| blob | 7cc2f5da1da451a762efa47008cda109d97d8c01 |
1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT COMPILER COMPONENTS --
4 -- --
5 -- P A R . C H 6 --
6 -- --
7 -- B o d y --
8 -- --
9 -- Copyright (C) 1992-2014, 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
35 -- Local subprograms, used only in this chapter
42 -- Decl_Node is a N_Object_Declaration. Set the Null_Exclusion_Present and
43 -- Object_Definition fields of Decl_Node.
46 -- Check for common error of junk semicolon before RETURN keyword of
47 -- function specification. If present, skip over it with appropriate error
48 -- message, leaving Scan_Ptr pointing to the RETURN after. This routine
49 -- also deals with a possibly misspelled version of Return.
52 -- Called after scanning return subtype to check for missing constraint,
53 -- taking into account the possibility of an occurrence of an expression
54 -- function where the IS has been forgotten.
56 ----------------------------------------
57 -- Check_Junk_Semicolon_Before_Return --
58 ----------------------------------------
63 begin
70 Error_Msg_SC -- CODEFIX
73 else
79 -----------------------------------
80 -- No_Constraint_Maybe_Expr_Func --
81 -----------------------------------
84 begin
85 -- If we have a left paren at the start of the line, then assume this is
86 -- the case of an expression function with missing IS. We do not have to
87 -- diagnose the missing IS, that is done elsewhere. We do this game in
88 -- Ada 2012 mode where expression functions are legal.
92 and Token_Is_At_Start_Of_Line
93 then
94 -- One exception if we have "(token .." then this is a constraint
96 declare
99 begin
104 -- If we have "(token .." then restore scan state and treat as
105 -- unexpected constraint.
109 No_Constraint;
111 -- Otherwise we treat this as an expression function
113 else
118 -- Otherwise use standard routine to check for no constraint present
120 else
121 No_Constraint;
125 -----------------------------------------------------
126 -- 6.1 Subprogram (Also 6.3, 8.5.4, 10.1.3, 12.3) --
127 -----------------------------------------------------
129 -- This routine scans out a subprogram declaration, subprogram body,
130 -- subprogram renaming declaration or subprogram generic instantiation.
131 -- It also handles the new Ada 2012 expression function form
133 -- SUBPROGRAM_DECLARATION ::=
134 -- SUBPROGRAM_SPECIFICATION
135 -- [ASPECT_SPECIFICATIONS];
137 -- ABSTRACT_SUBPROGRAM_DECLARATION ::=
138 -- SUBPROGRAM_SPECIFICATION is abstract
139 -- [ASPECT_SPECIFICATIONS];
141 -- SUBPROGRAM_SPECIFICATION ::=
142 -- procedure DEFINING_PROGRAM_UNIT_NAME PARAMETER_PROFILE
143 -- | function DEFINING_DESIGNATOR PARAMETER_AND_RESULT_PROFILE
145 -- PARAMETER_PROFILE ::= [FORMAL_PART]
147 -- PARAMETER_AND_RESULT_PROFILE ::= [FORMAL_PART] return SUBTYPE_MARK
149 -- SUBPROGRAM_BODY ::=
150 -- SUBPROGRAM_SPECIFICATION [ASPECT_SPECIFICATIONS] is
151 -- DECLARATIVE_PART
152 -- begin
153 -- HANDLED_SEQUENCE_OF_STATEMENTS
154 -- end [DESIGNATOR];
156 -- SUBPROGRAM_RENAMING_DECLARATION ::=
157 -- SUBPROGRAM_SPECIFICATION renames callable_entity_NAME
158 -- [ASPECT_SPECIFICATIONS];
160 -- SUBPROGRAM_BODY_STUB ::=
161 -- SUBPROGRAM_SPECIFICATION is separate
162 -- [ASPECT_SPECIFICATIONS];
164 -- GENERIC_INSTANTIATION ::=
165 -- procedure DEFINING_PROGRAM_UNIT_NAME is
166 -- new generic_procedure_NAME [GENERIC_ACTUAL_PART]
167 -- [ASPECT_SPECIFICATIONS];
168 -- | function DEFINING_DESIGNATOR is
169 -- new generic_function_NAME [GENERIC_ACTUAL_PART]
170 -- [ASPECT_SPECIFICATIONS];
172 -- NULL_PROCEDURE_DECLARATION ::=
173 -- SUBPROGRAM_SPECIFICATION is null;
175 -- Null procedures are an Ada 2005 feature. A null procedure declaration
176 -- is classified as a basic declarative item, but it is parsed here, with
177 -- other subprogram constructs.
