only runs more than once if an error is detected, to try again after
463 -- detecting and fixing up the error.
465 loop
467 when Tok_Access
468 | Tok_Not -- Ada 2005 (AI-231)
469 =>
489 T_Range;
515 then
519 Set_End_Label
541 -- Ada 2005 (AI-326): If the words IS TAGGED appear, the type
542 -- is a tagged incomplete type.
546 then
549 Decl_Node :=
560 Error_Msg_SC -- CODEFIX
570 -- TAGGED LIMITED PRIVATE case
573 Decl_Node :=
579 -- TAGGED LIMITED RECORD
581 else
586 End_Labl :=
593 else
594 -- TAGGED PRIVATE
597 Decl_Node :=
602 -- TAGGED RECORD
604 else
608 End_Labl :=
621 loop
623 Error_Msg_SC -- CODEFIX
628 Error_Msg_SC -- CODEFIX
632 else
637 -- LIMITED RECORD or LIMITED NULL RECORD
641 Error_Msg_SP
644 -- In Ada 2005, "abstract limited" can appear before "new",
645 -- but it cannot be part of an untagged record declaration.
647 elsif Abstract_Present
649 then
660 -- Ada 2005 (AI-251): LIMITED INTERFACE
662 -- If we are compiling in Ada 83 or Ada 95 mode, "interface"
663 -- is not a reserved word but we force its analysis to
664 -- generate the corresponding usage error.
669 then
670 Typedef_Node :=
679 -- Ada 2005 (AI-419): LIMITED NEW
683 Error_Msg_SP
685 Error_Msg_SP
694 then
695 End_Labl :=
699 Set_End_Label
703 -- LIMITED PRIVATE is the only remaining possibility here
705 else
713 -- Here we have an identifier after the IS, which is certainly
714 -- wrong and which might be one of several different mistakes.
718 -- First case, if identifier is on same line, then probably we
719 -- have something like "type X is Integer .." and the best
720 -- diagnosis is a missing NEW. Note: the missing new message
721 -- will be posted by P_Derived_Type_Def_Or_Private_Ext_Decl.
726 -- If the identifier is at the start of the line, and is in the
727 -- same column as the type declaration itself then we consider
728 -- that we had a missing type definition on the previous line
734 -- If the identifier is at the start of the line, and is in
735 -- a column to the right of the type declaration line, then we
736 -- may have something like:
738 -- type x is
739 -- r : integer
741 -- and the best diagnosis is a missing record keyword
743 else
749 -- Ada 2005 (AI-251): INTERFACE
760 -- Check error cases of private [abstract] tagged
777 -- Ada 2005 (AI-345): Protected, synchronized or task interface
778 -- or Ada 2005 (AI-443): Synchronized private extension.
780 when Tok_Protected
781 | Tok_Synchronized
782 | Tok_Task
783 =>
784 declare
787 begin
790 -- Synchronized private extension
797 N_Derived_Type_Definition
798 then
799 Error_Msg_N
801 Typedef_Node);
802 else
806 else
810 -- Interface
812 else
817 Typedef_Node :=
840 -- Anything else is an error
844 or else
846 or else
848 or else
850 or else
852 or else
854 or else
856 or else
858 or else
860 then
863 else
870 -- For the private type declaration case, the private type declaration
871 -- node has been built, with the Tagged_Present and Limited_Present
872 -- flags set as needed, and Typedef_Node is left set to Empty.
878 -- For a private extension declaration, Typedef_Node contains the
879 -- N_Private_Extension_Declaration node, which we now complete. Note
880 -- that the private extension declaration, unlike a full type
881 -- declaration, does permit unknown discriminants.
889 -- In the full type declaration case, Typedef_Node has the type
890 -- definition and here is where we build the full type declaration
891 -- node. This is also where we check for improper use of an unknown
892 -- discriminant part (not allowed for full type declaration).
894 else
898 or else Is_Derived_Iface
899 then
910 Error_Msg
912 Discr_Sloc);
916 -- Remaining processing is common for all three cases
924 ----------------------------------
925 -- 3.2.1 Full Type Declaration --
926 ----------------------------------
928 -- Parsed by P_Type_Declaration (3.2.1)
930 ----------------------------
931 -- 3.2.1 Type Definition --
932 ----------------------------
934 -- Parsed by P_Type_Declaration (3.2.1)
936 --------------------------------
937 -- 3.2.2 Subtype Declaration --
938 --------------------------------
940 -- SUBTYPE_DECLARATION ::=
941 -- subtype DEFINING_IDENTIFIER is [NULL_EXCLUSION] SUBTYPE_INDICATION
942 -- [ASPECT_SPECIFICATIONS];
944 -- The caller has checked that the initial token is SUBTYPE
946 -- Error recovery: can raise Error_Resync
952 begin
956 TF_Is;
959 Error_Msg_SC -- CODEFIX
967 Set_Subtype_Indication
973 -------------------------------
974 -- 3.2.2 Subtype Indication --
975 -------------------------------
977 -- SUBTYPE_INDICATION ::=
978 -- [not null] SUBTYPE_MARK [CONSTRAINT]
980 -- Error recovery: can raise Error_Resync
982 function P_Null_Exclusion
984 is
986 -- Source position of "not", if present
988 begin
992 else
998 -- Ada 2005 (AI-441, AI-447): null_exclusion is illegal in Ada 95,
999 -- except in the case of anonymous access types.
1001 -- Allow_Anonymous_In_95 will be True if we're parsing a formal
1002 -- parameter or discriminant, which are the only places where
1003 -- anonymous access types occur in Ada 95. "Formal : not null
1004 -- access ..." is legal in Ada 95, whereas "Formal : not null
1005 -- Named_Access_Type" is not.
1009 and then Allow_Anonymous_In_95
1011 then
1014 else
1015 Error_Msg
1017 Error_Msg
1021 else
1033 function P_Subtype_Indication
1035 is
1038 begin
1043 else
1044 -- Check for error of using record definition and treat it nicely,
1045 -- otherwise things are really messed up, so resynchronize.
1052 else
1059 -- The following function is identical except that it is called with
1060 -- the subtype mark already scanned out, and it scans out the constraint
1062 -- Error recovery: can raise Error_Resync
1064 function P_Subtype_Indication
1067 is
1071 begin
1075 or else
1078 then
1080 else
1092 -------------------------
1093 -- 3.2.2 Subtype Mark --
1094 -------------------------
1096 -- SUBTYPE_MARK ::= subtype_NAME;
1098 -- Note: The subtype mark which appears after an IN or NOT IN
1099 -- operator is parsed by P_Range_Or_Subtype_Mark (3.5)
1101 -- Error recovery: cannot raise Error_Resync
1104 begin
1106 exception
1111 -- This routine differs from P_Subtype_Mark in that it insists that an
1112 -- identifier be present, and if it is not, it raises Error_Resync.
1114 -- Error recovery: can raise Error_Resync
1119 begin
1130 else
1133 -- Check for a subtype mark attribute. The only valid possibilities
1134 -- are 'CLASS and 'BASE. Anything else is a definite error. We may
1135 -- as well catch it here.
1139 else
1145 -- The following function is called to scan out a subtype mark attribute.
1146 -- The caller has already scanned out the subtype mark, which is passed in
1147 -- as the argument, and has checked that the current token is apostrophe.
1149 -- Only a special subclass of attributes, called type attributes
1150 -- (see Snames package) are allowed in this syntactic position.
1152 -- Note: if the apostrophe is followed by other than an identifier, then
1153 -- the input expression is returned unchanged, and the scan pointer is
1154 -- left pointing to the apostrophe.
1156 -- Error recovery: can raise Error_Resync
1163 begin
1170 -- Loop through attributes appearing (more than one can appear as for
1171 -- for example in X'Base'Class). We are at an apostrophe on entry to
1172 -- this loop, and it runs once for each attribute parsed, with
1173 -- Prefix being the current possible prefix if it is an attribute.
