* The caller should unref the GArray.
*/
GArray *ctf_enum_read(struct stream_pos *pos,
- const struct type_class_enum *src)
+ const struct declaration_enum *src)
{
- const struct type_class_integer *int_class = &src->p;
+ const struct declaration_integer *integer_declaration = src->integer_declaration;
- if (!int_class->signedness) {
+ if (!integer_declaration->signedness) {
uint64_t v;
- v = ctf_uint_read(pos, int_class);
+ v = ctf_uint_read(pos, integer_declaration);
return enum_uint_to_quark_set(src, v);
} else {
int64_t v;
- v = ctf_int_read(pos, int_class);
+ v = ctf_int_read(pos, integer_declaration);
return enum_int_to_quark_set(src, v);
}
}
* Arbitrarily choose the start of the first matching range.
*/
void ctf_enum_write(struct stream_pos *pos,
- const struct type_class_enum *dest,
+ const struct declaration_enum *dest,
GQuark q)
{
- const struct type_class_integer *int_class = &dest->p;
+ const struct declaration_integer *integer_declaration = dest->integer_declaration;
GArray *array;
array = enum_quark_to_range_set(dest, q);
assert(array);
- if (!int_class->signedness) {
+ if (!integer_declaration->signedness) {
uint64_t v = g_array_index(array, struct enum_range, 0).start._unsigned;
- ctf_uint_write(pos, int_class, v);
+ ctf_uint_write(pos, integer_declaration, v);
} else {
int64_t v = g_array_index(array, struct enum_range, 0).start._unsigned;
- ctf_int_write(pos, int_class, v);
+ ctf_int_write(pos, integer_declaration, v);
}
}