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1 /* Definitions for C++ name lookup routines.
2 Copyright (C) 2003, 2004, 2005, 2006, 2007, 2008, 2009
3 Free Software Foundation, Inc.
4 Contributed by Gabriel Dos Reis <gdr@integrable-solutions.net>
6 This file is part of GCC.
8 GCC is free software; you can redistribute it and/or modify
9 it under the terms of the GNU General Public License as published by
10 the Free Software Foundation; either version 3, or (at your option)
11 any later version.
13 GCC is distributed in the hope that it will be useful,
14 but WITHOUT ANY WARRANTY; without even the implied warranty of
15 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16 GNU General Public License for more details.
18 You should have received a copy of the GNU General Public License
19 along with GCC; see the file COPYING3. If not see
20 <http://www.gnu.org/licenses/>. */
36 /* The bindings for a particular name in a particular scope. */
39 tree value;
40 tree type;
41 };
42 #define EMPTY_SCOPE_BINDING { NULL_TREE, NULL_TREE }
55 /* The :: namespace. */
57 tree global_namespace;
59 /* The name of the anonymous namespace, throughout this translation
60 unit. */
63 /* Initialize anonymous_namespace_name if necessary, and return it. */
65 static tree
67 {
69 {
70 /* The anonymous namespace has to have a unique name
71 if typeinfo objects are being compared by name. */
74 else
75 /* The demangler expects anonymous namespaces to be called
76 something starting with '_GLOBAL__N_'. */
78 }
80 }
82 /* Compute the chain index of a binding_entry given the HASH value of its
83 name and the total COUNT of chains. COUNT is assumed to be a power
84 of 2. */
86 #define ENTRY_INDEX(HASH, COUNT) (((HASH) >> 3) & ((COUNT) - 1))
88 /* A free list of "binding_entry"s awaiting for re-use. */
92 /* Create a binding_entry object for (NAME, TYPE). */
96 {
97 binding_entry entry;
100 {
103 }
104 else
112 }
114 /* Put ENTRY back on the free list. */
115 #if 0
118 {
123 }
124 #endif
126 /* The datatype used to implement the mapping from names to types at
127 a given scope. */
129 /* Array of chains of "binding_entry"s */
132 /* The number of chains in this table. This is the length of the
133 member "chain" considered as an array. */
136 /* Number of "binding_entry"s in this table. */
138 };
140 /* Construct TABLE with an initial CHAIN_COUNT. */
144 {
148 }
150 /* Make TABLE's entries ready for reuse. */
151 #if 0
152 static void
154 {
162 {
165 {
169 }
171 }
173 }
174 #endif
176 /* Allocate a table with CHAIN_COUNT, assumed to be a power of two. */
180 {
185 }
187 /* Expand TABLE to twice its current chain_count. */
189 static void
191 {
200 {
203 {
210 }
211 }
213 }
215 /* Insert a binding for NAME to TYPE into TABLE. */
217 static void
219 {
230 }
232 /* Return the binding_entry, if any, that maps NAME. */
234 binding_entry
236 {
244 }
246 /* Apply PROC -- with DATA -- to all entries in TABLE. */
248 void
250 {
255 {
259 }
260 }
261 \f
262 #ifndef ENABLE_SCOPE_CHECKING
263 # define ENABLE_SCOPE_CHECKING 0
264 #else
265 # define ENABLE_SCOPE_CHECKING 1
266 #endif
268 /* A free list of "cxx_binding"s, connected by their PREVIOUS. */
272 /* Initialize VALUE and TYPE field for BINDING, and set the PREVIOUS
273 field to NULL. */
277 {
281 }
283 /* (GC)-allocate a binding object with VALUE and TYPE member initialized. */
287 {
290 {
293 }
294 else
300 }
302 /* Put BINDING back on the free list. */
306 {
310 }
312 /* Create a new binding for NAME (with the indicated VALUE and TYPE
313 bindings) in the class scope indicated by SCOPE. */
317 {
322 {
326 {
327 /* Fixup the current bindings, as they might have moved. */
332 i++)
333 {
339 }
340 }
342 }
343 else
351 }
353 /* Make DECL the innermost binding for ID. The LEVEL is the binding
354 level at which this declaration is being bound. */
356 static void
358 {
362 {
365 }
366 else
369 /* Now, fill in the binding information. */
374 /* And put it on the front of the list of bindings for ID. */
376 }
378 /* Remove the binding for DECL which should be the innermost binding
379 for ID. */
381 void
383 {
387 /* It's easiest to write the loops that call this function without
388 checking whether or not the entities involved have names. We
389 get here for such an entity. */
392 /* Get the innermost binding for ID. */
395 /* The name should be bound. */
398 /* The DECL will be either the ordinary binding or the type
399 binding for this identifier. Remove that binding. */
402 else
403 {
406 }
409 {
410 /* We're completely done with the innermost binding for this
411 identifier. Unhook it from the list of bindings. */
414 /* Add it to the free list. */
416 }
417 }
419 /* BINDING records an existing declaration for a name in the current scope.
420 But, DECL is another declaration for that same identifier in the
421 same scope. This is the `struct stat' hack whereby a non-typedef
422 class name or enum-name can be bound at the same level as some other
423 kind of entity.
424 3.3.7/1
426 A class name (9.1) or enumeration name (7.2) can be hidden by the
427 name of an object, function, or enumerator declared in the same scope.
428 If a class or enumeration name and an object, function, or enumerator
429 are declared in the same scope (in any order) with the same name, the
430 class or enumeration name is hidden wherever the object, function, or
431 enumerator name is visible.
433 It's the responsibility of the caller to check that
434 inserting this name is valid here. Returns nonzero if the new binding
435 was successful. */
437 static bool
439 {
445 /* The new name is the type name. */
448 inherited type-binding out of the way to make room for a
449 new value binding. */
450 !bval
451 /* BVAL is error_mark_node when DECL's name has been used
452 in a non-class scope prior declaration. In that case,
453 we should have already issued a diagnostic; for graceful
454 error recovery purpose, pretend this was the intended
455 declaration for that name. */
457 /* If BVAL is anticipated but has not yet been declared,
458 pretend it is not there at all. */
464 {
465 /* The old binding was a type name. It was placed in
466 VALUE field because it was thought, at the point it was
467 declared, to be the only entity with such a name. Move the
468 type name into the type slot; it is now hidden by the new
469 binding. */
473 }
479 /* If either type involves template parameters, we must
480 wait until instantiation. */
483 /* We have two typedef-names, both naming the same type to have
484 the same name. In general, this is OK because of:
486 [dcl.typedef]
488 In a given scope, a typedef specifier can be used to redefine
489 the name of any type declared in that scope to refer to the
490 type to which it already refers.
492 However, in class scopes, this rule does not apply due to the
493 stricter language in [class.mem] prohibiting redeclarations of
494 members. */
496 /* There can be two block-scope declarations of the same variable,
497 so long as they are `extern' declarations. However, there cannot
498 be two declarations of the same static data member:
500 [class.mem]
502 A member shall not be declared twice in the
503 member-specification. */
507 {
510 }
516 /* [namespace.alias]
518 In a declarative region, a namespace-alias-definition can be
519 used to redefine a namespace-alias declared in that declarative
520 region to refer only to the namespace to which it already
521 refers. */
523 else
524 {
528 }
531 }
533 /* Add DECL to the list of things declared in B. */
535 static void
537 {
538 /* We used to record virtual tables as if they were ordinary
539 variables, but no longer do so. */
544 {
547 }
548 else
549 {
550 /* We build up the list in reverse order, and reverse it later if
551 necessary. */
556 /* If appropriate, add decl to separate list of statics. We
557 include extern variables because they might turn out to be
558 static later. It's OK for this list to contain a few false
559 positives. */
566 }
567 }
569 /* Record a decl-node X as belonging to the current lexical scope.
570 Check for errors (such as an incompatible declaration for the same
571 name already seen in the same scope). IS_FRIEND is true if X is
572 declared as a friend.