1175 loop
1184 Error_Msg_N
1188 else
1189 Attr_Node :=
1200 -- Fall through here after scanning type attribute
1205 -----------------------
1206 -- 3.2.2 Constraint --
1207 -----------------------
1209 -- CONSTRAINT ::= SCALAR_CONSTRAINT | COMPOSITE_CONSTRAINT
1211 -- SCALAR_CONSTRAINT ::=
1212 -- RANGE_CONSTRAINT | DIGITS_CONSTRAINT | DELTA_CONSTRAINT
1214 -- COMPOSITE_CONSTRAINT ::=
1215 -- INDEX_CONSTRAINT | DISCRIMINANT_CONSTRAINT
1217 -- If no constraint is present, this function returns Empty
1219 -- Error recovery: can raise Error_Resync
1222 begin
1239 -- One more possibility is e.g. 1 .. 10 (i.e. missing RANGE keyword)
1243 Token = Tok_Real_Literal
1244 then
1245 declare
1248 begin
1256 else
1262 -- Nothing worked, no constraint there
1264 else
1269 ------------------------------
1270 -- 3.2.2 Scalar Constraint --
1271 ------------------------------
1273 -- Parsed by P_Constraint_Opt (3.2.2)
1275 ---------------------------------
1276 -- 3.2.2 Composite Constraint --
1277 ---------------------------------
1279 -- Parsed by P_Constraint_Opt (3.2.2)
1281 --------------------------------------------------------
1282 -- 3.3 Identifier Declarations (Also 7.4, 8.5, 11.1) --
1283 --------------------------------------------------------
1285 -- This routine scans out a declaration starting with an identifier:
1287 -- OBJECT_DECLARATION ::=
1288 -- DEFINING_IDENTIFIER_LIST : [aliased] [constant]
1289 -- [NULL_EXCLUSION] SUBTYPE_INDICATION [:= EXPRESSION]
1290 -- [ASPECT_SPECIFICATIONS];
1291 -- | DEFINING_IDENTIFIER_LIST : [aliased] [constant]
1292 -- ACCESS_DEFINITION [:= EXPRESSION]
1293 -- [ASPECT_SPECIFICATIONS];
1294 -- | DEFINING_IDENTIFIER_LIST : [aliased] [constant]
1295 -- ARRAY_TYPE_DEFINITION [:= EXPRESSION]
1296 -- [ASPECT_SPECIFICATIONS];
1298 -- NUMBER_DECLARATION ::=
1299 -- DEFINING_IDENTIFIER_LIST : constant ::= static_EXPRESSION;
1301 -- OBJECT_RENAMING_DECLARATION ::=
1302 -- DEFINING_IDENTIFIER :
1303 -- [NULL_EXCLUSION] SUBTYPE_MARK renames object_NAME
1304 -- [ASPECT_SPECIFICATIONS];
1305 -- | DEFINING_IDENTIFIER :
1306 -- ACCESS_DEFINITION renames object_NAME
1307 -- [ASPECT_SPECIFICATIONS];
1309 -- EXCEPTION_RENAMING_DECLARATION ::=
1310 -- DEFINING_IDENTIFIER : exception renames exception_NAME
1311 -- [ASPECT_SPECIFICATIONS];
1313 -- EXCEPTION_DECLARATION ::=
1314 -- DEFINING_IDENTIFIER_LIST : exception
1315 -- [ASPECT_SPECIFICATIONS];
1317 -- Note that the ALIASED indication in an object declaration is
1318 -- marked by a flag in the parent node.
1320 -- The caller has checked that the initial token is an identifier
1322 -- The value returned is a list of declarations, one for each identifier
1323 -- in the list (as described in Sinfo, we always split up multiple
1324 -- declarations into the equivalent sequence of single declarations
1325 -- using the More_Ids and Prev_Ids flags to preserve the source).
1327 -- If the identifier turns out to be a probable statement rather than
1328 -- an identifier, then the scan is left pointing to the identifier and
1329 -- No_List is returned.
1331 -- Error recovery: can raise Error_Resync
1333 procedure P_Identifier_Declarations
1337 is
1351 -- Used to save identifiers in the identifier list. The upper bound
1352 -- of 4096 is expected to be infinite in practice, and we do not even
1353 -- bother to check if this upper bound is exceeded.
1356 -- Number of identifiers stored in Idents
1359 -- This procedure is called in renames cases to make sure that we do
1360 -- not have more than one identifier. If we do have more than one
1361 -- then an error message is issued (and the declaration is split into
1362 -- multiple declarations)
1365 -- Checks if current token is RENAMES, and if so, scans past it and
1366 -- returns True, otherwise returns False. Includes checking for some
1367 -- common error cases.
1369 -------------
1370 -- No_List --
1371 -------------
1374 begin
1376 Error_Msg
1384 ----------------------
1385 -- Token_Is_Renames --
1386 ----------------------
1391 begin
1398 Error_Msg_SP -- CODEFIX
1402 else
1407 else
1413 else
1419 -- Start of processing for P_Identifier_Declarations
1421 begin
1426 -- If we have a colon after the identifier, then we can assume that
1427 -- this is in fact a valid identifier declaration and can steam ahead.
1432 -- If we have a comma, then scan out the list of identifiers
1441 T_Colon;
1443 -- If we have identifier followed by := then we assume that what is
1444 -- really meant is an assignment statement. The assignment statement
1445 -- is scanned out and added to the list of declarations. An exception
1446 -- occurs if the := is followed by the keyword constant, in which case
1447 -- we assume it was meant to be a colon.
1455 else
1458 -- Reset Token_Node, because it already got changed from an
1459 -- Identifier to a Defining_Identifier, and we don't want that
1460 -- for a statement!
1462 Token_Node :=
1465 -- And now scan out one or more statements
1471 -- If we have an IS keyword, then assume the TYPE keyword was missing
1479 -- Otherwise we have an error situation
1481 else
1484 -- First case is possible misuse of PROTECTED in Ada 83 mode. If
1485 -- so, fix the keyword and return to scan the protected declaration.
1497 -- Check misspelling possibilities. If so, correct the misspelling
1498 -- and return to scan out the resulting declaration.
1511 then
1515 -- Otherwise we definitely have an ordinary identifier with a junk
1516 -- token after it.
1518 else
1519 -- If in -gnatd.2 mode, try for statements
1524 -- Reset Token_Node, because it already got changed from an
1525 -- Identifier to a Defining_Identifier, and we don't want that
1526 -- for a statement!
1528 Token_Node :=
1531 -- And now scan out one or more statements
1536 -- Normal case, just complain and skip to semicolon
1538 else
1539 Set_Declaration_Expected;
1540 Resync_Past_Semicolon;
1547 -- Come here with an identifier list and colon scanned out. We now
1548 -- build the nodes for the declarative items. One node is built for
1549 -- each identifier in the list, with the type information being
1550 -- repeated by rescanning the appropriate section of source.
1552 -- First an error check, if we have two identifiers in a row, a likely
1553 -- possibility is that the first of the identifiers is an incorrectly
1554 -- spelled keyword.
1557 declare
1561 begin
1567 if I2
1568 and then
1572 then
1578 -- Loop through identifiers
1583 -- Check for some cases of misused Ada 95 keywords
1591 -- Constant cases
1597 -- Number declaration, initialization required
1603 Error_Msg_SP
1610 -- Constant object declaration
1612 else
1622 Error_Msg_SC -- CODEFIX
1629 Set_Object_Definition
1632 else
1638 Error_Msg_SP
1641 Error_Msg_SP
1645 Set_Object_Definition
1647 else
1648 Set_Object_Definition
1654 Error_Msg
1656 Con_Loc);
1662 -- Exception cases
1668 No_List;
1669 Decl_Node :=
1672 No_Constraint;
1673 else
1677 -- Aliased case (note that an object definition is required)
1690 Set_Object_Definition
1693 else
1697 -- Access definition (AI-406) or subtype indication
1701 Error_Msg_SP
1704 Error_Msg_SP
1708 Set_Object_Definition
1710 else
1711 Set_Object_Definition
1716 -- Array case
1722 -- Ada 2005 (AI-254, AI-406)
1726 -- OBJECT_DECLARATION ::=
1727 -- DEFINING_IDENTIFIER_LIST : [aliased] [constant]
1728 -- [NULL_EXCLUSION] SUBTYPE_INDICATION [:= EXPRESSION]
1729 -- [ASPECT_SPECIFICATIONS];
1730 -- | DEFINING_IDENTIFIER_LIST : [aliased] [constant]
1731 -- ACCESS_DEFINITION [:= EXPRESSION]
1732 -- [ASPECT_SPECIFICATIONS];
1734 -- OBJECT_RENAMING_DECLARATION ::=
1735 -- DEFINING_IDENTIFIER :
1736 -- [NULL_EXCLUSION] SUBTYPE_MARK renames object_NAME
1737 -- [ASPECT_SPECIFICATIONS];
1738 -- | DEFINING_IDENTIFIER :
1739 -- ACCESS_DEFINITION renames object_NAME
1740 -- [ASPECT_SPECIFICATIONS];
1746 Error_Msg_SP
1758 else
1760 No_List;
1761 Decl_Node :=
1767 else
1770 -- Object renaming declaration
1774 Error_Msg_SP
1778 -- Ada 2005 (AI-423): Object renaming declaration with
1779 -- a null exclusion.
