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()
{
}