574 Returns either X or an old decl for the same name.
575 If an old decl is returned, it may have been smashed
576 to agree with what X says. */
578 tree
580 {
581 tree t;
582 tree name;
593 /* Template parameters have no context; they are not X::T even
594 when declared within a class or namespace. */
595 ;
596 else
597 {
599 /* A local declaration for a function doesn't constitute
600 nesting. */
602 /* A local declaration for an `extern' variable is in the
603 scope of the current namespace, not the current
604 function. */
606 /* When parsing the parameter list of a function declarator,
607 don't set DECL_CONTEXT to an enclosing function. When we
608 push the PARM_DECLs in order to process the function body,
609 current_binding_level->this_entity will be set. */
616 /* If this is the declaration for a namespace-scope function,
617 but the declaration itself is in a local scope, mark the
618 declaration. */
621 && current_function_decl
624 }
628 {
634 /* In case this decl was explicitly namespace-qualified, look it
635 up in its namespace context. */
638 else
641 /* [basic.link] If there is a visible declaration of an entity
642 with linkage having the same name and type, ignoring entities
643 declared outside the innermost enclosing namespace scope, the
644 block scope declaration declares that same entity and
645 receives the linkage of the previous declaration. */
649 {
650 /* Look in block scope. */
652 /* Or in the innermost namespace. */
655 /* Does it have linkage? Note that if this isn't a DECL, it's an
656 OVERLOAD, which is OK. */
661 }
663 /* If we are declaring a function, and the result of name-lookup
664 was an OVERLOAD, look for an overloaded instance that is
665 actually the same as the function we are declaring. (If
666 there is one, we have to merge our declaration with the
667 previous declaration.) */
669 {
670 tree match;
674 {
677 }
678 else
679 /* Just choose one. */
684 else
686 }
689 {
691 {
693 /* The standard only says that the local extern
694 inherits linkage from the previous decl; in
695 particular, default args are not shared. Add
696 the decl into a hash table to make sure only
697 the previous decl in this case is seen by the
698 middle end. */
699 {
706 cp_function_chain->extern_decl_map
713 loc = htab_find_slot_with_hash
717 }
718 }
720 {
721 /* Check for duplicate params. */
725 }
731 {
736 /* Throw away the redeclaration. */
738 }
739 else
740 {
743 /* If the redeclaration failed, we can stop at this
744 point. */
749 {
754 }
756 {
757 /* A redeclaration of main, but not a duplicate of the
758 previous one.
760 [basic.start.main]
762 This function shall not be overloaded. */
765 /* We don't try to push this declaration since that
766 causes a crash. */
768 }
769 }
770 }
772 /* If x has C linkage-specification, (extern "C"),
773 lookup its binding, in case it's already bound to an object.
774 The lookup is done in all namespaces.
775 If we find an existing binding, make sure it has the same
776 exception specification as x, otherwise, bail in error [7.5, 7.6]. */
779 /* We should ignore declarations happening in system headers. */
782 {
785 tree previous = (function_binding
792 {
795 /* In case either x or previous is declared to throw an exception,
796 make sure both exception specifications are equal. */
798 {
802 x_exception_spec =
804 previous_exception_spec =
807 x_exception_spec,
809 {
811 x);
813 previous);
816 }
817 }
818 else
819 {
824 previous);
825 }
826 }
827 }
831 /* If this is a function conjured up by the back end, massage it
832 so it looks friendly. */
834 {
837 }
841 {
844 /* We do not need to create a binding for this name;
845 push_overloaded_decl will have already done so if
846 necessary. */
848 }
850 {
854 }
862 /* If declaring a type as a typedef, copy the type (unless we're
863 at line 0), and install this TYPE_DECL as the new type's typedef
864 name. See the extensive comment of set_underlying_type (). */
866 {
872 /* We don't want to copy the type when all we're
873 doing is making a TYPE_DECL for the purposes of
874 inlining. */
883 }
885 /* Multiple external decls of the same identifier ought to match.
887 We get warnings about inline functions where they are defined.
888 We get warnings about other functions from push_overloaded_decl.
890 Avoid duplicate warnings where they are used. */
892 {
893 tree decl;
901 /* If different sort of thing, we already gave an error. */
904 {
907 }
908 }
911 && is_friend
913 {
914 /* This is a new declaration of a friend function, so hide
915 it from ordinary function lookup. */
918 }
920 /* This name is new in its binding level.
921 Install the new declaration and return it. */
923 {
924 /* Install a global value. */
926 /* If the first global decl has external linkage,
927 warn if we later see static one. */
931 /* Bind the name for the entity. */
941 /* If new decl is `static' and an `extern' was seen previously,
942 warn about it. */
945 }
946 else
947 {
948 /* Here to install a non-global value. */
953 {
955 /* Because push_local_binding will hook X on to the
956 current_binding_level's name list, we don't want to
957 do that again below. */
959 }
961 /* If this is a TYPE_DECL, push it into the type value slot. */
965 /* Clear out any TYPE_DECL shadowed by a namespace so that
966 we won't think this is a type. The C struct hack doesn't
967 go through namespaces. */
972 {
982 }
984 /* If this is an extern function declaration, see if we
985 have a global definition or declaration for the function. */
991 {
992 /* We have one. Their types must agree. */
995 else
996 {
999 }
1000 }
1001 /* If we have a local external declaration,
1002 and no file-scope declaration has yet been seen,
1003 then if we later have a file-scope decl it must not be static. */
1010 /* Don't complain about the parms we push and then pop
1011 while tentatively parsing a function declarator. */
1015 /* Warn if shadowing an argument at the top level of the body. */
1017 /* Inline decls shadow nothing. */
1020 /* Don't check the `this' parameter. */
1022 {
1025 /* Don't complain if it's from an enclosing function. */
1028 {
1029 /* Go to where the parms should be and see if we find
1030 them there. */
1034 /* Skip the ctor/dtor cleanup level. */
1037 /* ARM $8.3 */
1039 {
1042 }
1043 }
1046 {
1049 }
1050 }
1052 /* Maybe warn if shadowing something else. */
1054 /* No shadow warnings for internally generated vars. */
1056 /* No shadow warnings for vars made for inlining. */
1058 {
1059 tree member;
1063 name,
1066 else
1070 {
1071 /* Location of previous decl is not useful in this case. */
1073 x);
1074 }
1077 {
1080 }
1083 /* XXX shadow warnings in outer-more namespaces */
1084 {
1086 x);
1088 }
1089 }
1090 }
1094 }
1103 }
1105 /* Record a decl-node X as belonging to the current lexical scope. */
1107 tree
1109 {
1111 }
1113 /* Enter DECL into the symbol table, if that's appropriate. Returns
1114 DECL, or a modified version thereof. */
1116 tree
1118 {
1121 /* Add this decl to the current binding level, but not if it comes
1122 from another scope, e.g. a static member variable. TEM may equal
1123 DECL or it may be a previous decl of the same name. */
1127 /* Definitions of namespace members outside their namespace are
1128 possible. */
1132 /* The declaration of a template specialization does not affect
1133 the functions available for overload resolution, so we do not
1134 call pushdecl. */
1138 else
1140 }
1142 /* Bind DECL to ID in the current_binding_level, assumed to be a local
1143 binding level. If PUSH_USING is set in FLAGS, we know that DECL
1144 doesn't really belong to this binding level, that it got here
1145 through a using-declaration. */
1147 void
1149 {
1152 /* Skip over any local classes. This makes sense if we call
1153 push_local_binding with a friend decl of a local class. */
1157 {
1158 /* Supplement the existing binding. */
1160 /* It didn't work. Something else must be bound at this
1161 level. Do not add DECL to the list of things to pop
1162 later. */
1164 }
1165 else
1166 /* Create a new binding. */
1170 /* We must put the OVERLOAD into a TREE_LIST since the
1171 TREE_CHAIN of an OVERLOAD is already used. Similarly for
1172 decls that got here through a using-declaration. */
1175 /* And put DECL on the list of things declared by the current
1176 binding level. */
1178 }
1180 /* Check to see whether or not DECL is a variable that would have been
1181 in scope under the ARM, but is not in scope under the ANSI/ISO
1182 standard. If so, issue an error message. If name lookup would
1183 work in both cases, but return a different result, this function
1184 returns the result of ANSI/ISO lookup. Otherwise, it returns
1185 DECL. */
1187 tree
1189 {
1190 tree shadowed;
1192 /* We only care about out of scope variables. */
1205 {
1207 {
1210 shadowed);
1213 }
1215 }
1217 /* If we have already complained about this declaration, there's no
1218 need to do it again. */
1228 {
1234 }
1235 else
1236 {
1241 else
1242 {
1245 {
1248 }
1249 }
1250 }
1253 }
1254 \f
1255 /* true means unconditionally make a BLOCK for the next level pushed. */
1262 static void
1264 {
1269 }
1271 /* Return a string describing the kind of SCOPE we have. */
1274 {
1275 /* The order of this table must match the "scope_kind"
1276 enumerators. */
1287 "template-explicit-spec-scope"
1288 };
1293 }
1295 /* Output a debugging information about SCOPE when performing
1296 ACTION at LINE. */
1297 static void
1299 {
1304 else
1306 }
1308 /* Return the estimated initial size of the hashtable of a NAMESPACE
1309 scope. */
1313 {
1317 ? NAMESPACE_STD_HT_SIZE
1319 ? GLOBAL_SCOPE_HT_SIZE
1321 }
1323 /* A chain of binding_level structures awaiting reuse. */
1327 /* Insert SCOPE as the innermost binding level. */
1329 void
1331 {
1332 /* Add it to the front of currently active scopes stack. */
1338 {
1343 binding_depth++;
1344 }
1345 }
1347 /* Create a new KIND scope and make it the top of the active scopes stack.