1781 else
1782 No_List;
1783 Decl_Node :=
1790 -- Object declaration
1792 else
1795 Set_Object_Definition
1799 -- RENAMES at this point means that we had the combination
1800 -- of a constraint on the Type_Node and renames, which is
1801 -- illegal
1804 Error_Msg_N
1813 -- Ada 2005 (AI-230): Access Definition case
1817 Error_Msg_SP
1825 -- Object declaration with access definition, or renaming
1831 else
1833 No_List;
1834 Decl_Node :=
1840 -- Subtype indication case
1842 else
1845 -- Object renaming declaration
1848 No_List;
1849 Decl_Node :=
1854 -- Object declaration
1856 else
1859 Set_Object_Definition
1863 -- RENAMES at this point means that we had the combination of
1864 -- a constraint on the Type_Node and renames, which is illegal
1867 Error_Msg_N
1875 -- Scan out initialization, allowed only for object declaration
1884 else
1892 -- Allow initialization expression to follow aspects (note that in
1893 -- this case P_Aspect_Specifications already issued an error msg).
1897 Error_Msg
1902 else
1903 -- In any case, the assignment symbol doesn't belong.
1912 -- Now scan out the semicolon, which we deferred above
1914 T_Semicolon;
1929 T_Colon;
1936 -------------------------------
1937 -- 3.3.1 Object Declaration --
1938 -------------------------------
1940 -- OBJECT DECLARATION ::=
1941 -- DEFINING_IDENTIFIER_LIST : [aliased] [constant]
1942 -- SUBTYPE_INDICATION [:= EXPRESSION];
1943 -- | DEFINING_IDENTIFIER_LIST : [aliased] [constant]
1944 -- ARRAY_TYPE_DEFINITION [:= EXPRESSION];
1945 -- | SINGLE_TASK_DECLARATION
1946 -- | SINGLE_PROTECTED_DECLARATION
1948 -- Cases starting with TASK are parsed by P_Task (9.1)
1949 -- Cases starting with PROTECTED are parsed by P_Protected (9.4)
1950 -- All other cases are parsed by P_Identifier_Declarations (3.3)
1952 -------------------------------------
1953 -- 3.3.1 Defining Identifier List --
1954 -------------------------------------
1956 -- DEFINING_IDENTIFIER_LIST ::=
1957 -- DEFINING_IDENTIFIER {, DEFINING_IDENTIFIER}
1959 -- Always parsed by the construct in which it appears. See special
1960 -- section on "Handling of Defining Identifier Lists" in this unit.
1962 -------------------------------
1963 -- 3.3.2 Number Declaration --
1964 -------------------------------
1966 -- Parsed by P_Identifier_Declarations (3.3)
1968 -------------------------------------------------------------------------
1969 -- 3.4 Derived Type Definition or Private Extension Declaration (7.3) --
1970 -------------------------------------------------------------------------
1972 -- DERIVED_TYPE_DEFINITION ::=
1973 -- [abstract] [limited] new [NULL_EXCLUSION] parent_SUBTYPE_INDICATION
1974 -- [[and INTERFACE_LIST] RECORD_EXTENSION_PART]
1976 -- PRIVATE_EXTENSION_DECLARATION ::=
1977 -- type DEFINING_IDENTIFIER [DISCRIMINANT_PART] is
1978 -- [abstract] [limited | synchronized]
1979 -- new ancestor_SUBTYPE_INDICATION [and INTERFACE_LIST]
1980 -- with private [ASPECT_SPECIFICATIONS];
1982 -- RECORD_EXTENSION_PART ::= with RECORD_DEFINITION
1984 -- The caller has already scanned out the part up to the NEW, and Token
1985 -- either contains Tok_New (or ought to, if it doesn't this procedure
1986 -- will post an appropriate "NEW expected" message).
1988 -- Note: the caller is responsible for filling in the Sloc field of
1989 -- the returned node in the private extension declaration case as
1990 -- well as the stuff relating to the discriminant part.
1992 -- Error recovery: can raise Error_Resync;
1999 begin
2005 then
2006 Error_Msg_SP
2009 else
2010 T_New;
2014 Error_Msg_SC -- CODEFIX
2016 Scan;
2024 -- Ada 2005 (AI-251): Deal with interfaces
2030 Error_Msg_SP
2037 loop
2049 -- Deal with record extension, note that we assume that a WITH is
2050 -- missing in the case of "type X is new Y record ..." or in the
2051 -- case of "type X is new Y null record".
2053 -- First make sure we don't have an aspect specification. If we do
2054 -- return now, so that our caller can check it (the WITH here is not
2055 -- part of a type extension).
2060 -- OK, not an aspect specification, so continue test for extension
2065 then
2073 -- Private extension declaration
2078 -- Throw away the type definition node and build the type
2079 -- declaration node. Note the caller must set the Sloc,
2080 -- Discriminant_Specifications, Unknown_Discriminants_Present,
2081 -- and Defined_Identifier fields in the returned node.
2083 Typedecl_Node :=
2092 -- Derived type definition with record extension part
2094 else
2099 -- Derived type definition with no record extension part
2101 else
2106 ---------------------------
2107 -- 3.5 Range Constraint --
2108 ---------------------------
2110 -- RANGE_CONSTRAINT ::= range RANGE
2112 -- The caller has checked that the initial token is RANGE or some
2113 -- misspelling of it, or it may be absent completely (and a message
2114 -- has already been issued).
2116 -- Error recovery: cannot raise Error_Resync
2121 begin
2124 -- Skip range keyword if present
2134 ----------------
2135 -- 3.5 Range --
2136 ----------------
2138 -- RANGE ::=
2139 -- RANGE_ATTRIBUTE_REFERENCE | SIMPLE_EXPRESSION .. SIMPLE_EXPRESSION
2141 -- Note: the range that appears in a membership test is parsed by
2142 -- P_Range_Or_Subtype_Mark (3.5).
2144 -- Error recovery: cannot raise Error_Resync
2150 begin
2165 -- Anything else is an error
2167 else
2173 ----------------------------------
2174 -- 3.5 P_Range_Or_Subtype_Mark --
2175 ----------------------------------
2177 -- RANGE ::=
2178 -- RANGE_ATTRIBUTE_REFERENCE
2179 -- | SIMPLE_EXPRESSION .. SIMPLE_EXPRESSION
2181 -- This routine scans out the range or subtype mark that forms the right
2182 -- operand of a membership test (it is not used in any other contexts, and
2183 -- error messages are specialized with this knowledge in mind).
2185 -- Note: as documented in the Sinfo interface, although the syntax only
2186 -- allows a subtype mark, we in fact allow any simple expression to be
2187 -- returned from this routine. The semantics is responsible for issuing
2188 -- an appropriate message complaining if the argument is not a name.
2189 -- This simplifies the coding and error recovery processing in the
2190 -- parser, and in any case it is preferable not to consider this a
2191 -- syntax error and to continue with the semantic analysis.
2193 -- Error recovery: cannot raise Error_Resync
2195 function P_Range_Or_Subtype_Mark
2197 is
2202 -- Start of processing for P_Range_Or_Subtype_Mark
2204 begin
2205 -- Save location of possible junk parentheses
2209 -- Scan out either a simple expression or a range (this accepts more
2210 -- than is legal here, but as explained above, we like to allow more
2211 -- with a proper diagnostic, and in the case of a membership operation
2212 -- where sets are allowed, a simple expression is permissible anyway.
2216 -- Range attribute
2221 -- Simple_Expression .. Simple_Expression
2231 -- Case of subtype mark (optionally qualified simple name or an
2232 -- attribute whose prefix is an optionally qualified simple name)
2236 then
2237 -- Check for error of range constraint after a subtype mark
2244 -- Check for error of DIGITS or DELTA after a subtype mark
2247 Error_Msg_SC
2252 -- Attribute reference, may or may not be OK, but in any case we
2253 -- will scan it out
2258 -- OK case of simple name, just return it
2260 else
2264 -- Simple expression case
2269 -- Here we have some kind of error situation. Check for junk parens
2270 -- then return what we have, caller will deal with other errors.