179 -- EXPRESSION_FUNCTION ::=
180 -- FUNCTION SPECIFICATION IS (EXPRESSION)
181 -- [ASPECT_SPECIFICATIONS];
183 -- The value in Pf_Flags indicates which of these possible declarations
184 -- is acceptable to the caller:
186 -- Pf_Flags.Decl Set if declaration OK
187 -- Pf_Flags.Gins Set if generic instantiation OK
188 -- Pf_Flags.Pbod Set if proper body OK
189 -- Pf_Flags.Rnam Set if renaming declaration OK
190 -- Pf_Flags.Stub Set if body stub OK
191 -- Pf_Flags.Pexp Set if expression function OK
193 -- If an inappropriate form is encountered, it is scanned out but an
194 -- error message indicating that it is appearing in an inappropriate
195 -- context is issued. The only possible values for Pf_Flags are those
196 -- defined as constants in the Par package.
198 -- The caller has checked that the initial token is FUNCTION, PROCEDURE,
199 -- NOT or OVERRIDING.
201 -- Error recovery: cannot raise Error_Resync
221 -- Flags for optional overriding indication. Two flags are needed,
222 -- to distinguish positive and negative overriding indicators from
223 -- the absence of any indicator.
228 begin
229 -- Set up scope stack entry. Note that the Labl field will be set later
233 Push_Scope_Stack;
241 -- Ada 2005: Scan leading NOT OVERRIDING indicator
250 -- Overriding keyword used in non Ada 2005 mode
254 then
260 else
261 Error_Msg_SC -- CODEFIX
265 -- Ada 2005: scan leading OVERRIDING indicator
267 -- Note: in the case of OVERRIDING keyword used in Ada 95 mode, the
268 -- declaration circuit already gave an error message and changed the
269 -- token to Tok_Overriding.
278 -- Note that if we are not in Ada_2005 mode, error messages have
279 -- already been given, so no need to give another message here.
281 -- An overriding indicator is allowed for subprogram declarations,
282 -- bodies (including subunits), renamings, stubs, and instantiations.
283 -- The test against Pf_Decl_Pbod is added to account for the case of
284 -- subprograms declared in a protected type, where only subprogram
285 -- declarations and bodies can occur. The Pf_Pbod case is for
286 -- subunits.
289 and then
290 Pf_Flags /= Pf_Decl_Pbod_Pexp
291 and then
292 Pf_Flags /= Pf_Pbod_Pexp
293 then
297 Error_Msg_SC -- CODEFIX
313 then
317 -- Set name from file name, we need some junk name, and that's
318 -- as good as anything. This is only approximate, since we do
319 -- not do anything with non-standard name translations.
334 else
341 -- Deal with generic instantiation, the one case in which we do not
342 -- have a subprogram specification as part of whatever we are parsing
358 else
377 else
382 -- If not a generic instantiation, then we definitely have a subprogram
383 -- specification (all possibilities at this stage include one here)
389 -- Scan formal part. First a special error check. If we have an
390 -- identifier here, then we have a definite error. If this identifier
391 -- is on the same line as the designator, then we assume it is the
392 -- first formal after a missing left parenthesis
395 and then not Token_Is_At_Start_Of_Line
396 then
400 -- Otherwise scan out an optional formal part in the usual manner
402 else
406 -- We treat what we have as a function specification if FUNCTION was
407 -- used, or if a RETURN is present. This gives better error recovery
408 -- since later RETURN statements will be valid in either case.