1348 ENTITY is the scope of the associated C++ entity (namespace, class,
1349 function, C++0x enumeration); it is NULL otherwise. */
1351 cxx_scope *
1353 {
1356 /* Reuse or create a struct for this binding level. */
1358 {
1362 }
1363 else
1369 {
1377 /* Fall through. */
1400 /* Should not happen. */
1403 }
1409 }
1411 /* We're about to leave current scope. Pop the top of the stack of
1412 currently active scopes. Return the enclosing scope, now active. */
1414 cxx_scope *
1416 {
1422 /* We cannot leave a scope, if there are none left. */
1427 {
1431 {
1434 }
1436 }
1438 /* Move one nesting level up. */
1441 /* Namespace-scopes are left most probably temporarily, not
1442 completely; they can be reopened later, e.g. in namespace-extension
1443 or any name binding activity that requires us to resume a
1444 namespace. For classes, we cache some binding levels. For other
1445 scopes, we just make the structure available for reuse. */
1448 {
1453 }
1455 /* Find the innermost enclosing class scope, and reset
1456 CLASS_BINDING_LEVEL appropriately. */
1458 {
1462 {
1465 }
1466 }
1469 }
1471 static void
1473 {
1474 /* Resuming binding levels is meant only for namespaces,
1475 and those cannot nest into classes. */
1477 /* Also, resuming a non-directly nested namespace is a no-no. */
1481 {
1486 binding_depth++;
1487 }
1488 }
1490 /* Return the innermost binding level that is not for a class scope. */
1494 {
1502 }
1504 /* We're defining an object of type TYPE. If it needs a cleanup, but
1505 we're not allowed to add any more objects with cleanups to the current
1506 scope, create a new binding level. */
1508 void
1510 {
1514 {
1517 }
1518 }
1520 /* Nonzero if we are currently in the global binding level. */
1522 int
1524 {
1526 }
1528 /* True if we are currently in a toplevel binding level. This
1529 means either the global binding level or a namespace in a toplevel
1530 binding level. Since there are no non-toplevel namespace levels,
1531 this really means any namespace or template parameter level. We
1532 also include a class whose context is toplevel. */
1534 bool
1536 {
1540 }
1542 /* True if this is a namespace scope, or if we are defining a class
1543 which is itself at namespace scope, or whose enclosing class is
1544 such a class, etc. */
1546 bool
1548 {
1552 }
1554 /* True if the current level needs to have a BLOCK made. */
1556 bool
1558 {
1564 }
1566 /* Returns the kind of the innermost scope. */
1568 scope_kind
1570 {
1572 }
1574 /* Returns true if this scope was created to store template parameters. */
1576 bool
1578 {
1580 }
1582 /* If KEEP is true, make a BLOCK node for the next binding level,
1583 unconditionally. Otherwise, use the normal logic to decide whether
1584 or not to create a BLOCK. */
1586 void
1588 {
1590 }
1592 /* Return the list of declarations of the current level.
1593 Note that this list is in reverse order unless/until
1594 you nreverse it; and when you do nreverse it, you must
1595 store the result back using `storedecls' or you will lose. */
1597 tree
1599 {
1601 }
1603 /* For debugging. */
1607 static void
1609 {
1610 tree t;
1619 {
1621 /* We can probably fit 3 names to a line? */
1623 {
1631 /* Function decls tend to have longer names. */
1634 else
1638 {
1641 }
1645 }
1648 }
1650 {
1659 }
1661 {
1664 {
1666 }
1668 }
1669 }
1671 void
1673 {
1676 {
1679 }
1680 }
1682 void
1684 {
1692 {
1698 else
1700 }
1701 else
1706 }
1707 \f
1708 /* Return the type associated with id. */
1710 tree
1712 {
1714 /* There is no type with that name, anywhere. */
1717 /* This is not the type marker, but the real thing. */
1720 /* Have to search for it. It must be on the global level, now.
1721 Ask lookup_name not to return non-types. */
1726 }
1728 /* Return the IDENTIFIER_GLOBAL_VALUE of T, for use in common code, since
1729 the definition of IDENTIFIER_GLOBAL_VALUE is different for C and C++. */
1731 tree
1733 {
1735 }
1737 /* Push a definition of struct, union or enum tag named ID. into
1738 binding_level B. DECL is a TYPE_DECL for the type. We assume that
1739 the tag ID is not already defined. */
1741 static void
1743 {
1744 tree type;
1747 {
1748 /* Shadow the marker, not the real thing, so that the marker
1749 gets restored later. */
1751 b->type_shadowed
1755 }
1756 else
1757 {
1763 else
1766 /* Store marker instead of real type. */
1768 }
1770 }
1772 /* As set_identifier_type_value_with_scope, but using
1773 current_binding_level. */
1775 void
1777 {
1779 }
1781 /* Return the name for the constructor (or destructor) for the
1782 specified class TYPE. When given a template, this routine doesn't
1783 lose the specialization. */
1787 {
1789 }
1791 /* Return the name for the constructor (or destructor) for the
1792 specified class. When given a template, return the plain
1793 unspecialized name. */
1795 tree
1797 {
1798 tree name;
1803 }
1805 /* Returns TRUE if NAME is the name for the constructor for TYPE,
1806 which must be a class type. */
1808 bool
1810 {
1811 tree ctor_name;
1828 }
1830 /* Counter used to create anonymous type names. */
1834 /* Return an IDENTIFIER which can be used as a name for
1835 anonymous structs and unions. */
1837 tree
1839 {
1844 }
1846 /* Return (from the stack of) the BINDING, if any, established at SCOPE. */
1850 {
1858 }
1860 /* Return the binding for NAME in SCOPE, if any. Otherwise, return NULL. */
1864 {
1867 {
1868 /* Fold-in case where NAME is used only once. */
1872 }
1874 }
1876 /* Always returns a binding for name in scope. If no binding is
1877 found, make a new one. */
1881 {
1887 /* Not found, make a new one. */
1895 }
1897 /* Walk through the bindings associated to the name of FUNCTION,
1898 and return the first binding that declares a function with a
1899 "C" linkage specification, a.k.a 'extern "C"'.
1900 This function looks for the binding, regardless of which scope it
1901 has been defined in. It basically looks in all the known scopes.
1902 Note that this function does not lookup for bindings of builtin functions
1903 or for functions declared in system headers. */
1906 {
1907 tree name;
1916 iter;
1918 {
1923 {
1925 }
1926 }
1928 }
1930 /* Insert another USING_DECL into the current binding level, returning
1931 this declaration. If this is a redeclaration, do nothing, and
1932 return NULL_TREE if this not in namespace scope (in namespace
1933 scope, a using decl might extend any previous bindings). */
1935 static tree
1937 {
1938 tree decl;
1954 }
1956 /* Same as pushdecl, but define X in binding-level LEVEL. We rely on the
1957 caller to set DECL_CONTEXT properly. */
1959 tree
1961 {
1968 {
1973 }
1974 else
1975 {
1980 }
1983 }
1985 /* DECL is a FUNCTION_DECL for a non-member function, which may have
1986 other definitions already in place. We get around this by making
1987 the value of the identifier point to a list of all the things that
1988 want to be referenced by that name. It is then up to the users of
1989 that name to decide what to do with that list.
1991 DECL may also be a TEMPLATE_DECL, with a FUNCTION_DECL in its
1992 DECL_TEMPLATE_RESULT. It is dealt with the same way.
1994 FLAGS is a bitwise-or of the following values:
1995 PUSH_LOCAL: Bind DECL in the current scope, rather than at
1996 namespace scope.
1997 PUSH_USING: DECL is being pushed as the result of a using
1998 declaration.
