/* Type Analyzer for GNU C++. Copyright (C) 1987, 1989, 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999, 2000, 2001, 2002 Free Software Foundation, Inc. Hacked... nay, bludgeoned... by Mark Eichin (eichin@cygnus.com) This file is part of GNU CC. GNU CC is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. GNU CC is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with GNU CC; see the file COPYING. If not, write to the Free Software Foundation, 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ /* This file is the type analyzer for GNU C++. To debug it, define SPEW_DEBUG when compiling parse.c and spew.c. */ #include "config.h" #include "system.h" #include "input.h" #include "tree.h" #include "cp-tree.h" #include "cpplib.h" #include "c-pragma.h" /* APPLE LOCAL AltiVec */ extern int altivec_context; #include "lex.h" /* APPLE LOCAL Objective-C++ */ #include "cp-parse.h" #include "flags.h" #include "obstack.h" #include "toplev.h" #include "intl.h" #include "timevar.h" #ifdef SPEW_DEBUG #define SPEW_INLINE #else #define SPEW_INLINE inline #endif /* This takes a token stream that hasn't decided much about types and tries to figure out as much as it can, with excessive lookahead and backtracking. */ /* fifo of tokens recognized and available to parser. */ struct token GTY(()) { /* The values for YYCHAR will fit in a short. */ short yychar; unsigned int lineno; YYSTYPE GTY ((desc ("%1.yychar"))) yylval; }; /* Since inline methods can refer to text which has not yet been seen, we store the text of the method in a structure which is placed in the DECL_PENDING_INLINE_INFO field of the FUNCTION_DECL. After parsing the body of the class definition, the FUNCTION_DECL's are scanned to see which ones have this field set. Those are then digested one at a time. This function's FUNCTION_DECL will have a bit set in its common so that we know to watch out for it. */ #define TOKEN_CHUNK_SIZE 20 struct token_chunk GTY(()) { struct token_chunk *next; struct token toks[TOKEN_CHUNK_SIZE]; }; struct unparsed_text GTY(()) { struct unparsed_text *next; /* process this one next */ tree decl; /* associated declaration */ location_t locus; /* location we got the text from */ int interface; /* remembering interface_unknown and interface_only */ struct token_chunk * tokens; /* Start of the token list. */ struct token_chunk *last_chunk; /* End of the token list. */ short last_pos; /* Number of tokens used in the last chunk of TOKENS. */ short cur_pos; /* Current token in 'cur_chunk', when rescanning. */ struct token_chunk *cur_chunk; /* Current chunk, when rescanning. */ }; /* Stack of state saved off when we return to an inline method or default argument that has been stored for later parsing. */ struct feed GTY(()) { struct unparsed_text *input; location_t locus; int yychar; YYSTYPE GTY ((desc ("%1.yychar"))) yylval; int first_token; struct obstack GTY ((skip (""))) token_obstack; struct feed *next; }; static GTY(()) struct feed *feed; static SPEW_INLINE void do_aggr PARAMS ((void)); static SPEW_INLINE int identifier_type PARAMS ((tree)); static void scan_tokens PARAMS ((int)); static void feed_defarg PARAMS ((tree)); static void finish_defarg PARAMS ((void)); static void yylexstring PARAMS ((struct token *)); static int read_token PARAMS ((struct token *)); static SPEW_INLINE int num_tokens PARAMS ((void)); static SPEW_INLINE struct token *nth_token PARAMS ((int)); static SPEW_INLINE int next_token PARAMS ((struct token *)); static SPEW_INLINE int shift_token PARAMS ((void)); static SPEW_INLINE void push_token PARAMS ((struct token *)); static SPEW_INLINE void consume_token PARAMS ((void)); static SPEW_INLINE int read_process_identifier PARAMS ((YYSTYPE *)); static SPEW_INLINE void feed_input PARAMS ((struct unparsed_text *)); static SPEW_INLINE struct token * space_for_token PARAMS ((struct unparsed_text *t)); static SPEW_INLINE struct token * remove_last_token PARAMS ((struct unparsed_text *t)); static struct unparsed_text * alloc_unparsed_text PARAMS ((const location_t *, tree decl, int interface)); static void snarf_block PARAMS ((struct unparsed_text *t)); static tree snarf_defarg PARAMS ((void)); static void snarf_parenthesized_expression (struct unparsed_text *); static int frob_id PARAMS ((int, int, tree *)); /* The list of inline functions being held off until we reach the end of the current class declaration. */ static GTY(()) struct unparsed_text *pending_inlines; static GTY(()) struct unparsed_text *pending_inlines_tail; /* The list of previously-deferred inline functions currently being parsed. This exists solely to be a GC root. */ static GTY(()) struct unparsed_text *processing_these_inlines; static void begin_parsing_inclass_inline PARAMS ((struct unparsed_text *)); #ifdef SPEW_DEBUG int spew_debug = 0; static unsigned int yylex_ctr = 0; static void debug_yychar PARAMS ((int)); /* In parse.y: */ extern char *debug_yytranslate PARAMS ((int)); #endif static enum cpp_ttype last_token; static tree last_token_id; /* From lex.c: */ /* the declaration found for the last IDENTIFIER token read in. yylex must look this up to detect typedefs, which get token type tTYPENAME, so it is left around in case the identifier is not a typedef but is used in a context which makes it a reference to a variable. */ extern tree lastiddecl; /* let our brains leak out here too */ extern int yychar; /* the lookahead symbol */ extern YYSTYPE yylval; /* the