void *
guestfs_get_private (guestfs_h *g, const char *key)
{
if (g->pda == NULL)
return NULL; /* no keys have been set */
const struct pda_entry k = { .key = (char *) key };
struct pda_entry *entry = hash_lookup (g->pda, &k);
if (entry)
return entry->data;
else
return NULL;
}
/* Iterator. */
void *
guestfs_first_private (guestfs_h *g, const char **key_rtn)
{
if (g->pda == NULL)
return NULL;
g->pda_next = hash_get_first (g->pda);
/* Ignore any keys with NULL data pointers. */
while (g->pda_next && g->pda_next->data == NULL)
g->pda_next = hash_get_next (g->pda, g->pda_next);
if (g->pda_next == NULL)
return NULL;
*key_rtn = g->pda_next->key;
return g->pda_next->data;
}
void *
guestfs_next_private (guestfs_h *g, const char **key_rtn)
{
if (g->pda == NULL)
return NULL;
if (g->pda_next == NULL)
return NULL;
/* Walk to the next key with a non-NULL data pointer. */
do {
g->pda_next = hash_get_next (g->pda, g->pda_next);
} while (g->pda_next && g->pda_next->data == NULL);
if (g->pda_next == NULL)
return NULL;
*key_rtn = g->pda_next->key;
return g->pda_next->data;
}
/* Iterator. */
void *
guestfs_first_private (guestfs_h *g, const char **key_rtn)
{
if (g->pda == NULL)
return NULL;
g->pda_next = hash_get_first (g->pda);
/* Ignore any keys with NULL data pointers. */
while (g->pda_next && g->pda_next->data == NULL)
g->pda_next = hash_get_next (g->pda, g->pda_next);
if (g->pda_next == NULL)
return NULL;
*key_rtn = g->pda_next->key;
return g->pda_next->data;
}
int
main (int argc, char **argv)
{
unsigned int i;
unsigned int k;
unsigned int table_size[] = {1, 2, 3, 4, 5, 23, 53};
Hash_table *ht;
Hash_tuning tuning;
hash_reset_tuning (&tuning);
tuning.shrink_threshold = 0.3;
tuning.shrink_factor = 0.707;
tuning.growth_threshold = 1.5;
tuning.growth_factor = 2.0;
tuning.is_n_buckets = true;
if (1 < argc)
{
unsigned int seed;
if (get_seed (argv[1], &seed) != 0)
{
fprintf (stderr, "invalid seed: %s\n", argv[1]);
exit (EXIT_FAILURE);
}
srand (seed);
}
for (i = 0; i < ARRAY_CARDINALITY (table_size); i++)
{
size_t sz = table_size[i];
ht = hash_initialize (sz, NULL, hash_pjw, hash_compare_strings, NULL);
ASSERT (ht);
insert_new (ht, "a");
{
char *str1 = strdup ("a");
char *str2;
ASSERT (str1);
str2 = hash_insert (ht, str1);
ASSERT (str1 != str2);
ASSERT (STREQ (str1, str2));
free (str1);
}
insert_new (ht, "b");
insert_new (ht, "c");
i = 0;
ASSERT (hash_do_for_each (ht, walk, &i) == 3);
ASSERT (i == 7);
{
void *buf[5] = { NULL };
ASSERT (hash_get_entries (ht, NULL, 0) == 0);
ASSERT (hash_get_entries (ht, buf, 5) == 3);
ASSERT (STREQ (buf[0], "a") || STREQ (buf[0], "b") || STREQ (buf[0], "c"));
}
ASSERT (hash_delete (ht, "a"));
ASSERT (hash_delete (ht, "a") == NULL);
ASSERT (hash_delete (ht, "b"));
ASSERT (hash_delete (ht, "c"));
ASSERT (hash_rehash (ht, 47));
ASSERT (hash_rehash (ht, 467));
/* Free an empty table. */
hash_clear (ht);
hash_free (ht);
ht = hash_initialize (sz, NULL, hash_pjw, hash_compare_strings, NULL);
ASSERT (ht);
insert_new (ht, "z");
insert_new (ht, "y");
insert_new (ht, "x");
insert_new (ht, "w");
insert_new (ht, "v");
insert_new (ht, "u");
hash_clear (ht);
ASSERT (hash_get_n_entries (ht) == 0);
hash_free (ht);
/* Test pointer hashing. */
ht = hash_initialize (sz, NULL, NULL, NULL, NULL);
ASSERT (ht);
{
char *str = strdup ("a");
ASSERT (str);
insert_new (ht, "a");
insert_new (ht, str);
ASSERT (hash_lookup (ht, str) == str);
free (str);
}
hash_free (ht);
}
hash_reset_tuning (&tuning);
tuning.shrink_threshold = 0.3;
tuning.shrink_factor = 0.707;
tuning.growth_threshold = 1.5;
tuning.growth_factor = 2.0;
tuning.is_n_buckets = true;
/* Invalid tuning. */
ht = hash_initialize (4651, &tuning, hash_pjw, hash_compare_strings,
hash_freer);
ASSERT (!ht);
/* Alternate tuning. */
tuning.growth_threshold = 0.89;
/* Run with default tuning, then with custom tuning settings. */
for (k = 0; k < 2; k++)
{
Hash_tuning const *tune = (k == 0 ? NULL : &tuning);
/* Now, each entry is malloc'd. */
ht = hash_initialize (4651, tune, hash_pjw,
hash_compare_strings, hash_freer);
ASSERT (ht);
for (i = 0; i < 10000; i++)
{
unsigned int op = rand () % 10;
switch (op)
{
case 0:
case 1:
case 2:
case 3:
case 4:
case 5:
{
char buf[50];
char const *p = uinttostr (i, buf);
char *p_dup = strdup (p);
ASSERT (p_dup);
insert_new (ht, p_dup);
}
break;
case 6:
{
size_t n = hash_get_n_entries (ht);
ASSERT (hash_rehash (ht, n + rand () % 20));
}
break;
case 7:
{
size_t n = hash_get_n_entries (ht);
size_t delta = rand () % 20;
if (delta < n)
ASSERT (hash_rehash (ht, n - delta));
}
break;
case 8:
case 9:
{
/* Delete a random entry. */
size_t n = hash_get_n_entries (ht);
if (n)
{
size_t kk = rand () % n;
void const *p;
void *v;
for (p = hash_get_first (ht); kk;
--kk, p = hash_get_next (ht, p))
{
/* empty */
}
ASSERT (p);
v = hash_delete (ht, p);
ASSERT (v);
free (v);
}
break;
}
}
ASSERT (hash_table_ok (ht));
}
hash_free (ht);
}
return 0;
}