410 Check_Junk_Semicolon_Before_Return;
415 Error_Msg -- CODEFIX
424 -- Ada 2005 (AI-318-02)
428 Error_Msg_SC
435 else
437 No_Constraint_Maybe_Expr_Func;
440 else
441 -- Skip extra parenthesis at end of formal part
445 -- For function, scan result subtype
448 TF_Return;
457 Specification_Node :=
463 else
464 Specification_Node :=
478 -- Error check: barriers not allowed on protected functions/procedures
483 else
491 -- Deal with semicolon followed by IS. We want to treat this as IS
498 Error_Msg_SP -- CODEFIX
500 else
505 -- Subprogram declaration ended by aspect specifications
510 -- Deal with case of semicolon ending a subprogram declaration
514 T_Is;
520 -- If semicolon is immediately followed by IS, then ignore the
521 -- semicolon, and go process the body.
524 Error_Msg_SP -- CODEFIX
529 -- If BEGIN follows in an appropriate column, we immediately
530 -- commence the error action of assuming that the previous
531 -- subprogram declaration should have been a subprogram body,
532 -- i.e. that the terminating semicolon should have been IS.
536 then
537 Error_Msg_SP -- CODEFIX
541 else
546 -- Case of not followed by semicolon
548 else
549 -- Subprogram renaming declaration case
558 Rename_Node :=
564 TF_Semicolon;
565 Pop_Scope_Stack;
568 -- Case of IS following subprogram specification
577 -- Deal nicely with (now obsolete) use of <> in place of abstract
580 Error_Msg_SC -- CODEFIX
585 -- Abstract subprogram declaration case
588 Absdec_Node :=
596 -- Ada 2005 (AI-248): Parse a null procedure declaration
608 else
614 -- Check for IS NEW with Formal_Part present and handle nicely
617 Error_Msg
623 else
624 Inst_Node :=
631 TF_Semicolon;
635 else
639 -- Aspect specifications present
644 -- Here we have a missing IS or missing semicolon
646 else
647 -- If the next token is a left paren at the start of a line, then
648 -- this is almost certainly the start of the expression for an
649 -- expression function, so in this case guess a missing IS.
652 Error_Msg_AP -- CODEFIX
655 -- In all other cases, we guess a missing semicolon, since we are
656 -- good at fixing up a semicolon which should really be an IS.
658 else
659 Error_Msg_AP -- CODEFIX
667 -- Processing for stub or subprogram body or expression function
671 -- Subprogram body stub case
679 Error_Msg
686 Stub_Node :=
691 Error_Msg
697 TF_Semicolon;
698 Pop_Scope_Stack;
701 -- Subprogram body or expression function case
703 else
710 -- Returns True if we have a probable case of an expression
711 -- function omitting the parentheses, if so, returns True
712 -- and emits an appropriate error message, else returns False.
714 --------------------------------
715 -- Likely_Expression_Function --
716 --------------------------------
719 begin
720 -- If currently pointing to BEGIN or a declaration keyword
721 -- or a pragma, then we definitely have a subprogram body.
722 -- This is a common case, so worth testing first.
727 then
730 -- Test for tokens which could only start an expression and
731 -- thus signal the case of a expression function.
740 then
743 -- Anything other than an identifier must be a body
748 -- Here for an identifier
750 else
751 -- If the identifier is the first token on its line, then
752 -- let's assume that we have a missing begin and this is
753 -- intended as a subprogram body. However, if the context
754 -- is a function and the unit is a package declaration, a
755 -- body would be illegal, so try for an unparenthesized
756 -- expression function.
759 declare
760 -- The enclosing scope entry is a subprogram spec
763 Parent
767 begin
768 -- Check whether there is an enclosing scope that
769 -- is a package declaration.
772 Lib_Node :=
777 and then
779 and then
781 then
783 else
788 -- Otherwise we have to scan ahead. If the identifier is
789 -- followed by a colon or a comma, it is a declaration
790 -- and hence we have a subprogram body. Otherwise assume
791 -- a expression function.
793 else
794 declare
798 begin
811 -- Fall through if we have a likely expression function
813 Error_Msg_SC
818 -- Start of processing for Scan_Body_Or_Expression_Function
820 begin
821 -- Expression_Function case
824 or else Likely_Expression_Function
825 then
826 -- Check expression function allowed here
832 -- Check we are in Ada 2012 mode
834 Error_Msg_Ada_2012_Feature
837 -- Catch an illegal placement of the aspect specification
838 -- list:
840 -- function_specification
841 -- [aspect_specification] is (expression);
843 -- This case is correctly processed by the parser because
844 -- the expression function first appears as a subprogram
845 -- declaration to the parser.