semantic value of the */ /* lookahead symbol */ /* The token fifo lives in this obstack. */ static struct obstack token_obstack; static int first_token; /* When we see a default argument in a method declaration, we snarf it as text using snarf_defarg. When we get up to namespace scope, we then go through and parse all of them using do_pending_defargs. Since yacc parsers are not reentrant, we retain defargs state in these two variables so that subsequent calls to do_pending_defargs can resume where the previous call left off. DEFARG_FNS is a tree_list where the TREE_TYPE is the current_class_type, TREE_VALUE is the FUNCTION_DECL, and TREE_PURPOSE is the list unprocessed dependent functions. */ /* list of functions with unprocessed defargs */ static GTY(()) tree defarg_fns; /* current default parameter */ static GTY(()) tree defarg_parm; /* list of unprocessed fns met during current fn. */ static GTY(()) tree defarg_depfns; /* list of fns with circular defargs */ static GTY(()) tree defarg_fnsdone; /* Initialize obstacks. Called once, from cxx_init. */ void init_spew () { gcc_obstack_init (&token_obstack); } /* Subroutine of read_token. */ static SPEW_INLINE int read_process_identifier (pyylval) YYSTYPE *pyylval; { tree id = pyylval->ttype; /* APPLE LOCAL AltiVec */ /* APPLE LOCAL begin Objective-C++ */ if (C_IS_RESERVED_WORD (id) && (!flag_objc || (!OBJC_IS_AT_KEYWORD (C_RID_CODE (id)) && (!OBJC_IS_PQ_KEYWORD (C_RID_CODE (id)) || objc_pq_context))) && altivec_treat_as_keyword (id)) { switch (C_RID_CODE (id)) { /* Turn non-typedefed refs to "id" into plain identifiers; this allows constructs like "void foo(id id);" to work. */ case RID_ID: { tree decl = NULL_TREE, next_tok; enum cpp_ttype next_tok_type; if (!flag_objc || objc_need_raw_identifier) return IDENTIFIER; /* short & sweet */ decl = lookup_name (id, /*prefer_type=*/1); if (decl == NULL_TREE || TREE_CODE (decl) != TYPE_DECL || DECL_CONTEXT (decl) || got_scope) return IDENTIFIER; /* Last gasp -- a trailing semicolon!!!! */ /* APPLE LOCAL begin jet */ next_tok_type = c_get_token (&next_tok); c_backup_tokens (/* parse_in, */ 1); /* APPLE LOCAL end jet */ if (next_tok_type == CPP_SEMICOLON) return IDENTIFIER; } break; case RID_CLASS: if (flag_objc && objc_need_raw_identifier && !processing_template_decl) { /* Suppress the warning for now. warning ("`class' is a reserved keyword in Objective-C++; " "this will be a hard error in the future"); */ return IDENTIFIER; } break; } /* APPLE LOCAL end Objective-C++ */ pyylval->ttype = ridpointers[C_RID_CODE (id)]; return C_RID_YYCODE (id); } /* Make sure that user does not collide with our internal naming scheme. This is not necessary if '.' is used to remove them from the user's namespace, but is if '$' or double underscores are. */ #if !defined(JOINER) || JOINER == '$' if (VPTR_NAME_P (id) || VTABLE_NAME_P (id) || TEMP_NAME_P (id) || ANON_AGGRNAME_P (id)) warning ( "identifier name `%s' conflicts with GNU C++ internal naming strategy", IDENTIFIER_POINTER (id)); #endif return IDENTIFIER; } /* Concatenate strings before returning them to the parser. This isn't quite as good as having it done in the lexer, but it's better than nothing. */ static void yylexstring (t) struct token *t; { enum cpp_ttype next_type; tree next; /* APPLE LOCAL jet */ next_type = c_get_token (&next); if (next_type == CPP_STRING || next_type == CPP_WSTRING) { varray_type strings; VARRAY_TREE_INIT (strings, 32, "strings"); VARRAY_PUSH_TREE (strings, t->yylval.ttype); do { VARRAY_PUSH_TREE (strings, next); /* APPLE LOCAL jet */ next_type = c_get_token (&next); } while (next_type == CPP_STRING || next_type == CPP_WSTRING); t->yylval.ttype = combine_strings (strings); last_token_id = t->yylval.ttype; } /* We will have always read one token too many. */ /* APPLE LOCAL jet */ c_backup_tokens (/* parse_in, */ 1); t->yychar = STRING; } /* Read the next token from the input file. The token is written into T, and its type number is returned. */ static int read_token (t) struct token *t; { retry: /* APPLE LOCAL jet */ last_token = c_get_token (&last_token_id); t->yylval.ttype = last_token_id; switch (last_token) { #define YYCHAR(YY) t->yychar = (YY); break; #define YYCODE(C) t->yylval.code = (C); /* APPLE LOCAL AltiVec */ case CPP_EQ: altivec_context = 0; YYCHAR('='); case CPP_NOT: YYCHAR('!'); /* APPLE LOCAL Objective-C++ */ case CPP_GREATER: OBJC_NEED_RAW_IDENTIFIER (0); YYCODE(GT_EXPR); YYCHAR('>'); case CPP_LESS: YYCODE(LT_EXPR); YYCHAR('<'); case CPP_PLUS: YYCODE(PLUS_EXPR); YYCHAR('+'); case CPP_MINUS: YYCODE(MINUS_EXPR); YYCHAR('-'); case CPP_MULT: YYCODE(MULT_EXPR); YYCHAR('*'); case CPP_DIV: YYCODE(TRUNC_DIV_EXPR); YYCHAR('/'); case CPP_MOD: YYCODE(TRUNC_MOD_EXPR); YYCHAR('%'); case CPP_AND: YYCODE(BIT_AND_EXPR); YYCHAR('&'); case CPP_OR: YYCODE(BIT_IOR_EXPR); YYCHAR('|'); case CPP_XOR: YYCODE(BIT_XOR_EXPR); YYCHAR('^'); case CPP_RSHIFT: YYCODE(RSHIFT_EXPR); YYCHAR(RSHIFT); case CPP_LSHIFT: YYCODE(LSHIFT_EXPR); YYCHAR(LSHIFT); case CPP_COMPL: YYCHAR('~'); case CPP_AND_AND: YYCHAR(ANDAND); case CPP_OR_OR: YYCHAR(OROR); case CPP_QUERY: YYCHAR('?'); /* APPLE LOCAL AltiVec */ /* APPLE LOCAL Objective-C++ */ case CPP_COLON: altivec_context = 0; OBJC_NEED_RAW_IDENTIFIER (0); YYCHAR(':'); case CPP_COMMA: altivec_context = 0; OBJC_NEED_RAW_IDENTIFIER (0); YYCHAR(','); /* APPLE LOCAL AltiVec */ /* APPLE LOCAL Objective-C++ */ case CPP_OPEN_PAREN: altivec_context = 