2000 IS_FRIEND is true if this is a friend declaration.
2002 The value returned may be a previous declaration if we guessed wrong
2003 about what language DECL should belong to (C or C++). Otherwise,
2004 it's always DECL (and never something that's not a _DECL). */
2006 static tree
2008 {
2010 tree old;
2011 tree new_binding;
2017 else
2021 {
2023 {
2030 }
2032 {
2033 tree tmp;
2036 {
2038 tree dup;
2049 /* If DECL was a redeclaration of FN -- even an invalid
2050 one -- pass that information along to our caller. */
2053 }
2055 /* We don't overload implicit built-ins. duplicate_decls()
2056 may fail to merge the decls if the new decl is e.g. a
2057 template function. */
2062 }
2064 /* Ignore the undefined symbol marker. */
2066 else
2067 {
2071 }
2072 }
2075 /* If it's a using declaration, we always need to build an OVERLOAD,
2076 because it's the only way to remember that the declaration comes
2077 from 'using', and have the lookup behave correctly. */
2079 {
2082 else
2086 }
2087 else
2088 /* NAME is not ambiguous. */
2093 else
2094 {
2095 /* We only create an OVERLOAD if there was a previous binding at
2096 this level, or if decl is a template. In the former case, we
2097 need to remove the old binding and replace it with the new
2098 binding. We must also run through the NAMES on the binding
2099 level where the name was bound to update the chain. */
2102 {
2111 {
2113 /* Just replace the old binding with the new. */
2115 else
2116 /* Build a TREE_LIST to wrap the OVERLOAD. */
2120 /* And update the cxx_binding node. */
2123 }
2125 /* We should always find a previous binding in this case. */
2127 }
2129 /* Install the new binding. */
2131 }
2134 }
2136 /* Check a non-member using-declaration. Return the name and scope
2137 being used, and the USING_DECL, or NULL_TREE on failure. */
2139 static tree
2141 {
2142 /* [namespace.udecl]
2143 A using-declaration for a class member shall be a
2144 member-declaration. */
2146 {
2149 }
2154 {
2155 /* 7.3.3/5
2156 A using-declaration shall not name a template-id. */
2160 }
2163 {
2166 }
2169 {
2170 /* It's a nested name with template parameter dependent scope.
2171 This can only be using-declaration for class member. */
2174 }
2181 /* Make a USING_DECL. */
2183 }
2185 /* Process local and global using-declarations. */
2187 static void
2190 {
2195 /* Lookup error */
2199 {
2202 }
2204 /* Shift the old and new bindings around so we're comparing class and
2205 enumeration names to each other. */
2207 {
2210 }
2213 {
2216 }
2218 /* It is impossible to overload a built-in function; any explicit
2219 declaration eliminates the built-in declaration. So, if OLDVAL
2220 is a built-in, then we can just pretend it isn't there. */
2228 {
2229 /* Check for using functions. */
2231 {
2235 {
2238 }
2242 {
2245 /* [namespace.udecl]
2247 If a function declaration in namespace scope or block
2248 scope has the same name and the same parameter types as a
2249 function introduced by a using declaration the program is
2250 ill-formed. */
2252 {
2256 /* The function already exists in the current namespace. */
2262 {
2266 /* There was already a non-using declaration in
2267 this scope with the same parameter types. If both
2268 are the same extern "C" functions, that's ok. */
2271 else
2272 {
2275 }
2276 }
2277 }
2279 /* If we broke out of the loop, there's no reason to add
2280 this function to the using declarations for this
2281 scope. */
2285 /* If we are adding to an existing OVERLOAD, then we no
2286 longer know the type of the set of functions. */
2289 /* Add this new function to the set. */
2291 /* If there is only one function, then we use its type. (A
2292 using-declaration naming a single function can be used in
2293 contexts where overload resolution cannot be
2294 performed.) */
2296 {
2299 }
2301 }
2302 }
2303 else
2304 {
2308 }
2309 }
2310 else
2314 {
2317 }
2318 else
2319 {
2323 }
2325 /* If *newval is empty, shift any class or enumeration name down. */
2327 {
2330 }
2331 }
2333 /* Process a using-declaration at function scope. */
2335 void
2337 {
2355 {
2357 {
2360 /* We only need to push declarations for those functions
2361 that were not already bound in the current level.
2362 The old value might be NULL_TREE, it might be a single
2363 function, or an OVERLOAD. */
2366 else
2373 }
2374 else
2376 }
2378 {
2381 }
2383 /* Emit debug info. */
2386 }
2388 /* Returns true if ROOT (a namespace, class, or function) encloses
2389 CHILD. CHILD may be either a class type or a namespace. */
2391 bool
2393 {
2400 /* The global namespace encloses everything. */
2405 {
2406 /* If we've run out of scopes, stop. */
2409 /* If we've reached the ROOT, it encloses CHILD. */
2412 /* Go out one level. */
2416 }
2417 }
2419 /* Enter the class or namespace scope indicated by T suitable for name
2420 lookup. T can be arbitrary scope, not necessary nested inside the
2421 current scope. Returns a non-null scope to pop iff pop_scope
2422 should be called later to exit this scope. */
2424 tree
2426 {
2430 {
2434 else
2435 /* T is the same as the current scope. There is therefore no
2436 need to re-enter the scope. Since we are not actually
2437 pushing a new scope, our caller should not call
2438 pop_scope. */
2440 }
2443 }
2445 /* Leave scope pushed by push_scope. */
2447 void
2449 {
2454 }
2456 /* Subroutine of push_inner_scope. */
2458 static void
2460 {
2461 tree prev;
2471 {
2473 /* Temporary take out template parameter scopes. They are saved
2474 in reversed order in save_template_parm. */
2476 {
2481 }
2486 /* Restore template parameter scopes. */
2488 {
2493 }
2494 }
2495 else
2497 }
2499 /* Enter the scope INNER from current scope. INNER must be a scope
2500 nested inside current scope. This works with both name lookup and
2501 pushing name into scope. In case a template parameter scope is present,
2502 namespace is pushed under the template parameter scope according to
2503 name lookup rule in 14.6.1/6.
2505 Return the former current scope suitable for pop_inner_scope. */
2507 tree
2509 {
2516 }
2518 /* Exit the current scope INNER back to scope OUTER. */
2520 void
2522 {
2528 {
2530 {
2532 /* Temporary take out template parameter scopes. They are saved
2533 in reversed order in save_template_parm. */
2535 {
2540 }
2544 /* Restore template parameter scopes. */
2546 {
2551 }
2552 }
2553 else
2557 }
2558 }
2559 \f
2560 /* Do a pushlevel for class declarations. */
2562 void
2564 {
2569 }
2571 /* ...and a poplevel for class declarations. */
2573 void
2575 {
2579 tree shadowed;
2584 /* If we're leaving a toplevel class, cache its binding level. */
2588 shadowed;
2592 /* Remove the bindings for all of the class-level declarations. */
2594 {
2601 }
2603 /* Now, pop out of the binding level which we created up in the
2604 `pushlevel_class' routine. */
2610 }
2612 /* Set INHERITED_VALUE_BINDING_P on BINDING to true or false, as
2613 appropriate. DECL is the value to which a name has just been
2614 bound. CLASS_TYPE is the class in which the lookup occurred. */
2616 static void
2618 tree class_type)
2619 {
2621 {
2622 tree context;
2626 else
2627 {
2630 }
2634 else
2636 }
2638 /* We only encounter a TREE_LIST when there is an ambiguity in the
2639 base classes. Such an ambiguity can be overridden by a
2640 definition in this class. */
2642 else
2644 }
2646 /* Make the declaration of X appear in CLASS scope. */
2648 bool
2650 {
2651 tree name;
2655 /* Get the name of X. */
2658 else
2662 {
2666 }
2668 {
2669 /* If X is an anonymous aggregate, all of its members are
2670 treated as if they were members of the class containing the
2671 aggregate, for naming purposes. */
2672 tree f;
2675 {
2681 }
2682 }
2684 }
2686 /* Return the BINDING (if any) for NAME in SCOPE, which is a class
2687 scope. If the value returned is non-NULL, and the PREVIOUS field
2688 is not set, callers must set the PREVIOUS field explicitly. */
2692 {
2693 tree class_type;
2694 tree type_binding;
2695 tree value_binding;
2700 /* Get the type binding. */
2703 /* Get the value binding. */
2714 /* We found a type binding, even when looking for a non-type
2715 binding. This means that we already processed this binding
2716 above. */
2717 ;
2719 {
2722 /* NAME is ambiguous. */
2723 ;
2725 /* NAME is some overloaded functions. */
2727 }
2729 /* If we found either a type binding or a value binding, create a
2730 new binding object. */
2732 {
2734 value_binding,
2735 type_binding,
2736 scope);
2737 /* This is a class-scope binding, not a block-scope binding. */
2740 }
2741 else
2745 }
2747 /* Make the declaration(s) of X appear in CLASS scope under the name
2748 NAME. Returns true if the binding is valid. */
2750 bool
2752 {
2758 /* The class_binding_level will be NULL if x is a template
2759 parameter name in a member template. */
2766 /* Check for invalid member names. */
2768 /* We could have been passed a tree list if this is an ambiguous
2769 declaration. If so, pull the declaration out because
2770 check_template_shadow will not handle a TREE_LIST. */
2778 /* [class.mem]
2780 If T is the name of a class, then each of the following shall
2781 have a name different from T:
2783 -- every static data member of class T;
2785 -- every member of class T that is itself a type;
2787 -- every enumerator of every member of class T that is an
2788 enumerated type;
2790 -- every member of every anonymous union that is a member of
2791 class T.