2272 else
2275 then
2284 ----------------------------------------
2285 -- 3.5.1 Enumeration Type Definition --
2286 ----------------------------------------
2288 -- ENUMERATION_TYPE_DEFINITION ::=
2289 -- (ENUMERATION_LITERAL_SPECIFICATION
2290 -- {, ENUMERATION_LITERAL_SPECIFICATION})
2292 -- The caller has already scanned out the TYPE keyword
2294 -- Error recovery: can raise Error_Resync;
2299 begin
2303 T_Left_Paren;
2305 loop
2310 T_Right_Paren;
2314 ----------------------------------------------
2315 -- 3.5.1 Enumeration Literal Specification --
2316 ----------------------------------------------
2318 -- ENUMERATION_LITERAL_SPECIFICATION ::=
2319 -- DEFINING_IDENTIFIER | DEFINING_CHARACTER_LITERAL
2321 -- Error recovery: can raise Error_Resync
2324 begin
2327 else
2332 ---------------------------------------
2333 -- 3.5.1 Defining_Character_Literal --
2334 ---------------------------------------
2336 -- DEFINING_CHARACTER_LITERAL ::= CHARACTER_LITERAL
2338 -- Error recovery: cannot raise Error_Resync
2340 -- The caller has checked that the current token is a character literal
2344 begin
2351 ------------------------------------
2352 -- 3.5.4 Integer Type Definition --
2353 ------------------------------------
2355 -- Parsed by P_Type_Declaration (3.2.1)
2357 -------------------------------------------
2358 -- 3.5.4 Signed Integer Type Definition --
2359 -------------------------------------------
2361 -- SIGNED_INTEGER_TYPE_DEFINITION ::=
2362 -- range static_SIMPLE_EXPRESSION .. static_SIMPLE_EXPRESSION
2364 -- Normally the initial token on entry is RANGE, but in some
2365 -- error conditions, the range token was missing and control is
2366 -- passed with Token pointing to first token of the first expression.
2368 -- Error recovery: cannot raise Error_Resync
2374 begin
2383 -- Range case (not permitted by the grammar, this is surprising but
2384 -- the grammar in the RM is as quoted above, and does not allow Range).
2387 Error_Msg_N
2394 -- Normal case of explicit range
2396 else
2399 T_Dot_Dot;
2408 ------------------------------------
2409 -- 3.5.4 Modular Type Definition --
2410 ------------------------------------
2412 -- MODULAR_TYPE_DEFINITION ::= mod static_EXPRESSION
2414 -- The caller has checked that the initial token is MOD
2416 -- Error recovery: cannot raise Error_Resync
2421 begin
2430 -- Handle mod L..R cleanly
2441 ---------------------------------
2442 -- 3.5.6 Real Type Definition --
2443 ---------------------------------
2445 -- Parsed by P_Type_Declaration (3.2.1)
2447 --------------------------------------
2448 -- 3.5.7 Floating Point Definition --
2449 --------------------------------------
2451 -- FLOATING_POINT_DEFINITION ::=
2452 -- digits static_EXPRESSION [REAL_RANGE_SPECIFICATION]
2454 -- Note: In Ada-83, the EXPRESSION must be a SIMPLE_EXPRESSION
2456 -- The caller has checked that the initial token is DIGITS
2458 -- Error recovery: cannot raise Error_Resync
2465 begin
2470 -- Handle decimal fixed-point defn with DIGITS/DELTA in wrong order
2473 Error_Msg_SC -- CODEFIX
2479 -- OK floating-point definition
2481 else
2490 -------------------------------------
2491 -- 3.5.7 Real Range Specification --
2492 -------------------------------------
2494 -- REAL_RANGE_SPECIFICATION ::=
2495 -- range static_SIMPLE_EXPRESSION .. static_SIMPLE_EXPRESSION
2497 -- Error recovery: cannot raise Error_Resync
2503 begin
2505 Specification_Node :=
2511 T_Dot_Dot;
2516 else
2521 -----------------------------------
2522 -- 3.5.9 Fixed Point Definition --
2523 -----------------------------------
2525 -- FIXED_POINT_DEFINITION ::=
2526 -- ORDINARY_FIXED_POINT_DEFINITION | DECIMAL_FIXED_POINT_DEFINITION
2528 -- ORDINARY_FIXED_POINT_DEFINITION ::=
2529 -- delta static_EXPRESSION REAL_RANGE_SPECIFICATION
2531 -- DECIMAL_FIXED_POINT_DEFINITION ::=
2532 -- delta static_EXPRESSION
2533 -- digits static_EXPRESSION [REAL_RANGE_SPECIFICATION]
2535 -- The caller has checked that the initial token is DELTA
2537 -- Error recovery: cannot raise Error_Resync
2545 begin
2562 else
2565 -- Range is required in ordinary fixed point case
2569 T_Range;
2578 --------------------------------------------
2579 -- 3.5.9 Ordinary Fixed Point Definition --
2580 --------------------------------------------
2582 -- Parsed by P_Fixed_Point_Definition (3.5.9)
2584 -------------------------------------------
2585 -- 3.5.9 Decimal Fixed Point Definition --
2586 -------------------------------------------
2588 -- Parsed by P_Decimal_Point_Definition (3.5.9)
2590 ------------------------------
2591 -- 3.5.9 Digits Constraint --
2592 ------------------------------
2594 -- DIGITS_CONSTRAINT ::=
2595 -- digits static_EXPRESSION [RANGE_CONSTRAINT]
2597 -- Note: in Ada 83, the EXPRESSION must be a SIMPLE_EXPRESSION
2599 -- The caller has checked that the initial token is DIGITS
2605 begin
2619 -----------------------------
2620 -- 3.5.9 Delta Constraint --
2621 -----------------------------
2623 -- DELTA CONSTRAINT ::= DELTA STATIC_EXPRESSION [RANGE_CONSTRAINT]
2625 -- Note: this is an obsolescent feature in Ada 95 (I.3)
2627 -- Note: in Ada 83, the EXPRESSION must be a SIMPLE_EXPRESSION
2628 -- (also true in formal modes).
2630 -- The caller has checked that the initial token is DELTA
2632 -- Error recovery: cannot raise Error_Resync
2638 begin
2653 --------------------------------
2654 -- 3.6 Array Type Definition --
2655 --------------------------------
2657 -- ARRAY_TYPE_DEFINITION ::=
2658 -- UNCONSTRAINED_ARRAY_DEFINITION | CONSTRAINED_ARRAY_DEFINITION
2660 -- UNCONSTRAINED_ARRAY_DEFINITION ::=
2661 -- array (INDEX_SUBTYPE_DEFINITION {, INDEX_SUBTYPE_DEFINITION}) of
2662 -- COMPONENT_DEFINITION
2664 -- INDEX_SUBTYPE_DEFINITION ::= SUBTYPE_MARK range <>
2666 -- CONSTRAINED_ARRAY_DEFINITION ::=
2667 -- array (DISCRETE_SUBTYPE_DEFINITION {, DISCRETE_SUBTYPE_DEFINITION}) of
2668 -- COMPONENT_DEFINITION
2670 -- DISCRETE_SUBTYPE_DEFINITION ::=
2671 -- DISCRETE_SUBTYPE_INDICATION | RANGE
2673 -- COMPONENT_DEFINITION ::=
2674 -- [aliased] [NULL_EXCLUSION] SUBTYPE_INDICATION | ACCESS_DEFINITION
2676 -- The caller has checked that the initial token is ARRAY
2678 -- Error recovery: can raise Error_Resync
2689 begin
2693 T_Left_Paren;
2695 -- It's quite tricky to disentangle these two possibilities, so we do
2696 -- a prescan to determine which case we have and then reset the scan.
2697 -- The prescan skips past possible subtype mark tokens.
2704 loop
2705 Scan;
2708 -- If we end up on RANGE <> then we have the unconstrained case. We
2709 -- will also allow the RANGE to be omitted, just to improve error
2710 -- handling for a case like array (integer <>) of integer;
2715 Prev_Token = Tok_Box
2716 then
2720 loop
2722 T_Range;
2723 T_Box;
2725 T_Comma;
2730 else
2734 loop
2742 T_Right_Paren;
2743 T_Of;
2758 -- Ada 2005 (AI-230): Access Definition case
2762 Error_Msg_SP
2768 -- AI95-406 makes "aliased" legal (and useless) in this context so
2769 -- followintg code which used to be needed is commented out.