848 Error_Msg
853 -- Parse out expression and build expression function
855 Body_Node :=
856 New_Node
861 -- Expression functions can carry pre/postconditions
864 Pop_Scope_Stack;
866 -- Subprogram body case
868 else
869 -- Check body allowed here
875 -- Here is the test for a suspicious IS (i.e. one that
876 -- looks like it might more properly be a semicolon).
877 -- See separate section describing use of IS instead
878 -- of semicolon in package Parse.
881 or else
885 then
890 -- Build and return subprogram body, parsing declarations
891 -- and statement sequence that belong to the body.
893 Body_Node :=
897 -- If aspects are present, the specification is parsed as
898 -- a subprogram declaration, and we jump here after seeing
899 -- the keyword IS. Attach asspects previously collected to
900 -- the body.
907 -- In SPARK, a HIDE directive can be placed at the beginning
908 -- of a subprogram implementation, thus hiding the
909 -- subprogram body from SPARK tool-set. No violation of the
910 -- SPARK restriction should be issued on nodes in a hidden
911 -- part, which is obtained by marking such hidden parts.
917 else
932 -- Processing for subprogram declaration
935 Decl_Node :=
940 -- Aspects may be present on a subprogram body. The source parsed
941 -- so far is that of its specification. Go parse the body and attach
942 -- the collected aspects, if any, to the body.
945 Scan;
948 else
954 TF_Semicolon;
957 -- If this is a context in which a subprogram body is permitted,
958 -- set active SIS entry in case (see section titled "Handling
959 -- Semicolon Used in Place of IS" in body of Parser package)
960 -- Note that SIS_Missing_Semicolon_Message is already set properly.
964 -- Disconnnect this processing if we have scanned a null procedure
965 -- because in this case the spec is complete anyway with no body.
969 then
978 Pop_Scope_Stack;
982 ---------------------------------
983 -- 6.1 Subprogram Declaration --
984 ---------------------------------
986 -- Parsed by P_Subprogram (6.1)
988 ------------------------------------------
989 -- 6.1 Abstract Subprogram Declaration --
990 ------------------------------------------
992 -- Parsed by P_Subprogram (6.1)
994 -----------------------------------
995 -- 6.1 Subprogram Specification --
996 -----------------------------------
998 -- SUBPROGRAM_SPECIFICATION ::=
999 -- procedure DEFINING_PROGRAM_UNIT_NAME PARAMETER_PROFILE
1000 -- | function DEFINING_DESIGNATOR PARAMETER_AND_RESULT_PROFILE
1002 -- PARAMETER_PROFILE ::= [FORMAL_PART]
1004 -- PARAMETER_AND_RESULT_PROFILE ::= [FORMAL_PART] return SUBTYPE_MARK
1006 -- Subprogram specifications that appear in subprogram declarations
1007 -- are parsed by P_Subprogram (6.1). This routine is used in other
1008 -- contexts where subprogram specifications occur.
1010 -- Note: this routine does not affect the scope stack in any way
1012 -- Error recovery: can raise Error_Resync
1019 begin
1025 Set_Parameter_Specifications
1027 Check_Junk_Semicolon_Before_Return;
1028 TF_Return;
1032 -- Ada 2005 (AI-318-02)
1036 Error_Msg_SC
1043 else
1045 No_Constraint_Maybe_Expr_Func;
1056 Set_Defining_Unit_Name
1058 Set_Parameter_Specifications
1062 else
1068 ---------------------
1069 -- 6.1 Designator --
1070 ---------------------
1072 -- DESIGNATOR ::=
1073 -- [PARENT_UNIT_NAME .] IDENTIFIER | OPERATOR_SYMBOL
1075 -- The caller has checked that the initial token is an identifier,
1076 -- operator symbol, or string literal. Note that we don't bother to
1077 -- do much error diagnosis in this routine, since it is only used for
1078 -- the label on END lines, and the routines in package Par.Endh will
1079 -- check that the label is appropriate.