2793 (Non-static data members were also forbidden to have the same
2794 name as T until TC1.) */
2799 /* A data member of an anonymous union. */
2803 {
2806 {
2809 x);
2811 }
2812 }
2814 /* Get the current binding for NAME in this class, if any. */
2817 {
2819 /* If a new binding was created, put it at the front of the
2820 IDENTIFIER_BINDING list. */
2822 {
2825 }
2826 }
2828 /* If there is already a binding, then we may need to update the
2829 current value. */
2831 {
2836 {
2837 /* If the old binding was from a base class, and was for a
2838 tag name, slide it over to make room for the new binding.
2839 The old binding is still visible if explicitly qualified
2840 with a class-key. */
2843 {
2848 }
2849 else
2850 {
2852 /* Any inherited type declaration is hidden by the type
2853 declaration in the derived class. */
2856 }
2857 }
2868 {
2870 /* It is always safe to clear INHERITED_VALUE_BINDING_P
2871 here. This function is only used to register bindings
2872 from with the class definition itself. */
2875 }
2876 }
2878 /* Note that we declared this value so that we can issue an error if
2879 this is an invalid redeclaration of a name already used for some
2880 other purpose. */
2883 /* If we didn't replace an existing binding, put the binding on the
2884 stack of bindings for the identifier, and update the shadowed
2885 list. */
2887 /* Supplement the existing binding. */
2889 else
2890 {
2891 /* Create a new binding. */
2894 }
2897 }
2899 /* Process "using SCOPE::NAME" in a class scope. Return the
2900 USING_DECL created. */
2902 tree
2904 {
2905 /* The USING_DECL returned by this function. */
2906 tree value;
2907 /* The declaration (or declarations) name by this using
2908 declaration. NULL if we are in a template and cannot figure out
2909 what has been named. */
2910 tree decl;
2911 /* True if SCOPE is a dependent type. */
2913 /* True if SCOPE::NAME is dependent. */
2915 /* True if any of the bases of CURRENT_CLASS_TYPE are dependent. */
2917 tree binfo;
2918 tree base_binfo;
2925 {
2928 }
2930 /* Make sure the name is not invalid */
2932 {
2935 }
2937 {
2940 }
2942 {
2946 }
2949 name_dependent_p = (scope_dependent_p
2957 i++)
2959 {
2962 }
2966 /* From [namespace.udecl]:
2968 A using-declaration used as a member-declaration shall refer to a
2969 member of a base class of the class being defined.
2971 In general, we cannot check this constraint in a template because
2972 we do not know the entire set of base classes of the current
2973 class type. However, if all of the base classes are
2974 non-dependent, then we can avoid delaying the check until
2975 instantiation. */
2977 {
2978 base_kind b_kind;
2981 {
2983 {
2986 }
2987 }
2989 {
2992 {
2994 scope);
2996 }
2997 /* The binfo from which the functions came does not matter. */
3000 }
3001 }
3009 }
3011 \f
3012 /* Return the binding value for name in scope. */
3014 tree
3016 {
3021 else
3022 /* Unnecessary for the global namespace because it can't be an alias. */
3028 }
3030 /* Set the binding value for name in scope. */
3032 void
3034 {
3043 else
3046 }
3048 /* Set the context of a declaration to scope. Complain if we are not
3049 outside scope. */
3051 void
3053 {
3056 /* Get rid of namespace aliases. */
3059 /* It is ok for friends to be qualified in parallel space. */
3065 /* Writing "int N::i" to declare a variable within "N" is invalid. */
3067 {
3070 decl);
3072 }
3074 /* See whether this has been declared in the namespace. */
3077 /* No old declaration at all. */
3080 /* Don't compare non-function decls with decls_match here, since
3081 it can't check for the correct constness at this
3082 point. pushdecl will find those errors later. */
3084 /* Since decl is a function, old should contain a function decl. */
3090 /* A template can be explicitly specialized in any namespace. */
3094 /* We have not yet called push_template_decl to turn a
3095 FUNCTION_DECL into a TEMPLATE_DECL, so the declarations won't
3096 match. But, we'll check later, when we construct the
3097 template. */
3099 /* Instantiations or specializations of templates may be declared as
3100 friends in any namespace. */
3104 {
3108 }
3111 complain:
3113 }
3115 /* Return the namespace where the current declaration is declared. */
3117 static tree
3119 {
3120 tree result;
3121 /* If we have been pushed into a different namespace, use it. */
3129 else
3132 }
3134 /* Process any ATTRIBUTES on a namespace definition. Currently only
3135 attribute visibility is meaningful, which is a property of the syntactic
3136 block rather than the namespace as a whole, so we don't touch the
3137 NAMESPACE_DECL at all. Returns true if attribute visibility is seen. */
3139 bool
3141 {
3142 tree d;
3146 {
3150 #ifdef HANDLE_PRAGMA_VISIBILITY
3152 {
3155 {
3158 name);
3160 }
3164 "%qD attribute is meaningless since members of the "
3169 }
3170 else
3171 #endif
3172 {
3174 name);
3176 }
3177 }
3180 }
3182 /* Push into the scope of the NAME namespace. If NAME is NULL_TREE, then we
3183 select a name that is unique to this compilation unit. */
3185 void
3187 {
3195 /* We should not get here if the global_namespace is not yet constructed
3196 nor if NAME designates the global namespace: The global scope is
3197 constructed elsewhere. */
3201 {
3205 /* Reopening anonymous namespace. */
3208 }
3209 else
3210 {
3211 /* Check whether this is an extended namespace definition. */
3214 {
3217 {
3221 }
3222 }
3223 }
3226 {
3227 /* Make a new namespace, binding the name to it. */
3230 /* The name of this namespace is not visible to other translation
3231 units if it is an anonymous namespace or member thereof. */
3234 else
3238 {
3239 /* Clear DECL_NAME for the benefit of debugging back ends. */
3242 }
3244 }
3245 else
3250 /* Enter the name space. */
3254 }
3256 /* Pop from the scope of the current namespace. */
3258 void
3260 {
3263 /* The binding level is not popped, as it might be re-opened later. */
3265 }
3267 /* Push into the scope of the namespace NS, even if it is deeply
3268 nested within another namespace. */
3270 void
3272 {
3275 else
3276 {
3279 }
3280 }
3282 /* Pop back from the scope of the namespace NS, which was previously
3283 entered with push_nested_namespace. */
3285 void
3287 {
3290 {
3293 }
3297 }
3299 /* Temporarily set the namespace for the current declaration. */
3301 void
3303 {
3308 }
3310 /* [namespace.memdef]/2 */
3312 void
3314 {
3316 }
3318 /* Return the namespace that is the common ancestor
3319 of two given namespaces. */
3321 static tree
3323 {
3329 }
3331 /* Process a namespace-alias declaration. */
3333 void
3335 {
3343 /* Build the alias. */
3350 /* Emit debug info for namespace alias. */
3353 }
3355 /* Like pushdecl, only it places X in the current namespace,
3356 if appropriate. */
3358 tree
3360 {
3362 tree t;
3367 /* Now, the type_shadowed stack may screw us. Munge it so it does
3368 what we want. */
3370 {
3372 tree newval;
3375 {
3379 {
3381 /* Can't break out of the loop here because sometimes
3382 a binding level will have duplicate bindings for
3383 PT names. It's gross, but I haven't time to fix it. */
3384 }
3385 }
3388 {
3389 /* @@ This shouldn't be needed. My test case "zstring.cc" trips
3390 up here if this is changed to an assertion. --KR */
3392 }
3393 else
3394 {
3396 }
3397 }
3399 }
3401 /* Insert USED into the using list of USER. Set INDIRECT_flag if this
3402 directive is not directly from the source. Also find the common
3403 ancestor and let our users know about the new namespace */
3404 static void
3406 {
3407 tree t;
3409 /* Using oneself is a no-op. */
3411 {
3414 }
3417 /* Check if we already have this. */
3420 {
3422 /* Promote to direct usage. */
3426 }
3428 /* Add used to the user's using list. */
3435 /* Add user to the used's users list. */
3439 /* Recursively add all namespaces used. */
3441 /* indirect usage */
3444 /* Tell everyone using us about the new used namespaces. */
3448 }
3450 /* Process a using-declaration not appearing in class or local scope. */
3452 void
3454 {
3470 /* Emit debug info. */
3474 /* Copy declarations found. */
3479 }
3481 /* Process a using-directive. */
3483 void
3485 {
3498 {
3500 }
3501 else
3502 {
3503 /* direct usage */
3508 /* Emit debugging info. */
3512 }
3513 }
3515 /* Deal with a using-directive seen by the parser. Currently we only
3516 handle attributes here, since they cannot appear inside a template. */
3518 void
3520 {
3521 tree a;
3526 {
3529 {
3533 {
3540 }
3541 }
3542 else
3544 }
3545 }
3547 /* Like pushdecl, only it places X in the global scope if appropriate.