2771 -- if Aliased_Present then
2772 -- Error_Msg_SP ("ALIASED not allowed here");
2773 -- end if;
2779 else
2793 -----------------------------------------
2794 -- 3.6 Unconstrained Array Definition --
2795 -----------------------------------------
2797 -- Parsed by P_Array_Type_Definition (3.6)
2799 ---------------------------------------
2800 -- 3.6 Constrained Array Definition --
2801 ---------------------------------------
2803 -- Parsed by P_Array_Type_Definition (3.6)
2805 --------------------------------------
2806 -- 3.6 Discrete Subtype Definition --
2807 --------------------------------------
2809 -- DISCRETE_SUBTYPE_DEFINITION ::=
2810 -- discrete_SUBTYPE_INDICATION | RANGE
2812 -- Note: the discrete subtype definition appearing in a constrained
2813 -- array definition is parsed by P_Array_Type_Definition (3.6)
2815 -- Error recovery: cannot raise Error_Resync
2818 begin
2819 -- The syntax of a discrete subtype definition is identical to that
2820 -- of a discrete range, so we simply share the same parsing code.
2825 -------------------------------
2826 -- 3.6 Component Definition --
2827 -------------------------------
2829 -- For the array case, parsed by P_Array_Type_Definition (3.6)
2830 -- For the record case, parsed by P_Component_Declaration (3.8)
2832 -----------------------------
2833 -- 3.6.1 Index Constraint --
2834 -----------------------------
2836 -- Parsed by P_Index_Or_Discriminant_Constraint (3.7.1)
2838 ---------------------------
2839 -- 3.6.1 Discrete Range --
2840 ---------------------------
2842 -- DISCRETE_RANGE ::= discrete_SUBTYPE_INDICATION | RANGE
2844 -- The possible forms for a discrete range are:
2846 -- Subtype_Mark (SUBTYPE_INDICATION, 3.2.2)
2847 -- Subtype_Mark range Range (SUBTYPE_INDICATION, 3.2.2)
2848 -- Range_Attribute (RANGE, 3.5)
2849 -- Simple_Expression .. Simple_Expression (RANGE, 3.5)
2851 -- Error recovery: cannot raise Error_Resync
2857 begin
2870 -- Check Expression .. Expression case
2881 -- Otherwise we must have a subtype mark, or an Ada 2012 iterator
2886 -- The domain of iteration must be a name. Semantics will determine that
2887 -- the expression has the proper form.
2892 -- If incorrect, complain that we expect ..
2894 else
2895 T_Dot_Dot;
2900 ----------------------------
2901 -- 3.7 Discriminant Part --
2902 ----------------------------
2904 -- DISCRIMINANT_PART ::=
2905 -- UNKNOWN_DISCRIMINANT_PART
2906 -- | KNOWN_DISCRIMINANT_PART
2908 -- A discriminant part is parsed by P_Known_Discriminant_Part_Opt (3.7)
2909 -- or P_Unknown_Discriminant_Part (3.7), since we know which we want.
2911 ------------------------------------
2912 -- 3.7 Unknown Discriminant Part --
2913 ------------------------------------
2915 -- UNKNOWN_DISCRIMINANT_PART ::= (<>)
2917 -- If no unknown discriminant part is present, then False is returned,
2918 -- otherwise the unknown discriminant is scanned out and True is returned.
2920 -- Error recovery: cannot raise Error_Resync
2925 begin
2926 -- If <> right now, then this is missing left paren
2929 U_Left_Paren;
2931 -- If not <> or left paren, then definitely no box
2936 -- Left paren, so might be a box after it
2938 else
2948 -- We are now pointing to the box
2959 ----------------------------------
2960 -- 3.7 Known Discriminant Part --
2961 ----------------------------------
2963 -- KNOWN_DISCRIMINANT_PART ::=
2964 -- (DISCRIMINANT_SPECIFICATION {; DISCRIMINANT_SPECIFICATION})
2966 -- DISCRIMINANT_SPECIFICATION ::=
2967 -- DEFINING_IDENTIFIER_LIST : [NULL_EXCLUSION] SUBTYPE_MARK
2968 -- [:= DEFAULT_EXPRESSION]
2969 -- | DEFINING_IDENTIFIER_LIST : ACCESS_DEFINITION
2970 -- [:= DEFAULT_EXPRESSION]
2972 -- If no known discriminant part is present, then No_List is returned
2974 -- Error recovery: cannot raise Error_Resync
2986 -- This array holds the list of defining identifiers. The upper bound
2987 -- of 4096 is intended to be essentially infinite, and we do not even
2988 -- bother to check for it being exceeded.
2990 begin
2994 P_Pragmas_Misplaced;
3007 -- If there are multiple identifiers, we repeatedly scan the
3008 -- type and initialization expression information by resetting
3009 -- the scan pointer (so that we get completely separate trees
3010 -- for each occurrence).
3016 T_Colon;
3018 -- Loop through defining identifiers in list
3022 Specification_Node :=
3030 Error_Msg_SC
3034 Set_Discriminant_Type
3038 -- Catch ouf-of-order keywords
3041 Scan;
3045 Set_Discriminant_Type
3049 else
3053 else
3054 Set_Discriminant_Type
3056 No_Constraint;
3057 Set_Null_Exclusion_Present -- Ada 2005 (AI-231)
3061 Set_Expression
3076 T_Colon;
3081 P_Pragmas_Misplaced;
3084 T_Right_Paren;
3087 else
3092 -------------------------------------
3093 -- 3.7 Discriminant Specification --
3094 -------------------------------------
3096 -- Parsed by P_Known_Discriminant_Part_Opt (3.7)
3098 -----------------------------
3099 -- 3.7 Default Expression --
3100 -----------------------------
3102 -- Always parsed (simply as an Expression) by the parent construct
3104 ------------------------------------
3105 -- 3.7.1 Discriminant Constraint --
3106 ------------------------------------
3108 -- Parsed by P_Index_Or_Discriminant_Constraint (3.7.1)
3110 --------------------------------------------------------
3111 -- 3.7.1 Index or Discriminant Constraint (also 3.6) --
3112 --------------------------------------------------------
3114 -- DISCRIMINANT_CONSTRAINT ::=
3115 -- (DISCRIMINANT_ASSOCIATION {, DISCRIMINANT_ASSOCIATION})
3117 -- DISCRIMINANT_ASSOCIATION ::=
3118 -- [discriminant_SELECTOR_NAME {| discriminant_SELECTOR_NAME} =>]
3119 -- EXPRESSION
3121 -- This routine parses either an index or a discriminant constraint. As
3122 -- is clear from the above grammar, it is often possible to clearly
3123 -- determine which of the two possibilities we have, but there are
3124 -- cases (those in which we have a series of expressions of the same
3125 -- syntactic form as subtype indications), where we cannot tell. Since
3126 -- this means that in any case the semantic phase has to distinguish
3127 -- between the two, there is not much point in the parser trying to
3128 -- distinguish even those cases where the difference is clear. In any
3129 -- case, if we have a situation like:
3131 -- (A => 123, 235 .. 500)
3133 -- it is not clear which of the two items is the wrong one, better to
3134 -- let the semantic phase give a clear message. Consequently, this
3135 -- routine in general returns a list of items which can be either
3136 -- discrete ranges or discriminant associations.
3138 -- The caller has checked that the initial token is a left paren
3140 -- Error recovery: can raise Error_Resync
3149 begin
3155 -- The two syntactic forms are a little mixed up, so what we are doing
3156 -- here is looking at the first entry to determine which case we have
3158 -- A discriminant constraint is a list of discriminant associations,
3159 -- which have one of the following possible forms:
3161 -- Expression
3162 -- Id => Expression
3163 -- Id | Id | .. | Id => Expression
3165 -- An index constraint is a list of discrete ranges which have one
3166 -- of the following possible forms:
3168 -- Subtype_Mark
3169 -- Subtype_Mark range Range
3170 -- Range_Attribute
3171 -- Simple_Expression .. Simple_Expression
3173 -- Loop through discriminants in list
3175 loop
3176 -- Check cases of Id => Expression or Id | Id => Expression
3186 else
3191 -- Otherwise scan out an expression and see what we have got
3206 -- Check Simple_Expression .. Simple_Expression case
3219 -- Case of an expression which could be either form
3221 else
3226 -- Here with a single entry scanned
3233 T_Right_Paren;
3237 -------------------------------------
3238 -- 3.7.1 Discriminant Association --
3239 -------------------------------------
3241 -- DISCRIMINANT_ASSOCIATION ::=
3242 -- [discriminant_SELECTOR_NAME {| discriminant_SELECTOR_NAME} =>]
3243 -- EXPRESSION
3245 -- This routine is used only when the name list is present and the caller
3246 -- has already checked this (by scanning ahead and repositioning the
3247 -- scan).
