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#ifndef HASH_H
# define HASH_H 1
# if HAVE_CONFIG_H
# include <config.h>
# endif
# ifndef PARAMS
# if defined (__GNUC__) || __STDC__
# define PARAMS(args) args
# else
# define PARAMS(args) ()
# endif
# endif
# include <stdio.h>
# include <assert.h>
# ifdef STDC_HEADERS
# include <stdlib.h>
# endif
# ifndef HAVE_DECLARATION_FREE
void free ();
# endif
# ifndef HAVE_DECLARATION_MALLOC
char *malloc ();
# endif
# define USE_OBSTACK
# ifdef USE_OBSTACK
# include "obstack.h"
# endif
# define obstack_chunk_alloc malloc
# define obstack_chunk_free free
struct hash_ent
{
void *key;
struct hash_ent *next;
};
typedef struct hash_ent HASH_ENT;
/* This is particularly useful to cast uses in hash_initialize of the
system free function. */
typedef void (*Hash_key_freer_type) PARAMS((void *key));
struct HT
{
/* User-supplied function for freeing keys. It is specified in
hash_initialize. If non-null, it is used by hash_free and
hash_clear. You should specify `free' here only if you want
these functions to free all of your `key' data. This is typically
the case when your key is simply an auxilliary struct that you
have malloc'd to aggregate several values. */
Hash_key_freer_type hash_key_freer;
/* User-supplied hash function that hashes entry E to an integer
in the range 0..TABLE_SIZE-1. */
unsigned int (*hash_hash) PARAMS((const void *e, unsigned int table_size));
/* User-supplied function that determines whether a new entry is
unique by comparing the new entry to entries that hashed to the
same bucket index. It should return zero for a pair of entries
that compare equal, non-zero otherwise. */
int (*hash_key_comparator) PARAMS((const void *, const void *));
HASH_ENT **hash_table;
unsigned int hash_table_size;
unsigned int hash_n_slots_used;
unsigned int hash_max_chain_length;
/* Gets set when an entry is deleted from a chain of length
hash_max_chain_length. Indicates that hash_max_chain_length
may no longer be valid. */
unsigned int hash_dirty_max_chain_length;
/* Sum of lengths of all chains (not counting any dummy
header entries). */
unsigned int hash_n_keys;
/* A linked list of freed HASH_ENT structs.
FIXME: Perhaps this is unnecessary and we should simply free
and reallocate such structs. */
HASH_ENT *hash_free_entry_list;
/* FIXME: comment. */
# ifdef USE_OBSTACK
struct obstack ht_obstack;
# endif
};
typedef struct HT HT;
unsigned int
hash_get_n_slots_used PARAMS((const HT *ht));
unsigned int
hash_get_max_chain_length PARAMS((HT *ht));
int
hash_rehash PARAMS((HT *ht, unsigned int new_table_size));
unsigned int
hash_get_table_size PARAMS((const HT *ht));
HT *
hash_initialize PARAMS((unsigned int table_size,
void (*key_freer) PARAMS((void *key)),
unsigned int (*hash) PARAMS((const void *,
unsigned int)),
int (*equality_tester) PARAMS((const void *,
const void *))));
unsigned int
hash_get_n_keys PARAMS((const HT *ht));
int
hash_query_in_table PARAMS((const HT *ht, const void *e));
void *
hash_lookup PARAMS((const HT *ht, const void *e));
void *
hash_insert_if_absent PARAMS((HT *ht,
const void *e,
int *failed));
void *
hash_delete_if_present PARAMS((HT *ht, const void *e));
void
hash_print_statistics PARAMS((const HT *ht, FILE *stream));
int
hash_get_statistics PARAMS((const HT *ht, unsigned int *n_slots_used,
unsigned int *n_keys,
unsigned int *max_chain_length));
int
hash_table_ok PARAMS((HT *ht));
void
hash_do_for_each PARAMS((HT *ht,
void (*f) PARAMS((void *e, void *aux)),
void *aux));
int
hash_do_for_each_2 PARAMS((HT *ht,
int (*f) PARAMS((void *e, void *aux)),
void *aux));
int
hash_do_for_each_in_selected_bucket PARAMS((HT *ht,
const void *key,
int (*f) PARAMS((const void *bucket_key,
void *e,
void *aux)),
void *aux));
void
hash_clear PARAMS((HT *ht));
void
hash_free PARAMS((HT *ht));
void
hash_get_key_list PARAMS((const HT *ht,
unsigned int bufsize,
void **buf));
void *
hash_get_first PARAMS((const HT *ht));
void *
hash_get_next PARAMS((const HT *ht, const void *e));
/* This interface to hash_insert_if_absent is used frequently enough to
merit a macro here. */
# define HASH_INSERT_NEW_ITEM(Ht, Item, Failp) \
do \
{ \
void *_already; \
_already = hash_insert_if_absent ((Ht), (Item), Failp); \
assert (_already == NULL); \
} \
while (0)
#endif /* HASH_H */
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