3548 Calls cp_finish_decl to register the variable, initializing it with
3549 *INIT, if INIT is non-NULL. */
3551 static tree
3553 {
3561 }
3563 /* Like pushdecl, only it places X in the global scope if appropriate. */
3565 tree
3567 {
3569 }
3571 /* Like pushdecl_top_level, but adding the IS_FRIEND parameter. */
3573 tree
3575 {
3577 }
3579 /* Like pushdecl, only it places X in the global scope if
3580 appropriate. Calls cp_finish_decl to register the variable,
3581 initializing it with INIT. */
3583 tree
3585 {
3587 }
3589 /* Combines two sets of overloaded functions into an OVERLOAD chain, removing
3590 duplicates. The first list becomes the tail of the result.
3592 The algorithm is O(n^2). We could get this down to O(n log n) by
3593 doing a sort on the addresses of the functions, if that becomes
3594 necessary. */
3596 static tree
3598 {
3600 {
3602 tree fns1;
3605 {
3608 /* If the function from S2 is already in S1, there is no
3609 need to add it again. For `extern "C"' functions, we
3610 might have two FUNCTION_DECLs for the same function, in
3611 different namespaces, but let's leave them in in case
3612 they have different default arguments. */
3615 }
3617 /* If we exhausted all of the functions in S1, FN2 is new. */
3620 }
3622 }
3624 /* This should return an error not all definitions define functions.
3625 It is not an error if we find two functions with exactly the
3626 same signature, only if these are selected in overload resolution.
3627 old is the current set of bindings, new_binding the freshly-found binding.
3628 XXX Do we want to give *all* candidates in case of ambiguity?
3629 XXX In what way should I treat extern declarations?
3630 XXX I don't want to repeat the entire duplicate_decls here */
3632 static void
3634 {
3638 /* Copy the type. */
3644 /* Copy the value. */
3647 {
3650 else
3652 {
3654 /* If we expect types or namespaces, and not templates,
3655 or this is not a template class. */
3670 /* Ignore built-in functions that are still anticipated. */
3677 }
3678 }
3680 /* If val is hidden, shift down any class or enumeration name. */
3682 {
3685 }
3690 {
3693 else
3694 {
3698 }
3699 }
3704 {
3708 }
3709 }
3711 /* Return the declarations that are members of the namespace NS. */
3713 tree
3715 {
3717 }
3719 /* Combine prefer_type and namespaces_only into flags. */
3721 static int
3723 {
3731 }
3733 /* Given a lookup that returned VAL, use FLAGS to decide if we want to
3734 ignore it or not. Subroutine of lookup_name_real and
3735 lookup_type_scope. */
3737 static bool
3739 {
3750 }
3752 /* Given a lookup that returned VAL, decide if we want to ignore it or
3753 not based on DECL_ANTICIPATED. */
3755 bool
3757 {
3763 }
3765 /* Remove any hidden friend functions from a possibly overloaded set
3766 of functions. */
3768 tree
3770 {
3777 {
3778 tree o;
3784 {
3791 }
3792 }
3795 }
3797 /* Unscoped lookup of a global: iterate over current namespaces,
3798 considering using-directives. */
3800 static tree
3802 {
3805 tree siter;
3812 {
3820 /* Add all _DECLs seen through local using-directives. */
3826 /* Give up because of error. */
3829 /* Add all _DECLs seen through global using-directives. */
3830 /* XXX local and global using lists should work equally. */
3833 {
3837 /* Give up because of error. */
3841 }
3846 }
3848 }
3850 /* Look up NAME (an IDENTIFIER_NODE) in SCOPE (either a NAMESPACE_DECL
3851 or a class TYPE). If IS_TYPE_P is TRUE, then ignore non-type
3852 bindings.
3854 Returns a DECL (or OVERLOAD, or BASELINK) representing the
3855 declaration found. If no suitable declaration can be found,
3856 ERROR_MARK_NODE is returned. If COMPLAIN is true and SCOPE is
3857 neither a class-type nor a namespace a diagnostic is issued. */
3859 tree
3861 {
3866 {
3874 }
3883 }
3885 /* Subroutine of unqualified_namespace_lookup:
3886 Add the bindings of NAME in used namespaces to VAL.
3887 We are currently looking for names in namespace SCOPE, so we
3888 look through USINGS for using-directives of namespaces
3889 which have SCOPE as a common ancestor with the current scope.
3890 Returns false on errors. */
3892 static bool
3895 {
3896 tree iter;
3898 /* Iterate over all used namespaces in current, searching for using
3899 directives of scope. */
3902 {
3906 /* Resolve ambiguities. */
3909 }
3911 }
3913 /* [namespace.qual]
3914 Accepts the NAME to lookup and its qualifying SCOPE.
3915 Returns the name/type pair found into the cxx_binding *RESULT,
3916 or false on error. */
3918 static bool
3921 {
3922 /* Maintain a list of namespaces visited... */
3924 /* ... and a list of namespace yet to see. */
3927 tree usings;
3929 /* Look through namespace aliases. */
3932 {
3939 /* Consider strong using directives always, and non-strong ones
3940 if we haven't found a binding yet. ??? Shouldn't we consider
3941 non-strong ones if the initial RESULT is non-NULL, but the
3942 binding in the given namespace is? */
3945 /* If this was a real directive, and we have not seen it. */
3947 {
3948 /* Try to avoid queuing the same namespace more than once,
3949 the exception being when a namespace was already
3950 enqueued for todo_maybe and then a strong using is
3951 found for it. We could try to remove it from
3952 todo_maybe, but it's probably not worth the effort. */
3962 todo_maybe);
3963 }
3965 {
3968 }
3971 {
3975 }
3976 else
3978 }
3980 }
3982 /* Subroutine of outer_binding.
3983 Returns TRUE if BINDING is a binding to a template parameter of SCOPE,
3984 FALSE otherwise. */
3986 static bool
3989 {
3990 tree binding_value;
4003 }
4005 /* Return the innermost non-namespace binding for NAME from a scope
4006 containing BINDING, or, if BINDING is NULL, the current scope.
4007 Please note that for a given template, the template parameters are
4008 considered to be in the scope containing the current scope.
4009 If CLASS_P is false, then class bindings are ignored. */
4011 cxx_binding *
4015 {
4021 {
4024 }
4025 else
4026 {
4029 }
4032 /* Because we create class bindings lazily, we might be missing a
4033 class binding for NAME. If there are any class binding levels
4034 between the LAST_BINDING_LEVEL and the scope in which OUTER was
4035 declared, we must lookup NAME in those class scopes. */
4038 {
4040 {
4045 {
4046 /* Thread this new class-scope binding onto the
4047 IDENTIFIER_BINDING list so that future lookups
4048 find it quickly. */
4052 else
4055 }
4056 }
4057 /* If we are in a member template, the template parms of the member
4058 template are considered to be inside the scope of the containing
4059 class, but within G++ the class bindings are all pushed between the
4060 template parms and the function body. So if the outer binding is
4061 a template parm for the current scope, return it now rather than
4062 look for a class binding. */
4068 }
4071 }
4073 /* Return the innermost block-scope or class-scope value binding for
4074 NAME, or NULL_TREE if there is no such binding. */
4076 tree
4078 {
4082 }
4084 /* Look up NAME in the current binding level and its superiors in the
4085 namespace of variables, functions and typedefs. Return a ..._DECL
4086 node of some kind representing its definition if there is only one
4087 such declaration, or return a TREE_LIST with all the overloaded
4088 definitions if there are many, or return 0 if it is undefined.