1081 -- Error recovery: cannot raise Error_Resync
1089 -- Tests if a current token is an interesting period, i.e. is followed
1090 -- by an identifier or operator symbol or string literal. If not, it is
1091 -- probably just incorrect punctuation to be caught by our caller. Note
1092 -- that the case of an operator symbol or string literal is also an
1093 -- error, but that is an error that we catch here. If the result is
1094 -- True, a real dot has been scanned and we are positioned past it,
1095 -- if the result is False, the scan position is unchanged.
1097 --------------
1098 -- Real_Dot --
1099 --------------
1104 begin
1108 else
1115 then
1118 else
1125 -- Start of processing for P_Designator
1127 begin
1133 or else not Real_Dot
1134 then
1137 -- Child name case
1139 else
1142 -- Loop through child names, on entry to this loop, Prefix contains
1143 -- the name scanned so far, and Ident_Node is the last identifier.
1145 loop
1154 -- On exit from the loop, Ident_Node is the last identifier scanned,
1155 -- i.e. the defining identifier, and Prefix_Node is a node for the
1156 -- entire name, structured (incorrectly) as a selected component.
1165 exception
1168 Scan;
1174 ------------------------------
1175 -- 6.1 Defining Designator --
1176 ------------------------------
1178 -- DEFINING_DESIGNATOR ::=
1179 -- DEFINING_PROGRAM_UNIT_NAME | DEFINING_OPERATOR_SYMBOL
1181 -- Error recovery: cannot raise Error_Resync
1184 begin
1193 else
1198 -------------------------------------
1199 -- 6.1 Defining Program Unit Name --
1200 -------------------------------------
1202 -- DEFINING_PROGRAM_UNIT_NAME ::=
1203 -- [PARENT_UNIT_NAME .] DEFINING_IDENTIFIER
1205 -- Note: PARENT_UNIT_NAME may be present only in 95 mode at the outer level
1207 -- Error recovery: cannot raise Error_Resync
1214 begin
1215 -- Set identifier casing if not already set and scan initial identifier
1219 then
1226 -- Normal case (not child library unit name)
1233 -- Child library unit name case
1235 else
1247 -- Loop through child names, on entry to this loop, Prefix contains
1248 -- the name scanned so far, and Ident_Node is the last identifier.
1250 loop
1260 -- On exit from the loop, Ident_Node is the last identifier scanned,
1261 -- i.e. the defining identifier, and Prefix_Node is a node for the
1262 -- entire name, structured (incorrectly) as a selected component.
1271 -- All set with unit name parsed
1276 exception
1279 Scan;
1285 --------------------------
1286 -- 6.1 Operator Symbol --
1287 --------------------------
1289 -- OPERATOR_SYMBOL ::= STRING_LITERAL
1291 -- Operator symbol is returned by the scanner as Tok_Operator_Symbol
1293 -----------------------------------
1294 -- 6.1 Defining Operator Symbol --
1295 -----------------------------------
1297 -- DEFINING_OPERATOR_SYMBOL ::= OPERATOR_SYMBOL
1299 -- The caller has checked that the initial symbol is an operator symbol
1304 begin
1311 ----------------------------
1312 -- 6.1 Parameter_Profile --
1313 ----------------------------
1315 -- PARAMETER_PROFILE ::= [FORMAL_PART]
1317 -- Empty is returned if no formal part is present
1319 -- Error recovery: cannot raise Error_Resync
1322 begin
1326 else
1331 ---------------------------------------
1332 -- 6.1 Parameter And Result Profile --
1333 ---------------------------------------
1335 -- Parsed by its parent construct, which uses P_Parameter_Profile to
1336 -- parse the parameters, and P_Subtype_Mark to parse the return type.