3249 -- Error_Recovery: cannot raise Error_Resync;
3256 begin
3260 loop
3268 TF_Arrow;
3273 ---------------------------------
3274 -- 3.8 Record Type Definition --
3275 ---------------------------------
3277 -- RECORD_TYPE_DEFINITION ::=
3278 -- [[abstract] tagged] [limited] RECORD_DEFINITION
3280 -- There is no node in the tree for a record type definition. Instead
3281 -- a record definition node appears, with possible Abstract_Present,
3282 -- Tagged_Present, and Limited_Present flags set appropriately.
3284 ----------------------------
3285 -- 3.8 Record Definition --
3286 ----------------------------
3288 -- RECORD_DEFINITION ::=
3289 -- record
3290 -- COMPONENT_LIST
3291 -- end record
3292 -- | null record
3294 -- Note: in the case where a record definition node is used to represent
3295 -- a record type definition, the caller sets the Tagged_Present and
3296 -- Limited_Present flags in the resulting N_Record_Definition node as
3297 -- required.
3299 -- Note that the RECORD token at the start may be missing in certain
3300 -- error situations, so this function is expected to post the error
3302 -- Error recovery: can raise Error_Resync
3307 begin
3311 -- Null record case
3315 T_Record;
3318 -- Catch incomplete declaration to prevent cascaded errors, see
3319 -- ACATS B393002 for an example.
3324 -- Case starting with RECORD keyword. Build scope stack entry. For the
3325 -- column, we use the first non-blank character on the line, to deal
3326 -- with situations such as:
3328 -- type X is record
3329 -- ...
3330 -- end record;
3332 -- which is not official RM indentation, but is not uncommon usage, and
3333 -- in particular is standard GNAT coding style, so handle it nicely.
3335 else
3336 Push_Scope_Stack;
3343 T_Record;
3347 loop
3357 -------------------------
3358 -- 3.8 Component List --
3359 -------------------------
3361 -- COMPONENT_LIST ::=
3362 -- COMPONENT_ITEM {COMPONENT_ITEM}
3363 -- | {COMPONENT_ITEM} VARIANT_PART
3364 -- | null;
3366 -- Error recovery: cannot raise Error_Resync
3374 begin
3378 -- Handle null
3383 TF_Semicolon;
3386 -- If we have an END or WHEN now, everything is fine, otherwise we
3387 -- complain about the null, ignore it, and scan for more components.
3392 else
3397 -- Scan components for non-null record
3410 -- We are done if we do not have an identifier. However, if we
3411 -- have a misspelled reserved identifier that is in a column to
3412 -- the right of the record definition, we will treat it as an
3413 -- identifier. It turns out to be too dangerous in practice to
3414 -- accept such a mis-spelled identifier which does not have this
3415 -- additional clue that confirms the incorrect spelling.
3419 and then Is_Reserved_Identifier
3420 then
3428 -- Note reserved identifier used as field name after all
3429 -- because not followed by colon or comma.
3431 else
3436 -- Non-identifier that definitely was not reserved id
3438 else
3448 -- Check for junk after variant part
3464 else
3474 -------------------------
3475 -- 3.8 Component Item --
3476 -------------------------
3478 -- COMPONENT_ITEM ::= COMPONENT_DECLARATION | REPRESENTATION_CLAUSE
3480 -- COMPONENT_DECLARATION ::=
3481 -- DEFINING_IDENTIFIER_LIST : COMPONENT_DEFINITION
3482 -- [:= DEFAULT_EXPRESSION]
3483 -- [ASPECT_SPECIFICATIONS];
3485 -- COMPONENT_DEFINITION ::=
3486 -- [aliased] [NULL_EXCLUSION] SUBTYPE_INDICATION | ACCESS_DEFINITION
3488 -- Error recovery: cannot raise Error_Resync, if an error occurs,
3489 -- the scan is positioned past the following semicolon.
3491 -- Note: we do not yet allow representation clauses to appear as component
3492 -- items, do we need to add this capability sometime in the future ???
3505 -- This array holds the list of defining identifiers. The upper bound
3506 -- of 4096 is intended to be essentially infinite, and we do not even
3507 -- bother to check for it being exceeded.
3509 begin
3512 Resync_Past_Semicolon;
3517 Check_Bad_Layout;
3526 -- If there are multiple identifiers, we repeatedly scan the
3527 -- type and initialization expression information by resetting
3528 -- the scan pointer (so that we get completely separate trees
3529 -- for each occurrence).
3535 T_Colon;
3537 -- Loop through defining identifiers in list
3542 -- The following block is present to catch Error_Resync
3543 -- which causes the parse to be reset past the semicolon
3545 begin
3551 Scan;
3567 -- Ada 2005 (AI-230): Access Definition case
3571 Error_Msg_SP
3577 -- AI95-406 makes "aliased" legal (and useless) here, so the
3578 -- following code which used to be required is commented out.
3580 -- if Aliased_Present then
3581 -- Error_Msg_SP ("ALIASED not allowed here");
3582 -- end if;
3588 else
3616 exception
3619 Resync_Past_Semicolon;
3626 T_Colon;
3632 --------------------------------
3633 -- 3.8 Component Declaration --
3634 --------------------------------
3636 -- Parsed by P_Component_Items (3.8)
3638 -------------------------
3639 -- 3.8.1 Variant Part --
3640 -------------------------
3642 -- VARIANT_PART ::=
3643 -- case discriminant_DIRECT_NAME is
3644 -- VARIANT
3645 -- {VARIANT}
3646 -- end case;
3648 -- The caller has checked that the initial token is CASE
3650 -- Error recovery: cannot raise Error_Resync
3657 begin
3659 Push_Scope_Stack;
3673 Error_Msg
3679 TF_Is;
3683 -- Test missing variant
3687 else
3691 -- Loop through variants, note that we allow if in place of when,
3692 -- this error will be detected and handled in P_Variant.
3694 loop
3700 then
3711 --------------------
3712 -- 3.8.1 Variant --
3713 --------------------
3715 -- VARIANT ::=
3716 -- when DISCRETE_CHOICE_LIST =>
3717 -- COMPONENT_LIST
3719 -- Error recovery: cannot raise Error_Resync
3721 -- The initial token on entry is either WHEN, IF or OTHERS
3726 begin
3727 -- Special check to recover nicely from use of IF in place of WHEN
3730 T_When;
3732 else
3733 T_When;
3738 TF_Arrow;
3743 ---------------------------------
3744 -- 3.8.1 Discrete Choice List --
3745 ---------------------------------
3747 -- DISCRETE_CHOICE_LIST ::= DISCRETE_CHOICE {| DISCRETE_CHOICE}
3749 -- DISCRETE_CHOICE ::= EXPRESSION | DISCRETE_RANGE | others
3751 -- Note: in Ada 83, the expression must be a simple expression
3753 -- Error recovery: cannot raise Error_Resync
3760 begin
3762 loop
3767 else
3768 begin
3769 -- Scan out expression or range attribute
3776 then
3780 -- Range attribute
3785 -- Explicit range
3797 -- Simple name, must be subtype, so range allowed
3804 Error_Msg_SC
3810 else
3814 -- Expression
3816 else
3817 -- In Ada 2012 mode, the expression must be a simple
3818 -- expression. The reason for this restriction (i.e. going
3819 -- back to the Ada 83 rule) is to avoid ambiguities when set
3820 -- membership operations are allowed, consider the
3821 -- following:
3823 -- when A in 1 .. 10 | 12 =>
3825 -- This is ambiguous without parentheses, so we require one
3826 -- of the following two parenthesized forms to disambiguate:
3828 -- one of the following:
3830 -- when (A in 1 .. 10 | 12) =>
3831 -- when (A in 1 .. 10) | 12 =>
3833 -- To solve this, in Ada 2012 mode, we disallow the use of
3834 -- membership operations in expressions in choices.
3836 -- Technically in the grammar, the expression must match the
3837 -- grammar for restricted expression.