0; OBJC_NEED_RAW_IDENTIFIER (0); YYCHAR('('); case CPP_CLOSE_PAREN: altivec_context = 0; OBJC_NEED_RAW_IDENTIFIER (0); YYCHAR(')'); case CPP_EQ_EQ: YYCODE(EQ_EXPR); YYCHAR(EQCOMPARE); case CPP_NOT_EQ: YYCODE(NE_EXPR); YYCHAR(EQCOMPARE); case CPP_GREATER_EQ:YYCODE(GE_EXPR); YYCHAR(ARITHCOMPARE); case CPP_LESS_EQ: YYCODE(LE_EXPR); YYCHAR(ARITHCOMPARE); case CPP_PLUS_EQ: YYCODE(PLUS_EXPR); YYCHAR(ASSIGN); case CPP_MINUS_EQ: YYCODE(MINUS_EXPR); YYCHAR(ASSIGN); case CPP_MULT_EQ: YYCODE(MULT_EXPR); YYCHAR(ASSIGN); case CPP_DIV_EQ: YYCODE(TRUNC_DIV_EXPR); YYCHAR(ASSIGN); case CPP_MOD_EQ: YYCODE(TRUNC_MOD_EXPR); YYCHAR(ASSIGN); case CPP_AND_EQ: YYCODE(BIT_AND_EXPR); YYCHAR(ASSIGN); case CPP_OR_EQ: YYCODE(BIT_IOR_EXPR); YYCHAR(ASSIGN); case CPP_XOR_EQ: YYCODE(BIT_XOR_EXPR); YYCHAR(ASSIGN); case CPP_RSHIFT_EQ: YYCODE(RSHIFT_EXPR); YYCHAR(ASSIGN); case CPP_LSHIFT_EQ: YYCODE(LSHIFT_EXPR); YYCHAR(ASSIGN); case CPP_OPEN_SQUARE: YYCHAR('['); case CPP_CLOSE_SQUARE: YYCHAR(']'); case CPP_OPEN_BRACE: YYCHAR('{'); case CPP_CLOSE_BRACE: YYCHAR('}'); /* APPLE LOCAL AltiVec */ /* APPLE LOCAL Objective-C++ */ case CPP_SEMICOLON: altivec_context = 0; OBJC_NEED_RAW_IDENTIFIER (0); YYCHAR(';'); case CPP_ELLIPSIS: YYCHAR(ELLIPSIS); case CPP_PLUS_PLUS: YYCHAR(PLUSPLUS); case CPP_MINUS_MINUS: YYCHAR(MINUSMINUS); case CPP_DEREF: YYCHAR(POINTSAT); case CPP_DOT: YYCHAR('.'); /* These tokens are C++ specific. */ case CPP_SCOPE: YYCHAR(SCOPE); case CPP_DEREF_STAR: YYCHAR(POINTSAT_STAR); case CPP_DOT_STAR: YYCHAR(DOT_STAR); case CPP_MIN_EQ: YYCODE(MIN_EXPR); YYCHAR(ASSIGN); case CPP_MAX_EQ: YYCODE(MAX_EXPR); YYCHAR(ASSIGN); case CPP_MIN: YYCODE(MIN_EXPR); YYCHAR(MIN_MAX); case CPP_MAX: YYCODE(MAX_EXPR); YYCHAR(MIN_MAX); #undef YYCHAR #undef YYCODE case CPP_EOF: t->yychar = 0; break; case CPP_NAME: t->yychar = read_process_identifier (&t->yylval); break; case CPP_NUMBER: case CPP_CHAR: case CPP_WCHAR: t->yychar = CONSTANT; break; case CPP_STRING: case CPP_WSTRING: yylexstring (t); break; /* APPLE LOCAL begin CW asm blocks */ /* Convert a lexer-returned beginning-of-line token into a parser token. */ case CPP_BOL: return CW_ASM_BOL; case CPP_EOL: return CW_ASM_EOL; /* APPLE LOCAL end CW asm blocks */ /* APPLE LOCAL begin Objective-C++ */ /* This token is Objective-C specific. It gives the next token special significance. */ case CPP_ATSIGN: t->yychar = '@'; if (flag_objc) { enum cpp_ttype after_at = last_token; tree after_at_id = last_token_id; enum rid last_rid; /* APPLE LOCAL jet */ last_token = c_get_token (&last_token_id); last_rid = C_RID_CODE (last_token_id); /* NB: Some of the @... keywords are the same as the "non-@" C++ keywords -- 'class', 'public', 'private', 'protected'. */ if (last_token == CPP_NAME && C_IS_RESERVED_WORD (last_token_id)) { switch (last_rid) { case RID_CLASS: last_rid = RID_AT_CLASS; goto at_keyword_found; case RID_PUBLIC: last_rid = RID_AT_PUBLIC; goto at_keyword_found; case RID_PROTECTED: last_rid = RID_AT_PROTECTED; goto at_keyword_found; case RID_PRIVATE: last_rid = RID_AT_PRIVATE; goto at_keyword_found; /* APPLE LOCAL begin Panther ObjC enhancements */ case RID_THROW: last_rid = RID_AT_THROW; goto at_keyword_found; case RID_TRY: last_rid = RID_AT_TRY; goto at_keyword_found; case RID_CATCH: last_rid = RID_AT_CATCH; goto at_keyword_found; /* APPLE LOCAL end Panther ObjC enhancements */ case RID_AT_INTERFACE: case RID_AT_IMPLEMENTATION: case RID_AT_PROTOCOL: case RID_AT_ALIAS: case RID_AT_ENCODE: case RID_AT_DEFS: case RID_AT_END: case RID_AT_SELECTOR: /* APPLE LOCAL begin Panther ObjC enhancements */ case RID_AT_FINALLY: case RID_AT_SYNCHRONIZED: case RID_AT_THROW: case RID_AT_TRY: case RID_AT_CATCH: /* APPLE LOCAL end Panther ObjC enhancements */ /* The following may actually be found in the lexer stream after being pushed back onto it. */ case RID_AT_CLASS: case RID_AT_PUBLIC: case RID_AT_PROTECTED: case RID_AT_PRIVATE: at_keyword_found: t->yylval.ttype = last_token_id; t->yychar = rid_to_yy [(int) last_rid]; break; default: goto unget_cpp; } } else { unget_cpp: /* APPLE LOCAL jet */ c_backup_tokens (/* parse_in, */ 1); last_token = after_at; last_token_id = after_at_id; } } break; /* APPLE LOCAL end Objective-C++ */ default: yyerror ("parse error"); goto retry; } t->lineno = lineno; return t->yychar; } static void feed_input (input) struct unparsed_text *input; { struct feed *f; #if 0 if (feed) abort (); #endif f = ggc_alloc (sizeof (struct feed)); input->cur_chunk = input->tokens; input->cur_pos = 0; #ifdef SPEW_DEBUG if (spew_debug) fprintf (stderr, "\tfeeding %s:%d [%d tokens]\n", input->locus.file, input->locus.line, input->limit - input->pos); #endif f->input = input; f->locus.file = input_filename; f->locus.line = lineno; f->yychar = yychar; f->yylval = yylval; f->first_token = first_token; f->token_obstack = token_obstack; f->next = feed; input_filename = input->locus.file; lineno = input->locus.line; yychar = YYEMPTY; yylval.ttype = NULL_TREE; first_token = 0; gcc_obstack_init (&token_obstack); feed = f; } void end_input () { struct feed *f = feed; input_filename = f->locus.file; lineno = f->locus.line; yychar = f->yychar; yylval = f->yylval; first_token = f->first_token; obstack_free (&token_obstack, 0); token_obstack = f->token_obstack; feed = f->next; #ifdef SPEW_DEBUG if (spew_debug) fprintf (stderr, "\treturning to %s:%d\n", input_filename, lineno); #endif } /* Token queue management. */ /* Return the number of tokens available