4089 Hidden name, either friend declaration or built-in function, are
4090 not ignored.
4092 If PREFER_TYPE is > 0, we prefer TYPE_DECLs or namespaces.
4093 If PREFER_TYPE is > 1, we reject non-type decls (e.g. namespaces).
4094 Otherwise we prefer non-TYPE_DECLs.
4096 If NONCLASS is nonzero, bindings in class scopes are ignored. If
4097 BLOCK_P is false, bindings in block scopes are ignored. */
4099 tree
4102 {
4107 /* Conversion operators are handled specially because ordinary
4108 unqualified name lookup will not find template conversion
4109 operators. */
4111 {
4117 {
4118 tree class_type;
4119 tree operators;
4121 /* A conversion operator can only be declared in a class
4122 scope. */
4126 /* Lookup the conversion operator in the class. */
4131 }
4134 }
4138 /* First, look in non-namespace scopes. */
4145 iter;
4147 {
4148 tree binding;
4150 /* Skip entities we don't want. */
4154 /* If this is the kind of thing we're looking for, we're done. */
4160 else
4164 {
4166 {
4167 /* A non namespace-scope binding can only be hidden in the
4168 presence of a local class, due to friend declarations.
4170 In particular, consider:
4172 struct C;
4173 void f() {
4174 struct A {
4175 friend struct B;
4176 friend struct C;
4177 void g() {
4178 B* b; // error: B is hidden
4179 C* c; // OK, finds ::C
4180 }
4181 };
4182 B *b; // error: B is hidden
4183 C *c; // OK, finds ::C
4184 struct B {};
4185 B *bb; // OK
4186 }
4188 The standard says that "B" is a local class in "f"
4189 (but not nested within "A") -- but that name lookup
4190 for "B" does not find this declaration until it is
4191 declared directly with "f".
4193 In particular:
4195 [class.friend]
4197 If a friend declaration appears in a local class and
4198 the name specified is an unqualified name, a prior
4199 declaration is looked up without considering scopes
4200 that are outside the innermost enclosing non-class
4201 scope. For a friend function declaration, if there is
4202 no prior declaration, the program is ill-formed. For a
4203 friend class declaration, if there is no prior
4204 declaration, the class that is specified belongs to the
4205 innermost enclosing non-class scope, but if it is
4206 subsequently referenced, its name is not found by name
4207 lookup until a matching declaration is provided in the
4208 innermost enclosing nonclass scope.
4210 So just keep looking for a non-hidden binding.
4211 */
4214 }
4217 }
4218 }
4220 /* Now lookup in namespace scopes. */
4224 /* If we have a single function from a using decl, pull it out. */
4229 }
4231 tree
4233 {
4235 }
4237 tree
4239 {
4240 return
4243 LOOKUP_COMPLAIN),
4244 args);
4245 }
4247 tree
4249 {
4251 }
4253 tree
4255 {
4258 }
4260 /* Look up NAME for type used in elaborated name specifier in
4261 the scopes given by SCOPE. SCOPE can be either TS_CURRENT or
4262 TS_WITHIN_ENCLOSING_NON_CLASS. Although not implied by the
4263 name, more scopes are checked if cleanup or template parameter
4264 scope is encountered.
4266 Unlike lookup_name_real, we make sure that NAME is actually
4267 declared in the desired scope, not from inheritance, nor using
4268 directive. For using declaration, there is DR138 still waiting
4269 to be resolved. Hidden name coming from an earlier friend
4270 declaration is also returned.
4272 A TYPE_DECL best matching the NAME is returned. Catching error
4273 and issuing diagnostics are caller's responsibility. */
4275 tree
4277 {
4283 /* Look in non-namespace scope first. */
4287 {
4288 /* Check if this is the kind of thing we're looking for.
4289 If SCOPE is TS_CURRENT, also make sure it doesn't come from
4290 base class. For ITER->VALUE, we can simply use
4291 INHERITED_VALUE_BINDING_P. For ITER->TYPE, we have to use
4292 our own check.
4294 We check ITER->TYPE before ITER->VALUE in order to handle
4295 typedef struct C {} C;
4296 correctly. */
4310 }
4312 /* Look in namespace scope. */
4314 {
4315 iter = cxx_scope_find_binding_for_name
4319 {
4320 /* If this is the kind of thing we're looking for, we're done. */
4325 }
4327 }
4329 /* Type found, check if it is in the allowed scopes, ignoring cleanup
4330 and template parameter scopes. */
4332 {
4335 {
4345 else
4347 }
4348 }
4351 }
4353 /* Similar to `lookup_name' but look only in the innermost non-class
4354 binding level. */
4356 tree
4358 {
4366 {
4369 /* extern "C" function() */
4372 }
4375 {
4379 {
4387 else
4389 }
4390 }
4393 }
4395 /* Like lookup_name_innermost_nonclass_level, but for types. */
4397 static tree
4399 {
4407 {
4410 {
4416 else
4418 }
4419 }
4422 }
4424 /* [basic.lookup.koenig] */
4425 /* A nonzero return value in the functions below indicates an error. */
4427 struct arg_lookup
4428 {
4429 tree name;
4430 tree args;
4431 tree namespaces;
4432 tree classes;
4433 tree functions;
4434 };
4444 /* Add a function to the lookup structure.
4445 Returns true on error. */
4447 static bool
4449 {
4450 /* We used to check here to see if the function was already in the list,
4451 but that's O(n^2), which is just too expensive for function lookup.
4452 Now we deal with the occasional duplicate in joust. In doing this, we
4453 assume that the number of duplicates will be small compared to the
4454 total number of functions being compared, which should usually be the
4455 case. */
4457 /* We must find only functions, or exactly one non-function. */
4461 ;
4464 else
4465 {
4469 {
4471 }
4476 }
4479 }
4481 /* Returns true iff CURRENT has declared itself to be an associated
4482 namespace of SCOPE via a strong using-directive (or transitive chain
4483 thereof). Both are namespaces. */
4485 bool
4487 {
4490 tree t;
4492 {
4500 {
4503 }
4504 else
4506 }
4507 }
4509 /* Return whether FN is a friend of an associated class of ARG. */
4511 static bool
4513 {
4514 tree type;
4520 else
4523 /* If TYPE is a class, the class itself and all base classes are
4524 associated classes. */
4526 {
4531 {
4537 i++)
4540 }
4541 }
4543 /* If TYPE is a class member, the class of which it is a member is
4544 an associated class. */
4554 }
4556 /* Add functions of a namespace to the lookup structure.
4557 Returns true on error. */
4559 static bool
4561 {
4562 tree value;
4568 /* Check out our super-users. */
4574 /* Also look down into inline namespaces. */
4586 {
4587 /* We don't want to find arbitrary hidden functions via argument
4588 dependent lookup. We only want to find friends of associated
4589 classes. */
4591 {
4592 tree args;
4600 }
4604 }
4607 }
4609 /* Adds everything associated with a template argument to the lookup
4610 structure. Returns true on error. */
4612 static bool
4614 {
4615 /* [basic.lookup.koenig]
4617 If T is a template-id, its associated namespaces and classes are
4618 ... the namespaces and classes associated with the types of the
4619 template arguments provided for template type parameters
4620 (excluding template template parameters); the namespaces in which
4621 any template template arguments are defined; and the classes in
4622 which any member templates used as template template arguments
4623 are defined. [Note: non-type template arguments do not
4624 contribute to the set of associated namespaces. ] */
4626 /* Consider first template template arguments. */
4631 {
4634 /* It's not a member template. */
4637 /* Otherwise, it must be member template. */
4638 else
4640 }
4641 /* It's an argument pack; handle it recursively. */
4643 {
4651 }
4652 /* It's not a template template argument, but it is a type template
4653 argument. */
4656 /* It's a non-type template argument. */
4657 else
4659 }
4661 /* Adds everything associated with class to the lookup structure.
4662 Returns true on error. */
4664 static bool
4666 {
4670 /* Backend build structures, such as __builtin_va_list, aren't
4671 affected by all this. */
4684 {
4685 /* Process baseclasses. */
4692 }
4694 /* Process friends. */
4700 {
4703 /* Only interested in global functions with potentially hidden
4704 (i.e. unqualified) declarations. */
4707 /* Template specializations are never found by name lookup.
