mirror of https://gitee.com/openkylin/wget.git
271 lines
12 KiB
C
271 lines
12 KiB
C
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/* hash - hashing table processing.
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Copyright (C) 1998-1999, 2001, 2003, 2009-2023 Free Software Foundation,
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Inc.
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Written by Jim Meyering <meyering@ascend.com>, 1998.
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This file is free software: you can redistribute it and/or modify
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it under the terms of the GNU Lesser General Public License as
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published by the Free Software Foundation; either version 2.1 of the
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License, or (at your option) any later version.
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This file is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU Lesser General Public License for more details.
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You should have received a copy of the GNU Lesser General Public License
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along with this program. If not, see <https://www.gnu.org/licenses/>. */
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/* A generic hash table package. */
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/* Make sure USE_OBSTACK is defined to 1 if you want the allocator to use
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obstacks instead of malloc, and recompile 'hash.c' with same setting. */
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#ifndef HASH_H_
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# define HASH_H_
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/* This file uses _GL_ATTRIBUTE_DEALLOC, _GL_ATTRIBUTE_DEPRECATED,
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_GL_ATTRIBUTE_MALLOC, _GL_ATTRIBUTE_NODISCARD, _GL_ATTRIBUTE_PURE,
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_GL_ATTRIBUTE_RETURNS_NONNULL. */
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#if !_GL_CONFIG_H_INCLUDED
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#error "Please include config.h first."
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#endif
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# include <stdio.h>
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# ifdef __cplusplus
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extern "C" {
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# endif
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struct hash_tuning
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{
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/* This structure is mainly used for 'hash_initialize', see the block
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documentation of 'hash_reset_tuning' for more complete comments. */
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float shrink_threshold; /* ratio of used buckets to trigger a shrink */
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float shrink_factor; /* ratio of new smaller size to original size */
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float growth_threshold; /* ratio of used buckets to trigger a growth */
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float growth_factor; /* ratio of new bigger size to original size */
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bool is_n_buckets; /* if CANDIDATE really means table size */
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};
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typedef struct hash_tuning Hash_tuning;
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struct hash_table;
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typedef struct hash_table Hash_table;
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/*
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* Information and lookup.
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*/
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/* The following few functions provide information about the overall hash
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table organization: the number of entries, number of buckets and maximum
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length of buckets. */
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/* Return the number of buckets in the hash table. The table size, the total
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number of buckets (used plus unused), or the maximum number of slots, are
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the same quantity. */
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extern size_t hash_get_n_buckets (const Hash_table *table)
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_GL_ATTRIBUTE_PURE;
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/* Return the number of slots in use (non-empty buckets). */
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extern size_t hash_get_n_buckets_used (const Hash_table *table)
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_GL_ATTRIBUTE_PURE;
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/* Return the number of active entries. */
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extern size_t hash_get_n_entries (const Hash_table *table)
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_GL_ATTRIBUTE_PURE;
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/* Return the length of the longest chain (bucket). */
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extern size_t hash_get_max_bucket_length (const Hash_table *table)
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_GL_ATTRIBUTE_PURE;
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/* Do a mild validation of a hash table, by traversing it and checking two
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statistics. */
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extern bool hash_table_ok (const Hash_table *table)
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_GL_ATTRIBUTE_PURE;
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extern void hash_print_statistics (const Hash_table *table, FILE *stream);
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/* If ENTRY matches an entry already in the hash table, return the
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entry from the table. Otherwise, return NULL. */
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extern void *hash_lookup (const Hash_table *table, const void *entry);
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/*
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* Walking.
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*/
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/* The functions in this page traverse the hash table and process the
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contained entries. For the traversal to work properly, the hash table
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should not be resized nor modified while any particular entry is being
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processed. In particular, entries should not be added, and an entry
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may be removed only if there is no shrink threshold and the entry being
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removed has already been passed to hash_get_next. */
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/* Return the first data in the table, or NULL if the table is empty. */
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extern void *hash_get_first (const Hash_table *table)
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_GL_ATTRIBUTE_PURE;
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/* Return the user data for the entry following ENTRY, where ENTRY has been
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returned by a previous call to either 'hash_get_first' or 'hash_get_next'.
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Return NULL if there are no more entries. */
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extern void *hash_get_next (const Hash_table *table, const void *entry);
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/* Fill BUFFER with pointers to active user entries in the hash table, then
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return the number of pointers copied. Do not copy more than BUFFER_SIZE
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pointers. */
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extern size_t hash_get_entries (const Hash_table *table, void **buffer,
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size_t buffer_size);
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typedef bool (*Hash_processor) (void *entry, void *processor_data);
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/* Call a PROCESSOR function for each entry of a hash table, and return the
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number of entries for which the processor function returned success. A
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pointer to some PROCESSOR_DATA which will be made available to each call to
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the processor function. The PROCESSOR accepts two arguments: the first is
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the user entry being walked into, the second is the value of PROCESSOR_DATA
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as received. The walking continue for as long as the PROCESSOR function
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returns nonzero. When it returns zero, the walking is interrupted. */
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extern size_t hash_do_for_each (const Hash_table *table,
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Hash_processor processor, void *processor_data);
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/*
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* Allocation and clean-up.
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*/
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/* Return a hash index for a NUL-terminated STRING between 0 and N_BUCKETS-1.