on the fifo. */ static SPEW_INLINE int num_tokens () { return (obstack_object_size (&token_obstack) / sizeof (struct token)) - first_token; } /* Fetch the token N down the line from the head of the fifo. */ static SPEW_INLINE struct token* nth_token (n) int n; { #ifdef ENABLE_CHECKING /* could just have this do slurp_ implicitly, but this way is easier to debug... */ my_friendly_assert (n >= 0 && n < num_tokens (), 298); #endif return ((struct token*)obstack_base (&token_obstack)) + n + first_token; } static const struct token Teosi = { END_OF_SAVED_INPUT, 0 UNION_INIT_ZERO }; static const struct token Tpad = { EMPTY, 0 UNION_INIT_ZERO }; /* Copy the next token into T and return its value. */ static SPEW_INLINE int next_token (t) struct token *t; { if (!feed) return read_token (t); if (feed->input->cur_chunk != feed->input->last_chunk || feed->input->cur_pos != feed->input->last_pos) { if (feed->input->cur_pos == TOKEN_CHUNK_SIZE) { feed->input->cur_chunk = feed->input->cur_chunk->next; feed->input->cur_pos = 0; } memcpy (t, feed->input->cur_chunk->toks + feed->input->cur_pos, sizeof (struct token)); feed->input->cur_pos++; return t->yychar; } return 0; } /* Shift the next token onto the fifo. */ static SPEW_INLINE int shift_token () { size_t point = obstack_object_size (&token_obstack); obstack_blank (&token_obstack, sizeof (struct token)); return next_token ((struct token *) (obstack_base (&token_obstack) + point)); } /* Consume the next token out of the fifo. */ static SPEW_INLINE void consume_token () { if (num_tokens () == 1) { obstack_free (&token_obstack, obstack_base (&token_obstack)); first_token = 0; } else first_token++; } /* Push a token at the head of the queue; it will be the next token read. */ static SPEW_INLINE void push_token (t) struct token *t; { if (first_token == 0) /* We hope this doesn't happen often. */ { size_t active = obstack_object_size (&token_obstack); obstack_blank (&token_obstack, sizeof (struct token)); if (active) memmove (obstack_base (&token_obstack) + sizeof (struct token), obstack_base (&token_obstack), active); first_token++; } first_token--; memcpy (nth_token (0), t, sizeof (struct token)); } /* Pull in enough tokens that the queue is N long beyond the current token. */ static void scan_tokens (n) int n; { int i; int num = num_tokens (); int yychar; /* First, prune any empty tokens at the end. */ i = num; while (i > 0 && nth_token (i - 1)->yychar == EMPTY) i--; if (i < num) { obstack_blank (&token_obstack, -((num - i) * sizeof (struct token))); num = i; } /* Now, if we already have enough tokens, return. */ if (num > n) return; /* Never read past these characters: they might separate the current input stream from one we save away later. */ for (i = 0; i < num; i++) { yychar = nth_token (i)->yychar; if (yychar == '{' || yychar == ':' || yychar == ';') goto pad_tokens; } while (num_tokens () <= n) { yychar = shift_token (); if (yychar == '{' || yychar == ':' || yychar == ';') goto pad_tokens; } return; pad_tokens: while (num_tokens () <= n) obstack_grow (&token_obstack, &Tpad, sizeof (struct token)); } int looking_for_typename; int looking_for_template; static int after_friend; static int after_new; static int do_snarf_defarg; tree got_scope; tree got_object; static SPEW_INLINE int identifier_type (decl) tree decl; { tree t; if (TREE_CODE (decl) == TEMPLATE_DECL) { if (TREE_CODE (DECL_TEMPLATE_RESULT (decl)) == TYPE_DECL) return PTYPENAME; else if (looking_for_template) return PFUNCNAME; } if (looking_for_template && really_overloaded_fn (decl)) { /* See through a baselink. */ if (TREE_CODE (decl) == BASELINK) decl = BASELINK_FUNCTIONS (decl); for (t = decl; t != NULL_TREE; t = OVL_CHAIN (t)) if (DECL_FUNCTION_TEMPLATE_P (OVL_FUNCTION (t))) return PFUNCNAME; } if (TREE_CODE (decl) == NAMESPACE_DECL) return NSNAME; if (TREE_CODE (decl) != TYPE_DECL) return IDENTIFIER; if (DECL_ARTIFICIAL (decl) && TREE_TYPE (decl) == current_class_type) return SELFNAME; /* A constructor declarator for a template type will get here as an implicit typename, a TYPENAME_TYPE with a type. */ t = got_scope; if (t && TREE_CODE (t) == TYPENAME_TYPE) t = TREE_TYPE (t); decl = TREE_TYPE (decl); if (TREE_CODE (decl) == TYPENAME_TYPE) decl = TREE_TYPE (decl); if (t && t == decl) return SELFNAME; return tTYPENAME; } /* token[0] == AGGR (struct/union/enum) Thus, token[1] is either a tTYPENAME or a TYPENAME_DEFN. If token[2] == '{' or ':' then it's TYPENAME_DEFN. It's also a definition if it's a forward declaration (as in 'struct Foo;') which we can tell if token[2] == ';' *and* token[-1] != FRIEND or NEW. */ static SPEW_INLINE void do_aggr () { int yc1, yc2; scan_tokens (2); yc1 = nth_token (1)->yychar; if (yc1 != tTYPENAME && yc1 != IDENTIFIER && yc1 != PTYPENAME) return; yc2 = nth_token (2)->yychar; if (yc2 == ';') { /* It's a forward declaration iff we were not preceded by 'friend' or `new'. */ if (after_friend || after_new) return; } else if (yc2 != '{' && yc2 != ':') return; switch (yc1) { case tTYPENAME: nth_token (1)->yychar = TYPENAME_DEFN; break; case PTYPENAME: nth_token (1)->yychar = PTYPENAME_DEFN; break; case IDENTIFIER: nth_token (1)->yychar = IDENTIFIER_DEFN; break; default: abort (); } } void see_typename () { /* Only types expected, not even namespaces. */ looking_for_typename = 2; if (yychar < 0) if ((yychar = yylex ()) < 0) yychar = 0; looking_for_typename = 0; if (yychar == IDENTIFIER) { lastiddecl = lookup_name (yylval.ttype, -2); if (lastiddecl) yychar = identifier_type (lastiddecl); } } int yylex () { int yychr; int old_looking_for_typename = 0; int just_saw_new = 0; int just_saw_friend = 0; timevar_push (TV_LEX); retry: #ifdef SPEW_DEBUG if (spew_debug) { yylex_ctr ++; fprintf (stderr, "\t\t## %d @%d ", yylex_ctr, lineno); } #endif if (do_snarf_defarg) { do_snarf_defarg = 0; yylval.ttype = snarf_defarg (); yychar = DEFARG; got_object = NULL_TREE; timevar_pop (TV_LEX); return DEFARG; } /* if we've got tokens, send them */ else if (num_tokens ()) yychr = nth_token (0)->yychar; else yychr = shift_token (); /* many tokens just need to be returned. At first glance, all we have to do is send them back up, but some of them are needed to figure out local context. */ switch (yychr) { case EMPTY: /* This is a lexical no-op. */ #ifdef SPEW_DEBUG if (spew_debug) debug_yychar (yychr); #endif consume_token (); goto retry; case '(': scan_tokens (1); if (nth_token (1)->yychar == ')') { consume_token (); yychr = LEFT_RIGHT; } break; case IDENTIFIER: { int peek; /* APPLE LOCAL begin CW asm blocks */ /* If we're doing asm, lookahead is unnecessary and confuses things, so don't do it. */ if (cw_asm_block) break; /* APPLE LOCAL end CW asm blocks */ scan_tokens (1); peek = nth_token (1)->yychar; yychr = frob_id (yychr, peek, &nth_token (0)->yylval.ttype); /* APPLE LOCAL Objective-C++ */ /* Allow evil ObjC constructs like 'Class class;' -- but warn the user sternly. */ if (flag_objc && peek == AGGR && nth_token (1)->yylval.ttype == ridpointers[RID_CLASS]) { /* Suppress the warning for now. warning ("`class' is a reserved keyword in Objective-C++; " "this will be a hard error in the future"); */ nth_token (1)->yychar = IDENTIFIER; nth_token (1)->yylval.ttype = get_identifier ("class"); } /* APPLE LOCAL end Objective-C++ */ break; } case IDENTIFIER_DEFN: case tTYPENAME: case TYPENAME_DEFN: case PTYPENAME: case PTYPENAME_DEFN: /* If we see a SCOPE next, restore the old value. Otherwise, we got what we want. */ looking_for_typename = old_looking_for_typename; looking_for_template = 0; break; case SCSPEC: if (nth_token (0)->yylval.ttype == ridpointers[RID_EXTERN]) { scan_tokens (1); if (nth_token (1)->yychar == STRING) { yychr = EXTERN_LANG_STRING; nth_token (1)->yylval.ttype = get_identifier (TREE_STRING_POINTER (nth_token (1)->yylval.ttype)); consume_token (); } } /* do_aggr needs to know if the previous token was `friend'. */ else if (nth_token (0)->yylval.ttype == ridpointers[RID_FRIEND]) just_saw_friend = 1; break; case NEW: /* do_aggr needs to know if the previous token was `new'. */ just_saw_new = 1; break; /* APPLE LOCAL begin Objective-C++ */ case ';': OBJC_NEED_RAW_IDENTIFIER (0); looking_for_typename = 0; break; case TYPESPEC: OBJC_NEED_RAW_IDENTIFIER (1); /* fall through */ case ':': /* APPLE LOCAL end Objective-C++ */ case '{': /* If this provides a type for us, then revert lexical state to standard state. */ looking_for_typename = 0; break; case AGGR: do_aggr (); break; case ENUM: /* Set this again, in case we are rescanning. */ looking_for_typename = 2; break; /* APPLE LOCAL begin CW asm blocks */ case ASM_KEYWORD: /* If CW-style asm is allowed, then "asm" can appear in a top-level context where it might either be a storage-class-like use designating an asm function, or a global asm statement. This code sniffs ahead by a couple tokens to see which it is (the asm statement must have a '(' plus optional const|volatile). */ if (flag_cw_asm_blocks) { struct token *tokx, *toky; scan_tokens (1); tokx = nth_token (1); if (tokx->yychar == '(' || tokx->yychar == '{') /* do nothing */ ; else if ((tokx->yylval.ttype == ridpointers[RID_CONST]) || (tokx->yylval.ttype == ridpointers[RID_VOLATILE])) { scan_tokens (2); toky = nth_token (2); if (toky->yychar == '(') /* do nothing */ ; else yychr = SCSPEC; } else /* OK, must be in a function declaration. */ yychr = SCSPEC; } break; /* APPLE LOCAL end CW asm blocks */ default: break; } after_friend = just_saw_friend; after_new = just_saw_new; /* class member lookup only applies to the first token after the object expression, except for explicit destructor calls. */ if (yychr != '~') got_object = NULL_TREE; yychar = yychr; { struct token *tok = nth_token (0); yylval = tok->yylval; if (tok->lineno) lineno = tok->lineno; } #ifdef SPEW_DEBUG if (spew_debug) debug_yychar (yychr); #endif consume_token (); timevar_pop (TV_LEX); return yychr; } /* Unget character CH from the input stream. If RESCAN is nonzero, then we want to `see' this character as the next input token. */ void yyungetc (ch, rescan) int ch; int rescan; { /* Unget a character from the input stream. */ if (yychar == YYEMPTY || rescan == 0) { struct token fake; fake.yychar = ch; fake.yylval.ttype = 0; fake.lineno = lineno; push_token (&fake); } else { yychar = ch; } } /* Lexer hackery to determine what *IDP really is. */ static int frob_id (yyc, peek, idp) int yyc; int peek; tree *idp; { tree trrr; int old_looking_for_typename = 0; if (peek == SCOPE) { /* Don't interfere with the setting from an 'aggr' prefix. */ old_looking_for_typename = looking_for_typename; looking_for_typename = 1; } else if (peek == '<') looking_for_template = 1; trrr = lookup_name (*idp, -2); if (trrr) { yyc = identifier_type (trrr); switch(yyc) { case tTYPENAME: /* APPLE LOCAL begin Objective-C++ */ /* For the most part, we allow the parser to view ObjC classes as C++ types, so that they may get used in all the C++-ish contexts. But, when we see a '<', we keep the ObjC-ness, lest the compiler start looking for template arguments (instead of protocols). */ if (flag_objc && peek == '<') { tree objc_interface_decl = is_class_name (*idp); if (objc_interface_decl) { trrr = objc_interface_decl; yyc = CLASSNAME; } } /* FALL THROUGH... */ /* APPLE LOCAL end Objective-C++ */ case SELFNAME: case NSNAME: case PTYPENAME: /* If this got special lookup, remember it. In these cases, we know it can't be a declarator-id. */ if (got_scope || got_object) *idp = trrr; /* FALLTHROUGH */ case PFUNCNAME: case IDENTIFIER: lastiddecl = trrr; break; default: abort (); } } /* APPLE LOCAL begin Objective-C++ */ else if (flag_objc) { tree objc_interface_decl = is_class_name (*idp); if (objc_interface_decl && !objc_need_raw_identifier) { *idp = objc_interface_decl; yyc = CLASSNAME; } lastiddecl = objc_interface_decl; } /* APPLE LOCAL end Objective-C++ */ else lastiddecl = NULL_TREE; got_scope = NULL_TREE; looking_for_typename = old_looking_for_typename; looking_for_template = 0; return yyc; } /* ID is an operator name. Duplicate the hackery in yylex to determine what it really is. */ tree frob_opname (id) tree id; { scan_tokens (0); frob_id (0, nth_token (0)->yychar, &id); got_object = NULL_TREE; return id; } /* Set up the state required to correctly handle the definition of the inline function whose preparsed state has been saved in PI. */ static void begin_parsing_inclass_inline (pi) struct unparsed_text *pi; { tree context; /* Record that we are processing the chain of inlines starting at PI for GC. */ if (cfun) cp_function_chain->unparsed_inlines = pi; else processing_these_inlines = pi; ggc_collect (); /* If this is an inline function in a local class, we must make sure that we save all pertinent information about the function surrounding the local class. */ context = decl_function_context (pi->decl); if (context) push_function_context_to (context); feed_input (pi); interface_unknown = pi->interface == 1; interface_only = pi->interface == 0; DECL_PENDING_INLINE_P (pi->decl) = 0; DECL_PENDING_INLINE_INFO (pi->decl) = 0; /* Pass back a handle to the rest of the inline functions, so that they can be processed later. */ yychar = PRE_PARSED_FUNCTION_DECL; yylval.pi = pi; start_function (NULL_TREE, pi->decl, NULL_TREE, (SF_DEFAULT | SF_PRE_PARSED | SF_INCLASS_INLINE)); } /* Called from the top level: if there are any pending inlines to do, set up to process them now. This function sets up the first function to be parsed; after it has been, the rule for fndef in parse.y will call process_next_inline to start working on the next one. */ void do_pending_inlines () { /* Oops, we're still dealing with the last batch. */ if (yychar == PRE_PARSED_FUNCTION_DECL) return; if (pending_inlines) { /* Clear the chain, so that any inlines nested inside the batch we're to process now don't refer to this batch. See e.g. g++.other/lookup6.C. */ struct unparsed_text *first = pending_inlines; pending_inlines = pending_inlines_tail = 0; begin_parsing_inclass_inline (first); } } /* Called from the fndecl rule in the parser when the function just parsed was declared using a PRE_PARSED_FUNCTION_DECL (i.e. came from do_pending_inlines). */ void process_next_inline (i) struct unparsed_text *i; { tree decl = i->decl; tree context = decl_function_context (decl); if (context) pop_function_context_from (context); if (yychar == YYEMPTY) yychar = yylex (); if (yychar != END_OF_SAVED_INPUT) error ("parse error at end of saved function text"); end_input (); i = i->next; if (i) begin_parsing_inclass_inline (i); else { if (cfun) cp_function_chain->unparsed_inlines = 0; else processing_these_inlines = 0; extract_interface_info (); } } /* Create a new token at the end of the token list in T. */ static SPEW_INLINE struct token * space_for_token (t) struct unparsed_text *t; { if (t->last_pos != TOKEN_CHUNK_SIZE) return t->last_chunk->toks + (t->last_pos++); t->last_chunk->next = ggc_alloc_cleared (sizeof (*t->last_chunk->next)); t->last_chunk = t->last_chunk->next; t->last_chunk->next = NULL; t->last_pos = 1; return t->last_chunk->toks; } /* Shrink the token list in T by one token. */ static SPEW_INLINE struct token * remove_last_token (t) struct unparsed_text *t; { struct token *result = t->last_chunk->toks + t->last_pos - 1; if (t->last_pos == 0) abort (); t->last_pos--; if (t->last_pos == 0 && t->last_chunk != t->tokens) { struct token_chunk *c; c = t->tokens; while (c->next != t->last_chunk) c = c->next; c->next = NULL; t->last_chunk = c; t->last_pos = ARRAY_SIZE (c->toks); } return result; } /* Allocate an 'unparsed_text' structure, ready to use space_for_token. */ static struct unparsed_text * alloc_unparsed_text (locus, decl, interface) const location_t *locus; tree decl; int interface; { struct unparsed_text *r; r = ggc_alloc_cleared (sizeof (*r)); r->decl = decl; r->locus = *locus; r->interface = interface; r->tokens = r->last_chunk = ggc_alloc_cleared (sizeof (*r->tokens)); return r; } /* Accumulate the tokens that make up a parenthesized expression in T, having already read the opening parenthesis. */ static void snarf_parenthesized_expression (struct unparsed_text *t) { int yyc; int level = 1; while (1) { yyc = next_token (space_for_token (t)); if (yyc == '(') ++level; else if (yyc == ')' && --level == 0) break; else if (yyc == 0) { error ("%Hend of file