};
struct _packed_ indirect_storage {
- char *storage; /* where buckets and DIBs are stored */
+ void *storage; /* where buckets and DIBs are stored */
uint8_t hash_key[HASH_KEY_SIZE]; /* hash key; changes during resize */
unsigned n_entries; /* number of stored entries */
/* This gives us 39 bytes on 64bit, or 35 bytes on 32bit.
* That's room for 4 set_entries + 4 DIB bytes + 3 unused bytes on 64bit,
* or 7 set_entries + 7 DIB bytes + 0 unused bytes on 32bit. */
- char storage[sizeof(struct indirect_storage)];
+ uint8_t storage[sizeof(struct indirect_storage)];
};
#define DIRECT_BUCKETS(entry_t) \
h->n_direct_entries--;
}
-static char *storage_ptr(HashmapBase *h) {
+static void *storage_ptr(HashmapBase *h) {
return h->has_indirect ? h->indirect.storage
: h->direct.storage;
}
static struct hashmap_base_entry *bucket_at(HashmapBase *h, unsigned idx) {
return (struct hashmap_base_entry*)
- (storage_ptr(h) + idx * hashmap_type_info[h->type].entry_size);
+ ((uint8_t*) storage_ptr(h) + idx * hashmap_type_info[h->type].entry_size);
}
static struct plain_hashmap_entry *plain_bucket_at(Hashmap *h, unsigned idx) {
static dib_raw_t *dib_raw_ptr(HashmapBase *h) {
return (dib_raw_t*)
- (storage_ptr(h) + hashmap_type_info[h->type].entry_size * n_buckets(h));
+ ((uint8_t*) storage_ptr(h) + hashmap_type_info[h->type].entry_size * n_buckets(h));
}
static unsigned bucket_distance(HashmapBase *h, unsigned idx, unsigned from) {
*/
static int resize_buckets(HashmapBase *h, unsigned entries_add) {
struct swap_entries swap;
- char *new_storage;
+ void *new_storage;
dib_raw_t *old_dibs, *new_dibs;
const struct hashmap_type_info *hi;
unsigned idx, optimal_idx;
h->indirect.n_buckets = (1U << new_shift) /
(hi->entry_size + sizeof(dib_raw_t));
- old_dibs = (dib_raw_t*)(new_storage + hi->entry_size * old_n_buckets);
+ old_dibs = (dib_raw_t*)((uint8_t*) new_storage + hi->entry_size * old_n_buckets);
new_dibs = dib_raw_ptr(h);
/*