*
*/
-ulong_t hash_long(ulong_t val, uint_t bits);
-ulong_t hash_buffer(uchar_t * msg, uint_t length);
-
-
-
-
#define DEFINE_HASHTABLE_INSERT(fnname, keytype, valuetype) \
static int fnname (struct hashtable * htable, keytype key, valuetype value) { \
- return hashtable_insert(htable, (addr_t)key, (addr_t)value); \
+ return v3_htable_insert(htable, (addr_t)key, (addr_t)value); \
}
#define DEFINE_HASHTABLE_SEARCH(fnname, keytype, valuetype) \
static valuetype * fnname (struct hashtable * htable, keytype key) { \
- return (valuetype *) (hashtable_search(htable, (addr_t)key)); \
+ return (valuetype *) (v3_htable_search(htable, (addr_t)key)); \
}
#define DEFINE_HASHTABLE_REMOVE(fnname, keytype, valuetype, free_key) \
static valuetype * fnname (struct hashtable * htable, keytype key) { \
- return (valuetype *) (hashtable_remove(htable, (addr_t)key, free_key)); \
+ return (valuetype *) (v3_htable_remove(htable, (addr_t)key, free_key)); \
}
+/* These cannot be inlined because they are referenced as fn ptrs */
+ulong_t v3_hash_long(ulong_t val, uint_t bits);
+ulong_t v3_hash_buffer(uchar_t * msg, uint_t length);
+
+
-struct hashtable * create_hashtable(uint_t min_size,
+struct hashtable * v3_create_htable(uint_t min_size,
uint_t (*hashfunction) (addr_t key),
int (*key_eq_fn) (addr_t key1, addr_t key2));
-void hashtable_destroy(struct hashtable * htable, int free_values, int free_keys);
+void v3_free_htable(struct hashtable * htable, int free_values, int free_keys);
/*
* returns non-zero for successful insertion
* entries is reversed.
* If in doubt, remove before insert.
*/
-int hashtable_insert(struct hashtable * htable, addr_t key, addr_t value);
+int v3_htable_insert(struct hashtable * htable, addr_t key, addr_t value);
-int hashtable_change(struct hashtable * htable, addr_t key, addr_t value, int free_value);
+int v3_htable_change(struct hashtable * htable, addr_t key, addr_t value, int free_value);
// returns the value associated with the key, or NULL if none found
-addr_t hashtable_search(struct hashtable * htable, addr_t key);
+addr_t v3_htable_search(struct hashtable * htable, addr_t key);
// returns the value associated with the key, or NULL if none found
-addr_t hashtable_remove(struct hashtable * htable, addr_t key, int free_key);
+addr_t v3_htable_remove(struct hashtable * htable, addr_t key, int free_key);
-uint_t hashtable_count(struct hashtable * htable);
+uint_t v3_htable_count(struct hashtable * htable);
// Specialty functions for a counting hashtable
-int hashtable_inc(struct hashtable * htable, addr_t key, addr_t value);
-int hashtable_dec(struct hashtable * htable, addr_t key, addr_t value);
+int v3_htable_inc(struct hashtable * htable, addr_t key, addr_t value);
+int v3_htable_dec(struct hashtable * htable, addr_t key, addr_t value);
/* ************ */
/* ************ */
#define DEFINE_HASHTABLE_ITERATOR_SEARCH(fnname, keytype) \
- int fnname (struct hashtable_itr * iter, struct hashtable * htable, keytype * key) { \
- return (hashtable_iterator_search(iter, htable, key)); \
+ static int fnname (struct hashtable_itr * iter, struct hashtable * htable, keytype * key) { \
+ return (v3_htable_iter_search(iter, htable, key)); \
}
};
-struct hashtable_iter * create_hashtable_iterator(struct hashtable * htable);
+struct hashtable_iter * v3_create_htable_iter(struct hashtable * htable);
/* - return the value of the (key,value) pair at the current position */
//extern inline
-addr_t hashtable_get_iter_key(struct hashtable_iter * iter);
+addr_t v3_htable_get_iter_key(struct hashtable_iter * iter);
/* {
return iter->entry->key;
}
/* value - return the value of the (key,value) pair at the current position */
//extern inline
-addr_t hashtable_get_iter_value(struct hashtable_iter * iter);
+addr_t v3_htable_get_iter_value(struct hashtable_iter * iter);
/* {
return iter->entry->value;
}
/* returns zero if advanced to end of table */
-int hashtable_iterator_advance(struct hashtable_iter * iter);
+int v3_htable_iter_advance(struct hashtable_iter * iter);
/* remove current element and advance the iterator to the next element
* NB: if you need the value to free it, read it before
* removing. ie: beware memory leaks!
* returns zero if advanced to end of table
*/
-int hashtable_iterator_remove(struct hashtable_iter * iter, int free_key);
+int v3_htable_iter_remove(struct hashtable_iter * iter, int free_key);
/* search - overwrite the supplied iterator, to point to the entry
* matching the supplied key.
* returns zero if not found. */
-int hashtable_iterator_search(struct hashtable_iter * iter, struct hashtable * htable, addr_t key);
+int v3_htable_iter_search(struct hashtable_iter * iter, struct hashtable * htable, addr_t key);