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This is a convenience routine for constructing other hashing functions. */
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extern size_t hash_string (const char *string, size_t n_buckets)
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_GL_ATTRIBUTE_PURE;
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extern void hash_reset_tuning (Hash_tuning *tuning);
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typedef size_t (*Hash_hasher) (const void *entry, size_t table_size);
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typedef bool (*Hash_comparator) (const void *entry1, const void *entry2);
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typedef void (*Hash_data_freer) (void *entry);
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/* Reclaim all storage associated with a hash table. If a data_freer
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function has been supplied by the user when the hash table was created,
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this function applies it to the data of each entry before freeing that
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entry. */
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extern void hash_free (Hash_table *table);
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/* Allocate and return a new hash table, or NULL upon failure. The initial
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number of buckets is automatically selected so as to _guarantee_ that you
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may insert at least CANDIDATE different user entries before any growth of
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the hash table size occurs. So, if have a reasonably tight a-priori upper
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bound on the number of entries you intend to insert in the hash table, you
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may save some table memory and insertion time, by specifying it here. If
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the IS_N_BUCKETS field of the TUNING structure is true, the CANDIDATE
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argument has its meaning changed to the wanted number of buckets.
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TUNING points to a structure of user-supplied values, in case some fine
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tuning is wanted over the default behavior of the hasher. If TUNING is
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NULL, the default tuning parameters are used instead. If TUNING is
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provided but the values requested are out of bounds or might cause
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rounding errors, return NULL.
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The user-supplied HASHER function, when not NULL, accepts two
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arguments ENTRY and TABLE_SIZE. It computes, by hashing ENTRY contents, a
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slot number for that entry which should be in the range 0..TABLE_SIZE-1.
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This slot number is then returned.
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The user-supplied COMPARATOR function, when not NULL, accepts two
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arguments pointing to user data, it then returns true for a pair of entries
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that compare equal, or false otherwise. This function is internally called
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on entries which are already known to hash to the same bucket index,
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but which are distinct pointers.
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The user-supplied DATA_FREER function, when not NULL, may be later called
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with the user data as an argument, just before the entry containing the
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data gets freed. This happens from within 'hash_free' or 'hash_clear'.
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You should specify this function only if you want these functions to free
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all of your 'data' data. This is typically the case when your data is
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simply an auxiliary struct that you have malloc'd to aggregate several
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values. */
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_GL_ATTRIBUTE_NODISCARD
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extern Hash_table *hash_initialize (size_t candidate,
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const Hash_tuning *tuning,
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Hash_hasher hasher,
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Hash_comparator comparator,
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Hash_data_freer data_freer)
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_GL_ATTRIBUTE_MALLOC _GL_ATTRIBUTE_DEALLOC (hash_free, 1);
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/* Same as hash_initialize, but invokes xalloc_die on memory exhaustion. */
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/* This function is defined by module 'xhash'. */
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_GL_ATTRIBUTE_NODISCARD
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extern Hash_table *hash_xinitialize (size_t candidate,
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const Hash_tuning *tuning,
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Hash_hasher hasher,
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Hash_comparator comparator,
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Hash_data_freer data_freer)
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_GL_ATTRIBUTE_MALLOC _GL_ATTRIBUTE_DEALLOC (hash_free, 1)
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_GL_ATTRIBUTE_RETURNS_NONNULL;
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/* Make all buckets empty, placing any chained entries on the free list.
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Apply the user-specified function data_freer (if any) to the datas of any
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affected entries. */
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extern void hash_clear (Hash_table *table);
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/*
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* Insertion and deletion.
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*/
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/* For an already existing hash table, change the number of buckets through
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specifying CANDIDATE. The contents of the hash table are preserved. The
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new number of buckets is automatically selected so as to _guarantee_ that
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the table may receive at least CANDIDATE different user entries, including
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those already in the table, before any other growth of the hash table size
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occurs. If TUNING->IS_N_BUCKETS is true, then CANDIDATE specifies the
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exact number of buckets desired. Return true iff the rehash succeeded. */
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_GL_ATTRIBUTE_NODISCARD
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extern bool hash_rehash (Hash_table *table, size_t candidate);
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/* If ENTRY matches an entry already in the hash table, return the pointer
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to the entry from the table. Otherwise, insert ENTRY and return ENTRY.
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Return NULL if the storage required for insertion cannot be allocated.
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This implementation does not support duplicate entries or insertion of
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NULL. */
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_GL_ATTRIBUTE_NODISCARD
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extern void *hash_insert (Hash_table *table, const void *entry);
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/* Same as hash_insert, but invokes xalloc_die on memory exhaustion. */
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/* This function is defined by module 'xhash'. */
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extern void *hash_xinsert (Hash_table *table, const void *entry);
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/* Insert ENTRY into hash TABLE if there is not already a matching entry.
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Return -1 upon memory allocation failure.
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Return 1 if insertion succeeded.
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Return 0 if there is already a matching entry in the table,
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and in that case, if MATCHED_ENT is non-NULL, set *MATCHED_ENT
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to that entry.
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This interface is easier to use than hash_insert when you must
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distinguish between the latter two cases. More importantly,
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hash_insert is unusable for some types of ENTRY values. When using
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hash_insert, the only way to distinguish those cases is to compare
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the return value and ENTRY. That works only when you can have two
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different ENTRY values that point to data that compares "equal". Thus,
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when the ENTRY value is a simple scalar, you must use
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hash_insert_if_absent. ENTRY must not be NULL. */
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extern int hash_insert_if_absent (Hash_table *table, const void *entry,
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const void **matched_ent);
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/* If ENTRY is already in the table, remove it and return the just-deleted
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data (the user may want to deallocate its storage). If ENTRY is not in the
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table, don't modify the table and return NULL. */
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extern void *hash_remove (Hash_table *table, const void *entry);
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/* Same as hash_remove. This interface is deprecated.
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FIXME: Remove in 2022. */
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_GL_ATTRIBUTE_DEPRECATED
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extern void *hash_delete (Hash_table *table, const void *entry);
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# ifdef __cplusplus
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}
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# endif
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#endif
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