3842 -- In Ada 83 mode, the syntax required a simple expression
3844 else
3851 exception
3853 Resync_Choice;
3866 Error_Msg_SP -- CODEFIX
3870 else
3871 Error_Msg_SP -- CODEFIX
3875 else
3885 ----------------------------
3886 -- 3.8.1 Discrete Choice --
3887 ----------------------------
3889 -- Parsed by P_Discrete_Choice_List (3.8.1)
3891 ----------------------------------
3892 -- 3.9.1 Record Extension Part --
3893 ----------------------------------
3895 -- RECORD_EXTENSION_PART ::= with RECORD_DEFINITION
3897 -- Parsed by P_Derived_Type_Def_Or_Private_Ext_Decl (3.4)
3899 --------------------------------------
3900 -- 3.9.4 Interface Type Definition --
3901 --------------------------------------
3903 -- INTERFACE_TYPE_DEFINITION ::=
3904 -- [limited | task | protected | synchronized] interface
3905 -- [and INTERFACE_LIST]
3907 -- Error recovery: cannot raise Error_Resync
3909 function P_Interface_Type_Definition
3911 is
3914 begin
3921 Error_Msg_SP
3928 -- Ada 2005 (AI-345): In case of interfaces with a null list of
3929 -- interfaces we build a record_definition node.
3939 -- Ada 2005 (AI-251): In case of not-synchronized interfaces that have
3940 -- a list of interfaces we build a derived_type_definition node. This
3941 -- simplifies the semantic analysis (and hence further maintenance)
3943 else
3946 else
3964 loop
3976 ----------------------------------
3977 -- 3.10 Access Type Definition --
3978 ----------------------------------
3980 -- ACCESS_TYPE_DEFINITION ::=
3981 -- ACCESS_TO_OBJECT_DEFINITION
3982 -- | ACCESS_TO_SUBPROGRAM_DEFINITION
3984 -- ACCESS_TO_OBJECT_DEFINITION ::=
3985 -- [NULL_EXCLUSION] access [GENERAL_ACCESS_MODIFIER] SUBTYPE_INDICATION
3987 -- GENERAL_ACCESS_MODIFIER ::= all | constant
3989 -- ACCESS_TO_SUBPROGRAM_DEFINITION
3990 -- [NULL_EXCLUSION] access [protected] procedure PARAMETER_PROFILE
3991 -- | [NULL_EXCLUSION] access [protected] function
3992 -- PARAMETER_AND_RESULT_PROFILE
3994 -- PARAMETER_PROFILE ::= [FORMAL_PART]
3996 -- PARAMETER_AND_RESULT_PROFILE ::= [FORMAL_PART] RETURN SUBTYPE_MARK
3998 -- Ada 2005 (AI-254): If Header_Already_Parsed then the caller has already
3999 -- parsed the null_exclusion part and has also removed the ACCESS token;
4000 -- otherwise the caller has just checked that the initial token is ACCESS
4002 -- Error recovery: can raise Error_Resync
4004 function P_Access_Type_Definition
4006 is
4016 -- Used in access to subprogram definition cases to check for an
4017 -- identifier or operator symbol that does not belong.
4019 --------------------------------
4020 -- Check_Junk_Subprogram_Name --
4021 --------------------------------
4026 begin
4035 else
4041 -- Start of processing for P_Access_Type_Definition
4043 begin
4046 -- NOT NULL ACCESS .. is a common form of access definition.
4047 -- ACCESS NOT NULL .. is certainly rare, but syntactically legal.
4048 -- NOT NULL ACCESS NOT NULL .. is rarer yet, and also legal.
4049 -- The last two cases are only meaningful if the following subtype
4050 -- indication denotes an access type (semantic check). The flag
4051 -- Not_Null_Subtype indicates that this second null exclusion is
4052 -- present in the access type definition.
4070 Error_Msg_SC -- CODEFIX
4083 Check_Junk_Subprogram_Name;
4095 Check_Junk_Subprogram_Name;
4098 TF_Return;
4102 -- Ada 2005 (AI-318-02)
4106 Error_Msg_SC
4113 else
4115 No_Constraint;
4117 -- A null exclusion on the result type must be recorded in a flag
4118 -- distinct from the one used for the access-to-subprogram type's
4119 -- null exclusion.
4121 Set_Null_Exclusion_In_Return_Present
4127 else
4128 Type_Def_Node :=
4141 else
4155 ---------------------------------------
4156 -- 3.10 Access To Object Definition --
4157 ---------------------------------------
4159 -- Parsed by P_Access_Type_Definition (3.10)
4161 -----------------------------------
4162 -- 3.10 General Access Modifier --
4163 -----------------------------------
4165 -- Parsed by P_Access_Type_Definition (3.10)
4167 -------------------------------------------
4168 -- 3.10 Access To Subprogram Definition --
4169 -------------------------------------------
4171 -- Parsed by P_Access_Type_Definition (3.10)
4173 -----------------------------
4174 -- 3.10 Access Definition --
4175 -----------------------------
4177 -- ACCESS_DEFINITION ::=
4178 -- [NULL_EXCLUSION] access [GENERAL_ACCESS_MODIFIER] SUBTYPE_MARK
4179 -- | ACCESS_TO_SUBPROGRAM_DEFINITION
4180 --
4181 -- ACCESS_TO_SUBPROGRAM_DEFINITION
4182 -- [NULL_EXCLUSION] access [protected] procedure PARAMETER_PROFILE
4183 -- | [NULL_EXCLUSION] access [protected] function
4184 -- PARAMETER_AND_RESULT_PROFILE
4186 -- The caller has parsed the null-exclusion part and it has also checked
4187 -- that the next token is ACCESS
4189 -- Error recovery: cannot raise Error_Resync
4191 function P_Access_Definition
4193 is
4197 begin
4201 -- Ada 2005 (AI-254): Access_To_Subprogram_Definition
4206 then
4216 -- Ada 2005 (AI-231)
4217 -- [NULL_EXCLUSION] access [GENERAL_ACCESS_MODIFIER] SUBTYPE_MARK
4219 else
4224 Error_Msg_SP
4242 No_Constraint;
4248 -----------------------------------------
4249 -- 3.10.1 Incomplete Type Declaration --
4250 -----------------------------------------
4252 -- Parsed by P_Type_Declaration (3.2.1)
4254 ----------------------------
4255 -- 3.11 Declarative Part --
4256 ----------------------------
4258 -- DECLARATIVE_PART ::= {DECLARATIVE_ITEM}
4260 -- Error recovery: cannot raise Error_Resync (because P_Declarative_Items
4261 -- handles errors, and returns cleanly after an error has occurred)
4267 begin
4268 -- Indicate no bad declarations detected yet. This will be reset by
4269 -- P_Declarative_Items if a bad declaration is discovered.
4273 -- Get rid of active SIS entry from outer scope. This means we will
4274 -- miss some nested cases, but it doesn't seem worth the effort. See
4275 -- discussion in Par for further details
4280 -- Loop to scan out the declarations
4282 loop
4287 -- Get rid of active SIS entry which is left set only if we scanned a
4288 -- procedure declaration and have not found the body. We could give
4289 -- an error message, but that really would be usurping the role of
4290 -- semantic analysis (this really is a missing body case).
4296 ----------------------------
4297 -- 3.11 Declarative Item --
4298 ----------------------------
4300 -- DECLARATIVE_ITEM ::= BASIC_DECLARATIVE_ITEM | BODY
4302 -- Can return Error if a junk declaration is found, or Empty if no
4303 -- declaration is found (i.e. a token ending declarations, such as
4304 -- BEGIN or END is encountered).
4306 -- Error recovery: cannot raise Error_Resync. If an error resync occurs,
4307 -- then the scan is set past the next semicolon and Error is returned.
4309 procedure P_Declarative_Items
4313 is
4316 begin
4324 when Tok_Function
4325 | Tok_Not
4326 | Tok_Overriding
4327 | Tok_Procedure
4328 =>
4329 Check_Bad_Layout;
4333 Check_Bad_Layout;
4335 -- Check for loop (premature statement)
4350 -- Not a loop, so must be rep clause
4356 Check_Bad_Layout;
4360 Check_Bad_Layout;
4362 -- Special check for misuse of overriding not in Ada 2005 mode
4366 then
4373 -- Normal case, no overriding, or overriding followed by colon
4375 else
4380 Check_Bad_Layout;
4387 Check_Bad_Layout;
4392 Check_Bad_Layout;
4396 Check_Bad_Layout;
4401 Check_Bad_Layout;
4405 Check_Bad_Layout;
4409 Check_Bad_Layout;
4413 -- If we are after a semicolon, complain that it was ignored.
4414 -- But we don't really ignore it, since we dump the aspects,
4415 -- so we make the error message a normal fatal message which
4416 -- will inhibit semantic analysis anyway).
4419 Error_Msg_SP -- CODEFIX
4422 -- If not just past semicolon, just complain that aspects are
4423 -- not allowed at this point.