read inside definition", &t->locus); break; } } } /* Subroutine of snarf_method, deals with actual absorption of the block. */ static void snarf_block (t) struct unparsed_text *t; { int blev = 1; int look_for_semicolon = 0; int look_for_lbrac = 0; int look_for_catch = 0; int yyc; struct token *current; if (yychar == '{') ; else if (yychar == '=') look_for_semicolon = 1; else if (yychar == ':' || yychar == RETURN_KEYWORD || yychar == TRY) { if (yychar == TRY) look_for_catch = 1; look_for_lbrac = 1; blev = 0; } else yyerror ("parse error in method specification"); /* The current token is the first one to be recorded. */ current = space_for_token (t); current->yychar = yychar; current->yylval = yylval; current->lineno = lineno; for (;;) { yyc = next_token (space_for_token (t)); if (yyc == '{') { look_for_lbrac = 0; blev++; } else if (yyc == '}') { blev--; if (blev == 0 && !look_for_semicolon) { if (!look_for_catch) break; if (next_token (space_for_token (t)) != CATCH) { push_token (remove_last_token (t)); break; } look_for_lbrac = 1; } } else if (yyc == ';') { if (look_for_lbrac) { struct token *fake; error ("function body for constructor missing"); /* fake a { } to avoid further errors */ fake = space_for_token (t); fake->yylval.ttype = 0; fake->yychar = '{'; fake = space_for_token (t); fake->yylval.ttype = 0; fake->yychar = '}'; break; } else if (look_for_semicolon && blev == 0) break; } else if (yyc == '(' && blev == 0) snarf_parenthesized_expression (t); else if (yyc == 0) { error ("%Hend of file read inside definition", &t->locus); break; } } } /* This function stores away the text for an inline function that should be processed later (by do_pending_inlines). */ void snarf_method (decl) tree decl; { struct unparsed_text *meth; location_t starting; starting.file = input_filename; starting.line = lineno; meth = alloc_unparsed_text (&starting, decl, (interface_unknown ? 1 : (interface_only ? 0 : 2))); snarf_block (meth); /* Add three END_OF_SAVED_INPUT tokens. We used to provide an infinite stream of END_OF_SAVED_INPUT tokens -- but that can cause the compiler to get stuck in an infinite loop when encountering invalid code. We need more than one because the parser sometimes peeks ahead several tokens. */ memcpy (space_for_token (meth), &Teosi, sizeof (struct token)); memcpy (space_for_token (meth), &Teosi, sizeof (struct token)); memcpy (space_for_token (meth), &Teosi, sizeof (struct token)); /* Happens when we get two declarations of the same function in the same scope. */ if (decl == void_type_node || (current_class_type && TYPE_REDEFINED (current_class_type))) return; #ifdef SPEW_DEBUG if (spew_debug) fprintf (stderr, "\tsaved method of %d tokens from %s:%d\n", meth->limit, starting.file, starting.line); #endif DECL_PENDING_INLINE_INFO (decl) = meth; DECL_PENDING_INLINE_P (decl) = 1; if (pending_inlines_tail) pending_inlines_tail->next = meth; else pending_inlines = meth; pending_inlines_tail = meth; } /* Consume a no-commas expression - a default argument - and return a DEFAULT_ARG tree node. */ static tree snarf_defarg () { int yyc; int plev = 0; struct unparsed_text *buf; tree arg; location_t starting; starting.file = input_filename; starting.line = lineno; buf = alloc_unparsed_text (&starting, 0, 0); for (;;) { yyc = next_token (space_for_token (buf)); if (plev <= 0 && (yyc == ')' || yyc == ',')) break; else if (yyc == '(' || yyc == '[') ++plev; else if (yyc == ']' || yyc == ')') --plev; else if (yyc == 0) { error ("%Hend of file read inside default argument", &starting); goto done; } } /* Unget the last token. */ push_token (remove_last_token (buf)); /* Add three END_OF_SAVED_INPUT tokens. We used to provide an infinite stream of END_OF_SAVED_INPUT tokens -- but that can cause the compiler to get stuck in an infinite loop when encountering invalid code. We need more than one because the parser sometimes peeks ahead several tokens. */ memcpy (space_for_token (buf), &Teosi, sizeof (struct token)); memcpy (space_for_token (buf), &Teosi, sizeof (struct token)); memcpy (space_for_token (buf), &Teosi, sizeof (struct token)); done: #ifdef SPEW_DEBUG if (spew_debug) fprintf (stderr, "\tsaved defarg of %d tokens from %s:%d\n", buf->limit, starting.file, starting.line); #endif arg = make_node (DEFAULT_ARG); DEFARG_POINTER (arg) = (char *)buf; return arg; } /* Decide whether the default argument we are about to see should be gobbled up as text for later parsing. */ void maybe_snarf_defarg () { if (current_class_type && TYPE_BEING_DEFINED (current_class_type)) do_snarf_defarg = 1; } /* Called from grokfndecl to note a function decl with unparsed default arguments for later processing. Also called from grokdeclarator for function types with unparsed defargs; the call from grokfndecl will always come second, so we can overwrite the entry from the type. */ void add_defarg_fn (decl) tree decl; { if (TREE_CODE (decl) == FUNCTION_DECL) TREE_VALUE (defarg_fns) = decl; else { defarg_fns = tree_cons (NULL_TREE, decl, defarg_fns); TREE_TYPE (defarg_fns) = current_class_type; } } /* Helper for do_pending_defargs. Starts the parsing of a default arg. */ static void feed_defarg (p) tree p; { tree d = TREE_PURPOSE (p); feed_input ((struct unparsed_text *)DEFARG_POINTER (d)); yychar = DEFARG_MARKER; yylval.ttype = p; } /* Helper for do_pending_defargs. Ends the parsing of a default arg. */ static void finish_defarg () { if (yychar == YYEMPTY) yychar = yylex (); if (yychar != END_OF_SAVED_INPUT) error ("parse error at end of saved function text"); end_input (); } /* Main function for deferred parsing of default arguments. Called from the parser. */ void do_pending_defargs () { if (defarg_parm) finish_defarg (); for (; defarg_fns;) { tree current = defarg_fns; tree defarg_fn = TREE_VALUE (defarg_fns); if (defarg_parm == NULL_TREE) { push_nested_class (TREE_TYPE (defarg_fns), 1); pushlevel (0); if (TREE_CODE (defarg_fn) == FUNCTION_DECL) maybe_begin_member_template_processing (defarg_fn); if (TREE_CODE (defarg_fn) == FUNCTION_DECL) defarg_parm = TYPE_ARG_TYPES (TREE_TYPE (defarg_fn)); else defarg_parm = TYPE_ARG_TYPES (defarg_fn); } else defarg_parm = TREE_CHAIN (defarg_parm); for (; defarg_parm; defarg_parm = TREE_CHAIN (defarg_parm)) if (!TREE_PURPOSE (defarg_parm) || TREE_CODE (TREE_PURPOSE (defarg_parm)) != DEFAULT_ARG) ;/* OK */ else if (TREE_PURPOSE (current) == error_mark_node) DEFARG_POINTER (TREE_PURPOSE (defarg_parm)) = NULL; else { feed_defarg (defarg_parm); /* Return to the parser, which will process this defarg and call us again. */ return; } if (TREE_CODE (defarg_fn) == FUNCTION_DECL) { maybe_end_member_template_processing (); check_default_args (defarg_fn); } poplevel (0, 0, 0); pop_nested_class (); defarg_fns = TREE_CHAIN (defarg_fns); if (defarg_depfns) { /* This function's default args depend on unprocessed default args of defarg_fns. We will need to reprocess this function, and check for circular dependencies. */ tree a, b; for (a = defarg_depfns, b = TREE_PURPOSE (current); a && b; a = TREE_CHAIN (a), b = TREE_CHAIN (b)) if (TREE_VALUE (a) != TREE_VALUE (b)) goto different; if (a || b) { different:; TREE_CHAIN (current) = NULL_TREE; defarg_fns = chainon (defarg_fns, current); TREE_PURPOSE (current) = defarg_depfns; } else { cp_warning_at ("circular dependency in default args of `%#D'", defarg_fn); /* No need to say what else is dependent, as they will be picked up in another pass. */ /* Immediately repeat, but marked so that we break the loop. */ defarg_fns = current; TREE_PURPOSE (current) = error_mark_node; } defarg_depfns = NULL_TREE; } else if (TREE_PURPOSE (current) == error_mark_node) defarg_fnsdone = tree_cons (NULL_TREE, defarg_fn, defarg_fnsdone); } } /* After parsing all the default arguments, we must clear any that remain, which will be part of a circular dependency. */ void done_pending_defargs () { for (; defarg_fnsdone; defarg_fnsdone = TREE_CHAIN (defarg_fnsdone)) { tree fn = TREE_VALUE (defarg_fnsdone); tree parms; if (TREE_CODE (fn) == FUNCTION_DECL) parms = TYPE_ARG_TYPES (TREE_TYPE (fn)); else parms = TYPE_ARG_TYPES (fn); for (; parms; parms = TREE_CHAIN (parms)) if (TREE_PURPOSE (parms) && TREE_CODE (TREE_PURPOSE (parms)) == DEFAULT_ARG) { my_friendly_assert (!DEFARG_POINTER (TREE_PURPOSE (parms)), 20010107); TREE_PURPOSE (parms) = NULL_TREE; } } } /* In processing the current default arg, we called FN, but that call required a default argument of FN, and that had not yet been processed. Remember FN. */ void unprocessed_defarg_fn (fn) tree fn; { defarg_depfns = tree_cons (NULL_TREE, fn, defarg_depfns); } /* Called from the parser to update an element of TYPE_ARG_TYPES for some FUNCTION_TYPE with the newly parsed version of its default argument, which was previously digested as text. */ void replace_defarg (arg, init) tree arg, init; { if (init == error_mark_node) TREE_PURPOSE (arg) = error_mark_node; else { if (! processing_template_decl && ! can_convert_arg (TREE_VALUE (arg), TREE_TYPE (init), init)) pedwarn ("invalid type `%T' for default argument to `%T'", TREE_TYPE (init), TREE_VALUE (arg)); if (!defarg_depfns) TREE_PURPOSE (arg) = init; } } #ifdef SPEW_DEBUG /* debug_yychar takes a yychar (token number) value and prints its name. */ static void debug_yychar (yy) int yy; { if (yy<256) fprintf (stderr, "->%d < %c >\n", lineno, yy); else if (yy == IDENTIFIER || yy == tTYPENAME) { const char *id; if (TREE_CODE (yylval.ttype) == IDENTIFIER_NODE) id = IDENTIFIER_POINTER (yylval.ttype); else if (TREE_CODE_CLASS (TREE_CODE (yylval.ttype)) == 'd') id = IDENTIFIER_POINTER (DECL_NAME (yylval.ttype)); else id = ""; fprintf (stderr, "->%d <%s `%s'>\n", lineno, debug_yytranslate (yy), id); } else fprintf (stderr, "->%d <%s>\n", lineno, debug_yytranslate (yy)); } #endif #define NAME(TYPE) cpp_type2name (TYPE) void yyerror (msgid) const char *msgid; { const char *string = _(msgid); if (last_token == CPP_EOF) error ("%s at end of input", string); else if (last_token == CPP_CHAR || last_token == CPP_WCHAR) { unsigned int val = TREE_INT_CST_LOW (yylval.ttype); const char *const ell = (last_token == CPP_CHAR) ? "" : "L"; if (val <= UCHAR_MAX && ISGRAPH (val)) error ("%s before %s'%c'", string, ell, val); else error ("%s before %s'\\x%x'", string, ell, val); } else if (last_token == CPP_STRING || last_token == CPP_WSTRING) error ("%s before string constant", string); else if (last_token == CPP_NUMBER) error ("%s before numeric constant", string); else if (last_token == CPP_NAME) { /* APPLE LOCAL Objective-C++ */ if (last_token_id && TREE_CODE (last_token_id) == IDENTIFIER_NODE) error ("%s before `%s'", string, IDENTIFIER_POINTER (last_token_id)); else if (ISGRAPH (yychar)) error ("%s before `%c'", string, yychar); else error ("%s before `\%o'", string, yychar); } else error ("%s before `%s' token", string, NAME (last_token)); } #include "gt-cp-spew.h"