4708 (Templates themselves can be found, but not template
4709 specializations.) */
4714 }
4716 /* Process template arguments. */
4719 {
4723 }
4726 }
4728 /* Adds everything associated with a given type.
4729 Returns 1 on error. */
4731 static bool
4733 {
4734 /* As we do not get the type of non-type dependent expressions
4735 right, we can end up with such things without a type. */
4740 {
4741 /* Pointer to member: associate class type and value type. */
4745 }
4747 {
4771 /* The basetype is referenced in the first arg type, so just
4772 fall through. */
4774 /* Associate the parameter types. */
4777 /* Associate the return type. */
4793 }
4795 }
4797 /* Adds everything associated with arguments. Returns true on error. */
4799 static bool
4801 {
4806 }
4808 /* Adds everything associated with a given tree_node. Returns 1 on error. */
4810 static bool
4812 {
4836 {
4837 /* [basic.lookup.koenig]
4839 If T is a template-id, its associated namespaces and classes
4840 are the namespace in which the template is defined; for
4841 member templates, the member template's class... */
4844 tree ctx;
4850 /* First, the template. There may actually be more than one if
4851 this is an overloaded function template. But, in that case,
4852 we only need the first; all the functions will be in the same
4853 namespace. */
4859 {
4862 }
4863 /* It must be a member template. */
4867 /* Now the arguments. */
4872 }
4874 {
4878 }
4881 }
4883 /* Performs Koenig lookup depending on arguments, where fns
4884 are the functions found in normal lookup. */
4886 tree
4888 {
4893 /* Remove any hidden friend functions from the list of functions
4894 found so far. They will be added back by arg_assoc_class as
4895 appropriate. */
4903 /* We previously performed an optimization here by setting
4904 NAMESPACES to the current namespace when it was safe. However, DR
4905 164 says that namespaces that were already searched in the first
4906 stage of template processing are searched again (potentially
4907 picking up later definitions) in the second stage. */
4917 {
4921 }
4924 }
4926 /* Add namespace to using_directives. Return NULL_TREE if nothing was
4927 changed (i.e. there was already a directive), or the fresh
4928 TREE_LIST otherwise. */
4930 static tree
4932 {
4937 /* Check if we already have this. */
4946 /* Recursively add all namespaces used. */
4951 }
4953 /* The type TYPE is being declared. If it is a class template, or a
4954 specialization of a class template, do any processing required and
4955 perform error-checking. If IS_FRIEND is nonzero, this TYPE is
4956 being declared a friend. B is the binding level at which this TYPE
4957 should be bound.
4959 Returns the TYPE_DECL for TYPE, which may have been altered by this
4960 processing. */
4962 static tree
4965 {
4969 /* You can't declare a new template type in a template parameter
4970 list. But, you can declare a non-template type:
4972 template <class A*> struct S;
4974 is a forward-declaration of `A'. */
4975 ;
4978 /* If this new type is being injected into a containing scope,
4979 then it's not a template type. */
4980 ;
4981 else
4982 {
4987 {
4988 /* This may change after the call to
4989 push_template_decl_real, but we want the original value. */
4996 /* If the current binding level is the binding level for the
4997 template parameters (see the comment in
4998 begin_template_parm_list) and the enclosing level is a class
4999 scope, and we're not looking at a friend, push the
5000 declaration of the member class into the class scope. In the
5001 friend case, push_template_decl will already have put the
5002 friend into global scope, if appropriate. */
5006 {
5010 {
5013 /* Put this UTD in the table of UTDs for the class. */
5018 binding_table_insert
5020 }
5021 }
5022 }
5023 }
5026 }
5028 /* Push a tag name NAME for struct/class/union/enum type TYPE. In case
5029 that the NAME is a class template, the tag is processed but not pushed.
5031 The pushed scope depend on the SCOPE parameter:
5032 - When SCOPE is TS_CURRENT, put it into the inner-most non-sk_cleanup
5033 scope.
5034 - When SCOPE is TS_GLOBAL, put it in the inner-most non-class and
5035 non-template-parameter scope. This case is needed for forward
5036 declarations.
5037 - When SCOPE is TS_WITHIN_ENCLOSING_NON_CLASS, this is similar to
5038 TS_GLOBAL case except that names within template-parameter scopes
5039 are not pushed at all.
5041 Returns TYPE upon success and ERROR_MARK_NODE otherwise. */
5043 tree
5045 {
5047 tree decl;
5052 the language. */
5054 /* Neither are function parameter scopes. */
5056 /* Neither are the scopes used to hold template parameters
5057 for an explicit specialization. For an ordinary template
5058 declaration, these scopes are not scopes from the point of
5059 view of the language. */
5064 /* We may be defining a new type in the initializer
5065 of a static member variable. We allow this when
5066 not pedantic, and it is particularly useful for
5067 type punning via an anonymous union. */
5073 /* Do C++ gratuitous typedefing. */
5075 {
5076 tree tdef;
5081 {
5087 /* When declaring a friend class of a local class, we want
5088 to inject the newly named class into the scope
5089 containing the local class, not the namespace
5090 scope. */
5092 }
5107 {
5108 /* This is a friend. Make this TYPE_DECL node hidden from
5109 ordinary name lookup. Its corresponding TEMPLATE_DECL
5110 will be marked in push_template_decl_real. */
5114 }
5116 decl = maybe_process_template_type_declaration
5122 {
5127 /* Put this TYPE_DECL on the TYPE_FIELDS list for the
5128 class. But if it's a member template class, we want
5129 the TEMPLATE_DECL, not the TYPE_DECL, so this is done
5130 later. */
5132 else
5134 }
5136 {
5140 }
5147 /* If this is a local class, keep track of it. We need this
5148 information for name-mangling, and so that it is possible to
5149 find all function definitions in a translation unit in a
5150 convenient way. (It's otherwise tricky to find a member
5151 function definition it's only pointed to from within a local
5152 class.) */
5156 }
5159 {
5167 binding_table_insert
5169 }
5175 /* Set type visibility now if this is a forward declaration. */
5180 }
5181 \f
5182 /* Subroutines for reverting temporarily to top-level for instantiation
5183 of templates and such. We actually need to clear out the class- and
5184 local-value slots of all identifiers, so that only the global values
5185 are at all visible. Simply setting current_binding_level to the global
5186 scope isn't enough, because more binding levels may be pushed. */
5189 /* If ID has not already been marked, add an appropriate binding to
5190 *OLD_BINDINGS. */
5192 static void
5194 {
5210 }
5212 static void
5214 {
5215 tree t;
5219 {
5220 tree id;
5224 else
5228 }
5230 }
5232 /* Like store_bindings, but NAMES is a vector of cp_class_binding
5233 objects, rather than a TREE_LIST. */
5235 static void
5238 {
5246 }
5248 void
5250 {
5262 /* If we're in the middle of some function, save our state. */
5264 {
5267 }
5268 else
5275 /* Have to include the global scope, because class-scope decls
5276 aren't listed anywhere useful. */
5278 {
5279 tree t;
5281 /* Template IDs are inserted into the global level. If they were
5282 inserted into namespace level, finish_file wouldn't find them
5283 when doing pending instantiations. Therefore, don't stop at
5284 namespace level, but continue until :: . */
5289 /* We also need to check class_shadowed to save class-level type
5290 bindings, since pushclass doesn't fill in b->names. */
5294 /* Unwind type-value slots back to top level. */
5297 }
5316 }
5318 void
5320 {
5326 /* Clear out class-level bindings cache. */
5335 {
5340 }
5342 /* If we were in the middle of compiling a function, restore our
5343 state. */
5349 }
5351 /* Pop off extraneous binding levels left over due to syntax errors.
5353 We don't pop past namespaces, as they might be valid. */
5355 void
5357 {
5361 {
5364 else
5366 }
5369 }
5371 /* Emit debugging information for using declarations and directives.
5372 If input tree is overloaded fn then emit debug info for all
5373 candidates. */
5375 void
5377 {
5378 /* Don't try to emit any debug information if we have errors. */
5382 /* Ignore this FUNCTION_DECL if it refers to a builtin declaration
5383 of a builtin function. */
5389 /* Do not supply context to imported_module_or_decl, if
5390 it is a global namespace. */
5397 /* FIXME: Handle TEMPLATE_DECLs. */
5400 {
5403 else
5405 }
5406 }