4425 else
4429 -- Assume that this is a misplaced aspect specification within
4430 -- a declarative list. After discarding the misplaced aspects
4431 -- we can continue the scan.
4433 declare
4437 -- Dummy node to attach aspect specifications to. We will
4438 -- then throw them away.
4440 begin
4444 -- Here if not aspect specifications case
4446 else
4451 -- BEGIN terminates the scan of a sequence of declarations unless
4452 -- there is a missing subprogram body, see section on handling
4453 -- semicolon in place of IS. We only treat the begin as satisfying
4454 -- the subprogram declaration if it falls in the expected column
4455 -- or to its right.
4460 -- Here we have the case where a BEGIN is encountered during
4461 -- declarations in a declarative part, or at the outer level,
4462 -- and there is a subprogram declaration outstanding for which
4463 -- no body has been supplied. This is the case where we assume
4464 -- that the semicolon in the subprogram declaration should
4465 -- really have been is. The active SIS entry describes the
4466 -- subprogram declaration. On return the declaration has been
4467 -- modified to become a body.
4469 declare
4474 begin
4475 -- First issue the error message. If we had a missing
4476 -- semicolon in the declaration, then change the message
4477 -- to <missing "is">
4480 Change_Error_Text -- Replace: "missing "";"" "
4483 -- Otherwise we saved the semicolon position, so complain
4485 else
4486 Error_Msg -- CODEFIX
4490 -- The next job is to fix up any declarations that occurred
4491 -- between the procedure header and the BEGIN. These got
4492 -- chained to the outer declarative region (immediately
4493 -- after the procedure declaration) and they should be
4494 -- chained to the subprogram itself, which is a body
4495 -- rather than a spec.
4503 loop
4509 -- Now make the scope table entry for the Begin-End and
4510 -- scan it out
4512 Push_Scope_Stack;
4521 P_Handled_Sequence_Of_Statements);
4525 else
4529 -- Normally an END terminates the scan for basic declarative items.
4530 -- The one exception is END RECORD, which is probably left over from
4531 -- some other junk.
4540 TF_Semicolon;
4542 -- This might happen because of misplaced aspect specification.
4543 -- After discarding the misplaced aspects we can continue the
4544 -- scan.
4546 else
4551 -- The following tokens which can only be the start of a statement
4552 -- are considered to end a declarative part (i.e. we have a missing
4553 -- BEGIN situation). We are fairly conservative in making this
4554 -- judgment, because it is a real mess to go into statement mode
4555 -- prematurely in response to a junk declaration.
4557 when Tok_Abort
4558 | Tok_Accept
4559 | Tok_Declare
4560 | Tok_Delay
4561 | Tok_Exit
4562 | Tok_Goto
4563 | Tok_If
4564 | Tok_Loop
4565 | Tok_Null
4566 | Tok_Requeue
4567 | Tok_Select
4568 | Tok_While
4569 =>
4570 -- But before we decide that it's a statement, let's check for
4571 -- a reserved word misused as an identifier.
4577 -- If reserved identifier not followed by colon or comma, then
4578 -- this is most likely an assignment statement to the bad id.
4585 -- Otherwise we have a declaration of the bad id
4587 else
4593 -- If not reserved identifier, then it's definitely a statement
4595 else
4600 -- The token RETURN may well also signal a missing BEGIN situation,
4601 -- however, we never let it end the declarative part, because it may
4602 -- also be part of a half-baked function declaration.
4608 -- PRIVATE definitely terminates the declarations in a spec,
4609 -- and is an error in a body.
4614 else
4619 -- An end of file definitely terminates the declarations
4624 -- The remaining tokens do not end the scan, but cannot start a
4625 -- valid declaration, so we signal an error and resynchronize.
4626 -- But first check for misuse of a reserved identifier.
4630 -- Here we check for a reserved identifier
4638 Set_Declaration_Expected;
4640 else
4643 Check_Bad_Layout;
4647 else
4648 Set_Declaration_Expected;
4653 -- To resynchronize after an error, we scan to the next semicolon and
4654 -- return with Done = False, indicating that there may still be more
4655 -- valid declarations to come.
4657 exception
4659 Resync_Past_Semicolon;
4662 ----------------------------------
4663 -- 3.11 Basic Declarative Item --
4664 ----------------------------------
4666 -- BASIC_DECLARATIVE_ITEM ::=
4667 -- BASIC_DECLARATION | REPRESENTATION_CLAUSE | USE_CLAUSE
4669 -- Scan zero or more basic declarative items
4671 -- Error recovery: cannot raise Error_Resync. If an error is detected, then
4672 -- the scan pointer is repositioned past the next semicolon, and the scan
4673 -- for declarative items continues.
4681 begin
4682 -- Indicate no bad declarations detected yet in the current context:
4683 -- visible or private declarations of a package spec.
4687 -- Get rid of active SIS entry from outer scope. This means we will
4688 -- miss some nested cases, but it doesn't seem worth the effort. See
4689 -- discussion in Par for further details
4693 -- Loop to scan out declarations
4697 loop
4702 -- Get rid of active SIS entry. This is set only if we have scanned a
4703 -- procedure declaration and have not found the body. We could give
4704 -- an error message, but that really would be usurping the role of
4705 -- semantic analysis (this really is a case of a missing body).
4709 -- Test for assorted illegal declarations not diagnosed elsewhere
4716 -- Test for body scanned, not acceptable as basic decl item
4721 Kind = N_Protected_Body
4722 then
4725 -- Complete declaration of mangled subprogram body, for better
4726 -- recovery if analysis is attempted.
4730 then
4736 -- Test for body stub scanned, not acceptable as basic decl item
4742 Error_Msg
4753 ----------------
4754 -- 3.11 Body --
4755 ----------------
4757 -- For proper body, see below
4758 -- For body stub, see 10.1.3
4760 -----------------------
4761 -- 3.11 Proper Body --
4762 -----------------------
4764 -- Subprogram body is parsed by P_Subprogram (6.1)
4765 -- Package body is parsed by P_Package (7.1)
4766 -- Task body is parsed by P_Task (9.1)
4767 -- Protected body is parsed by P_Protected (9.4)
4769 ------------------------------
4770 -- Set_Declaration_Expected --
4771 ------------------------------
4774 begin
4782 ----------------------
4783 -- Skip_Declaration --
4784 ----------------------
4789 begin
4793 -----------------------------------------
4794 -- Statement_When_Declaration_Expected --
4795 -----------------------------------------
4797 procedure Statement_When_Declaration_Expected
4801 is
4802 begin
4803 -- Case of second occurrence of statement in one declaration sequence
4807 -- In the procedure spec case, just ignore it, we only give one
4808 -- message for the first occurrence, since otherwise we may get
4809 -- horrible cascading if BODY was missing in the header line.
4814 -- Just ignore it if we are in -gnatd.2 (allow statements to appear
4815 -- in declaration sequences) mode.
4820 -- In the declarative part case, take a second statement as a sure
4821 -- sign that we really have a missing BEGIN, and end the declarative
4822 -- part now. Note that the caller will fix up the first message to
4823 -- say "missing BEGIN" so that's how the error will be signalled.
4825 else
4830 -- Case of first occurrence of unexpected statement
4832 else
4833 -- Do not give error message if we are operating in -gnatd.2 mode
4834 -- (alllow statements to appear in declarative parts).
4838 -- If we are in a package spec, then give message of statement
4839 -- not allowed in package spec. This message never gets changed.
4844 -- If in declarative part, then we give the message complaining
4845 -- about finding a statement when a declaration is expected. This
4846 -- gets changed to a complaint about a missing BEGIN if we later
4847 -- find that no BEGIN is present.
4849 else
4853 -- Capture message Id. This is used for two purposes, first to
4854 -- stop multiple messages, see test above, and second, to allow
4855 -- the replacement of the message in the declarative part case.
4861 -- In all cases except the case in which we decided to terminate the
4862 -- declaration sequence on a second error, we scan out the statement
4863 -- and append it to the list of declarations (note that the semantics
4864 -- can handle statements in a declaration list so if we proceed to
4865 -- call the semantic phase, all will be (reasonably) well.
4869 -- Done is set to False, since we want to continue the scan of
4870 -- declarations, hoping that this statement was a temporary glitch.
4871 -- If we indeed are now in the statement part (i.e. this was a missing
4872 -- BEGIN, then it's not terrible, we will simply keep calling this
4873 -- procedure to process the statements one by one, and then finally
4874 -- hit the missing BEGIN, which will clean up the error message.