ref: 6948a02f5fe8c3fea01ec49f314e68b6557e39e6
dir: /decl.c/
#include <assert.h> #include <stddef.h> #include <string.h> #include "sizes.h" #include "cc.h" #include "tokens.h" #include "syntax.h" #include "symbol.h" char parser_out_home; static struct symbol *cursym; static void declarator(struct ctype *tp); static void newiden(struct ctype *tp) { register unsigned char yyns, ns; ns = tp->c_typedef ? NS_TYPEDEF : NS_IDEN; yyns = yyval.sym->ns; if (yyns == NS_ANY) { /* First appearence of the symbol */ yyval.sym->ns = ns; cursym = yyval.sym; return; } else if (ns == yyns) { /* Duplicated symbol */ if (yyval.sym->ctx == curctx) error("redeclaration of '%s'", yytext); } cursym = lookup(yytext, ns); } static void dirdcl(register struct ctype *tp) { if (accept('(')) { declarator(tp); expect(')'); } else if (yytoken == IDEN) { newiden(tp); next(); } else { error("expected '(' or identifier before of '%s'", yytext); } for (;;) { if (accept('(')) { next(); pushtype(FTN); if (accept(')')) ; /* TODO: k&r function */ else /* TODO: prototyped function */; continue; } else if (accept('[')) { unsigned len; if (accept(']')) { len = 0; } else { expect(CONSTANT); len = yyval.sym->val; expect(']'); } pushtype(len); pushtype(ARY); continue; } else { return; } } } struct ctype * spec(void) { register struct ctype *tp = NULL; for (;; next()) { switch (yytoken) { case TYPEDEF: case EXTERN: case STATIC: case AUTO: case REGISTER: case CONST: case VOLATILE: tp = storage(tp, yytoken); break; case UNSIGNED: case SIGNED: case FLOAT: case DOUBLE: case BOOL: case VOID: case CHAR: case SHORT: case INT: case ENUM: case LONG: case STRUCT: case UNION: tp = btype(tp, yytoken); break; /* TODO: ENUM, STRUCT, UNION */ case IDEN: if (!tp || !tp->type) { struct symbol *sym; unsigned char tok = ahead(); sym = (yyval.sym->ns == NS_TYPEDEF) ? yyval.sym : find(yytext, NS_TYPEDEF); if (sym && tok != ';' && tok != ',') { if (!tp) tp = newctype(); tp->type = TYPEDEF; (tp->base = sym->ctype)->refcnt++; break; } } /* it is not a type name */ default: if (!tp || tp->type) return tp; warning_error(options.implicit, "type defaults to 'int' in declaration"); tp->type = INT; return tp; } } } static void declarator(struct ctype *tp) { unsigned char qlf[NR_DECLARATORS]; register unsigned char *bp, *lim; lim = &qlf[NR_DECLARATORS]; for (bp = qlf; yytoken == '*' && bp != lim; ) { next(); *bp++ = PTR; while (bp != lim) { switch (yytoken) { case CONST: case VOLATILE: case RESTRICT: *bp++ = yytoken; next(); break; default: goto continue_outer; } } continue_outer: ; } if (bp == lim) error("Too much type declarators"); dirdcl(tp); for (lim = bp - 1, bp = qlf; bp < lim; ++bp) pushtype(*bp); } static struct node * initializer(register struct ctype *tp) { register struct node *np; if (accept('{')) { np = nodecomp(); addstmt(np, initializer(tp)); while (accept(',')) { if (accept('}')) return np; addstmt(np, initializer(tp)); } expect('}'); } else { np = expr(); } return np; } static struct node * listdcl(struct ctype *base) { struct node *lp = nodecomp(); do { struct node *sp, *np; register struct ctype *tp; declarator(base); tp = decl_type(base); (cursym->ctype = tp)->refcnt++; sp = nodesym(cursym); if (tp->type == FTN && yytoken == '{') { np = node2(ODEF, sp, function(cursym)); return addstmt(lp, np); } np = node2(ODEF, sp, accept('=') ? initializer(tp) : NULL); lp = addstmt(lp, np); } while (accept(',')); expect(';'); return lp; } struct node * decl(void) { register struct ctype *tp; register struct node *np = NULL; while (accept(';')) /* nothing */; if (!(tp = spec())) { if (curctx != CTX_OUTER || yytoken != IDEN) goto end; tp = newctype(); tp->type = INT; warning_error(options.implicit, "data definition has no type or storage class"); } if (accept(';')) { warning_error(options.useless, "useless type name in empty declaration"); delctype(tp); } else { np = listdcl(tp); } end: return np; } void type_name() { }