1338 ----------------------
1339 -- 6.1 Formal part --
1340 ----------------------
1342 -- FORMAL_PART ::= (PARAMETER_SPECIFICATION {; PARAMETER_SPECIFICATION})
1344 -- PARAMETER_SPECIFICATION ::=
1345 -- DEFINING_IDENTIFIER_LIST : [ALIASED] MODE [NULL_EXCLUSION]
1346 -- SUBTYPE_MARK [:= DEFAULT_EXPRESSION]
1347 -- | DEFINING_IDENTIFIER_LIST : ACCESS_DEFINITION
1348 -- [:= DEFAULT_EXPRESSION]
1350 -- This scans the construct Formal_Part. The caller has already checked
1351 -- that the initial token is a left parenthesis, and skipped past it, so
1352 -- that on entry Token is the first token following the left parenthesis.
1354 -- Note: The ALIASED keyword is allowed only in Ada 2012 mode (AI 142)
1356 -- Error recovery: cannot raise Error_Resync
1369 -- This array holds the list of defining identifiers. The upper bound
1370 -- of 4096 is intended to be essentially infinite, and we do not even
1371 -- bother to check for it being exceeded.
1373 begin
1376 begin
1390 -- The only valid tokens are colon and comma, so if we have
1391 -- neither do a bit of investigation to see which is the
1392 -- better choice for insertion.
1396 -- Assume colon if ALIASED, IN or OUT keyword found
1402 -- Otherwise scan ahead
1407 -- If we run into a semicolon, then assume that a
1408 -- colon was missing, e.g. Parms (X Y; ...). Also
1409 -- assume missing colon on EOF (a real disaster)
1410 -- and on a right paren, e.g. Parms (X Y), and also
1411 -- on an assignment symbol, e.g. Parms (X Y := ..)
1417 then
1421 -- If we run into a colon, assume that we had a missing
1422 -- comma, e.g. Parms (A B : ...). Also assume a missing
1423 -- comma if we hit another comma, e.g. Parms (A B, C ..)
1427 then
1432 Scan;
1436 -- Here if a comma is present, or to be assumed
1438 T_Comma;
1443 -- Fall through the loop on encountering a colon, or deciding
1444 -- that there is a missing colon.
1446 T_Colon;
1448 -- If there are multiple identifiers, we repeatedly scan the
1449 -- type and initialization expression information by resetting
1450 -- the scan pointer (so that we get completely separate trees
1451 -- for each occurrence).
1457 -- Loop through defining identifiers in list
1462 Specification_Node :=
1466 -- Scan possible ALIASED for Ada 2012 (AI-142)
1470 Error_Msg_Ada_2012_Feature
1472 else
1479 -- Scan possible NOT NULL for Ada 2005 (AI-231, AI-447)
1482 Not_Null_Present :=
1485 -- Case of ACCESS keyword present
1488 Set_Null_Exclusion_Present
1495 Set_Parameter_Type
1499 -- Case of IN or OUT present
1501 else
1504 Error_Msg
1506 Not_Null_Sloc);
1509 Error_Msg
1511 Not_Null_Sloc);
1512 else
1513 Error_Msg
1515 Not_Null_Sloc);
1523 Set_Null_Exclusion_Present
1527 or else
1528 Token = Tok_Function
1529 then
1531 Scan;
1538 Scan;
1544 else
1546 No_Constraint;
1566 exception
1568 Resync_Semicolon_List;
1575 -- If we have RETURN or IS after the semicolon, then assume
1576 -- that semicolon should have been a right parenthesis and exit
1579 Error_Msg_SP -- CODEFIX
1584 -- If we have a declaration keyword after the semicolon, then
1585 -- assume we had a missing right parenthesis and terminate list
1588 Error_Msg_AP -- CODEFIX
1598 -- Special check for common error of using comma instead of semicolon
1601 T_Semicolon;
1604 -- Special check for omitted separator
1607 T_Semicolon;
1609 -- If nothing sensible, skip to next semicolon or right paren
1611 else
1612 T_Semicolon;
1613 Resync_Semicolon_List;
1617 else
1618 T_Right_Paren;
1627 ----------------------------------
1628 -- 6.1 Parameter Specification --
1629 ----------------------------------
1631 -- Parsed by P_Formal_Part (6.1)
1633 ---------------
1634 -- 6.1 Mode --
1635 ---------------
1637 -- MODE ::= [in] | in out | out
1639 -- There is no explicit node in the tree for the Mode. Instead the
1640 -- In_Present and Out_Present flags are set in the parent node to
1641 -- record the presence of keywords specifying the mode.
