struct type_class_integer *int_class =
container_of(type_class, struct type_class_integer, p);
- if (fsrc->p.alignment)
- src = PTR_ALIGN(src, fsrc->p.alignment / CHAR_BIT);
- if (fdest->p.alignment)
- dest = PTR_ALIGN(dest, fdest->p.alignment / CHAR_BIT);
-
if (!int_class->signedness) {
uint64_t v;
- v = fsrc->uint_read(src, int_class->len, int_class->byte_order);
- return fdest->uint_write(dest, int_class->len, int_class->byte_order, v);
+ v = fsrc->uint_read(src, int_class);
+ return fdest->uint_write(dest, int_class, v);
} else {
int64_t v;
- v = fsrc->int_read(src, int_class->len, int_class->byte_order);
- return fdest->int_write(dest, int_class->len, int_class->byte_order, v);
+ v = fsrc->int_read(src, int_class);
+ return fdest->int_write(dest, int_class, v);
}
}
}
struct type_class_integer *integer_type_new(const char *name,
- size_t start_offset,
size_t len, int byte_order,
int signedness,
size_t alignment)
int_class->byte_order = byte_order;
int_class->signedness = signedness;
if (int_class->p.name) {
- ret = ctf_register_type(&int_class.p);
+ ret = ctf_register_type(&int_class->p);
if (ret) {
g_free(int_class);
return NULL;