#include "cdecl-internal.h"
#include "parse.h"
#include "scan.h"
+#include "errmsg.h"
/*
* We can represent type specifiers as a bitmap, which gives us a finite
if (map & bit) {
if (bit == 1ul << MAP_LLONG_BIT)
- cdecl__err(CDECL_EBADTYPE, _("too many long specifiers"));
+ cdecl__errmsg(CDECL__ETOOLONG);
else
- cdecl__err(CDECL_EBADTYPE, _("duplicate type specifier"));
+ cdecl__errmsg(CDECL__EDUPTYPE);
return false;
}
map |= bit;
return true;
if (map == 0)
- cdecl__err(CDECL_EBADTYPE, _("no type specified"));
+ cdecl__errmsg(CDECL__ENOTYPE);
else
- cdecl__err(CDECL_EBADTYPE, _("invalid type specified"));
+ cdecl__errmsg(CDECL__EBADTYPE);
return false;
}
if (c->type == CDECL_TYPE_VOID &&
(d->type == CDECL_DECL_IDENT
|| d->type == CDECL_DECL_ARRAY)) {
- cdecl__err(CDECL_EBADTYPE, _("invalid declaration of type void"));
+ cdecl__errmsg(CDECL__EBADVOID);
return false;
}
continue;
case CDECL_SPEC_STOR:
if (top && abstract) {
- cdecl__err(CDECL_EBADSTOR, _("type names cannot have storage-class specifiers"));
+ cdecl__errmsg(CDECL__ETYPESTOR);
return false;
}
if (!top && c->type != CDECL_STOR_REGISTER) {
- cdecl__err(CDECL_EBADSTOR, _("function parameters may only have register storage"));
+ cdecl__errmsg(CDECL__EFUNCSTOR);
return false;
}
if (++num_storage > 1) {
- cdecl__err(CDECL_EBADSTOR, _("too many storage-class specifiers"));
+ cdecl__errmsg(CDECL__EMANYSTOR);
return false;
}
break;
* pointer qualifier list, which isn't checked here.
*/
if (c->type == CDECL_QUAL_RESTRICT) {
- cdecl__err(CDECL_EBADQUAL, _("only pointer types can be restrict-qualified"));
+ cdecl__errmsg(CDECL__EBADQUAL);
return false;
}
break;
case CDECL_SPEC_FUNC:
- if (abstract) {
- cdecl__err(CDECL_ENOTFUNC, _("type names cannot have function specifiers"));
+ if (abstract || !top || d->type != CDECL_DECL_FUNCTION) {
+ cdecl__errmsg(CDECL__ENOTFUNC);
return false;
}
- if (!top || d->type != CDECL_DECL_FUNCTION) {
- cdecl__err(CDECL_ENOTFUNC, _("only function declarations can have function specifiers"));
- return false;
- }
break;
default:
assert(0);
}
if (d->child->type != CDECL_DECL_NULL) {
- cdecl__err(CDECL_EBADPARAMS, _("invalid function parameter"));
+ cdecl__errmsg(CDECL__EBADPARAM);
return -1;
}
if (decl->type == CDECL_DECL_FUNCTION
&& decl->child->type == CDECL_DECL_NULL
&& !function_is_reducible(decl)) {
- cdecl__err(CDECL_EBADPARAMS, _("too many parentheses in function"));
+ cdecl__errmsg(CDECL__EMANYPAREN);
return -1;
}
continue;
if (spec != param->specifiers || spec->next != NULL) {
- cdecl__err(CDECL_EVOIDPARAM, _("void parameter cannot have extra specifiers"));
+ cdecl__errmsg(CDECL__EVOIDPARAM);
return -1;
} else if (d->u.function.parameters->next) {
- cdecl__err(CDECL_EVOIDPARAM, _("void parameter must stand alone"));
+ cdecl__errmsg(CDECL__EVOIDPARAM);
return -1;
} else if (d->u.function.variadic) {
- cdecl__err(CDECL_EVOIDPARAM, _("variadic function cannot have void parameter"));
+ cdecl__errmsg(CDECL__EVOIDPARAM);
return -1;
}
}
switch (d->type) {
case CDECL_DECL_FUNCTION:
- cdecl__err(CDECL_EBADRETURN, _("functions cannot return functions"));
+ cdecl__errmsg(CDECL__ERETFUNC);
return -1;
case CDECL_DECL_ARRAY:
- cdecl__err(CDECL_EBADRETURN, _("functions cannot return arrays"));
+ cdecl__errmsg(CDECL__ERETARRAY);
return -1;
}
switch (d->type) {
case CDECL_DECL_FUNCTION:
- cdecl__err(CDECL_EBADARRAY, _("array members cannot be functions"));
+ cdecl__errmsg(CDECL__EFUNCARRAY);
return -1;
}
for (spec = ptr->qualifiers; spec; spec = spec->next) {
if (spec->type == CDECL_QUAL_RESTRICT
&& d->type == CDECL_DECL_FUNCTION) {
- cdecl__err(CDECL_EBADPOINTER, _("function pointers cannot be restrict-qualified"));
+ cdecl__errmsg(CDECL__ERESTRICTFUNC);
return -1;
}
}
if (cdecl_is_abstract(i->declarators)
&& (i != decl || i->next)) {
- cdecl__err(CDECL_EBADDECL, _("mixing type names and declarations is not allowed"));
+ cdecl__errmsg(CDECL__EDECLTYPE);
goto err;
}
}