1643 -- Error_Recovery: cannot raise Error_Resync
1646 begin
1652 Error_Msg_SP -- CODEFIX
1656 -- Since Ada 2005, formal objects can have an anonymous access type,
1657 -- and of course carry a mode indicator.
1661 then
1679 --------------------------
1680 -- 6.3 Subprogram Body --
1681 --------------------------
1683 -- Parsed by P_Subprogram (6.1)
1685 -----------------------------------
1686 -- 6.4 Procedure Call Statement --
1687 -----------------------------------
1689 -- Parsed by P_Sequence_Of_Statements (5.1)
1691 ------------------------
1692 -- 6.4 Function Call --
1693 ------------------------
1695 -- Parsed by P_Name (4.1)
1697 --------------------------------
1698 -- 6.4 Actual Parameter Part --
1699 --------------------------------
1701 -- Parsed by P_Name (4.1)
1703 --------------------------------
1704 -- 6.4 Parameter Association --
1705 --------------------------------
1707 -- Parsed by P_Name (4.1)
1709 ------------------------------------
1710 -- 6.4 Explicit Actual Parameter --
1711 ------------------------------------
1713 -- Parsed by P_Name (4.1)
1715 ---------------------------
1716 -- 6.5 Return Statement --
1717 ---------------------------
1719 -- SIMPLE_RETURN_STATEMENT ::= return [EXPRESSION];
1720 --
1721 -- EXTENDED_RETURN_STATEMENT ::=
1722 -- return DEFINING_IDENTIFIER : [aliased] RETURN_SUBTYPE_INDICATION
1723 -- [:= EXPRESSION] [do
1724 -- HANDLED_SEQUENCE_OF_STATEMENTS
1725 -- end return];
1726 --
1727 -- RETURN_SUBTYPE_INDICATION ::= SUBTYPE_INDICATION | ACCESS_DEFINITION
1729 -- RETURN_STATEMENT ::= return [EXPRESSION];
1731 -- Error recovery: can raise Error_Resync
1735 -- Note: We don't need to check Ada_Version here, because this is
1736 -- only called in >= Ada 2005 cases anyway.
1740 begin
1744 Set_Object_Definition
1746 else
1747 Set_Object_Definition
1752 -- Error recovery: can raise Error_Resync
1758 begin
1768 -- First an error check, if we have two identifiers in a row, a likely
1769 -- possibility is that the first of the identifiers is an incorrectly
1770 -- spelled keyword. See similar check in P_Identifier_Declarations.
1773 declare
1777 begin
1783 if I2
1784 and then
1788 then
1794 -- We allow "constant" here (as in "return Result : constant
1795 -- T..."). This is not in the latest RM, but the ARG is considering an
1796 -- AI on the subject (see AI05-0015-1), which we expect to be approved.
1803 Error_Msg_SC -- CODEFIX
1813 -- The restrictions on the use of aliased in an extended return
1814 -- are semantic, not syntactic.
1832 -- Error recovery: can raise Error_Resync
1835 -- The caller has checked that the initial token is RETURN
1838 -- Scan state is just after RETURN (and is left that way). Determine
1839 -- whether this is a simple or extended return statement by looking
1840 -- ahead for "identifier :", which implies extended.
1842 ---------------
1843 -- Is_Simple --
1844 ---------------
1850 begin
1869 -- Start of processing for P_Return_Statement
1871 begin
1874 -- Simple_return_statement, no expression, return an
1875 -- N_Simple_Return_Statement node with the expression field left Empty.
1881 -- Non-trivial case
1883 else
1884 -- Simple_return_statement with expression
1886 -- We avoid trying to scan an expression if we are at an
1887 -- expression terminator since in that case the best error
1888 -- message is probably that we have a missing semicolon.
1897 -- Extended_return_statement (Ada 2005 only -- AI-318):
1899 else
1901 Error_Msg_SP
1907 Set_Return_Object_Declarations
1911 Push_Scope_Stack;
1917 Set_Handled_Statement_Sequence
1919 End_Statements;
1921 -- Do we need to handle Error_Resync here???
1925 TF_Semicolon;