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6de9b8ff12
From-SVN: r30683
331 lines
9.5 KiB
C
331 lines
9.5 KiB
C
/* An expandable hash tables datatype.
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Copyright (C) 1999 Free Software Foundation, Inc.
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Contributed by Vladimir Makarov (vmakarov@cygnus.com).
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This file is part of the libiberty library.
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Libiberty is free software; you can redistribute it and/or
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modify it under the terms of the GNU Library General Public
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License as published by the Free Software Foundation; either
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version 2 of the License, or (at your option) any later version.
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Libiberty 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 GNU
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Library General Public License for more details.
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You should have received a copy of the GNU Library General Public
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License along with libiberty; see the file COPYING.LIB. If
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not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
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Boston, MA 02111-1307, USA. */
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/* This package implements basic hash table functionality. It is possible
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to search for an entry, create an entry and destroy an entry.
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Elements in the table are generic pointers.
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The size of the table is not fixed; if the occupancy of the table
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grows too high the hash table will be expanded.
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The abstract data implementation is based on generalized Algorithm D
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from Knuth's book "The art of computer programming". Hash table is
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expanded by creation of new hash table and transferring elements from
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the old table to the new table. */
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#ifdef HAVE_CONFIG_H
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#include "config.h"
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#endif
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#include <sys/types.h>
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#ifdef HAVE_STDLIB_H
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#include <stdlib.h>
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#endif
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#include <stdio.h>
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#include "libiberty.h"
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#include "hashtab.h"
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/* The following variable is used for debugging. Its value is number
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of all calls of `find_hash_table_entry' for all hash tables. */
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static int all_searches = 0;
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/* The following variable is used for debugging. Its value is number
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of collisions fixed for time of work with all hash tables. */
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static int all_collisions = 0;
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/* The following variable is used for debugging. Its value is number
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of all table expansions fixed for time of work with all hash
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tables. */
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static int all_expansions = 0;
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/* This macro defines reserved value for empty table entry. */
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#define EMPTY_ENTRY NULL
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/* This macro defines reserved value for table entry which contained
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a deleted element. */
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#define DELETED_ENTRY ((void *) 1)
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/* The following function returns the nearest prime number which is
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greater than given source number. */
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static unsigned long
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higher_prime_number (number)
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unsigned long number;
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{
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unsigned long i;
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for (number = (number / 2) * 2 + 3;; number += 2)
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{
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for (i = 3; i * i <= number; i += 2)
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if (number % i == 0)
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break;
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if (i * i > number)
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return number;
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}
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}
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/* This function creates table with length slightly longer than given
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source length. Created hash table is initiated as empty (all the
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hash table entries are EMPTY_ENTRY). The function returns the
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created hash table. */
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hash_table_t
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create_hash_table (size, hash_function, eq_function)
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size_t size;
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unsigned (*hash_function) PARAMS ((hash_table_entry_t));
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int (*eq_function) PARAMS ((hash_table_entry_t, hash_table_entry_t));
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{
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hash_table_t result;
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size = higher_prime_number (size);
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result = (hash_table_t) xmalloc (sizeof (*result));
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result->entries
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= (hash_table_entry_t *) xmalloc (size * sizeof (hash_table_entry_t));
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result->size = size;
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result->hash_function = hash_function;
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result->eq_function = eq_function;
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result->number_of_elements = 0;
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result->number_of_deleted_elements = 0;
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result->searches = 0;
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result->collisions = 0;
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memset (result->entries, 0, size * sizeof (hash_table_entry_t));
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return result;
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}
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/* This function frees all memory allocated for given hash table.
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Naturally the hash table must already exist. */
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void
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delete_hash_table (htab)
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hash_table_t htab;
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{
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free (htab->entries);
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free (htab);
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}
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/* This function clears all entries in the given hash table. */
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void
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empty_hash_table (htab)
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hash_table_t htab;
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{
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memset (htab->entries, 0, htab->size * sizeof (hash_table_entry_t));
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}
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/* The following function changes size of memory allocated for the
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entries and repeatedly inserts the table elements. The occupancy
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of the table after the call will be about 50%. Naturally the hash
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table must already exist. Remember also that the place of the
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table entries is changed. */
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static void
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expand_hash_table (htab)
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hash_table_t htab;
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{
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hash_table_t new_htab;
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hash_table_entry_t *entry_ptr;
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hash_table_entry_t *new_entry_ptr;
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new_htab = create_hash_table (htab->number_of_elements * 2,
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htab->hash_function, htab->eq_function);
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for (entry_ptr = htab->entries; entry_ptr < htab->entries + htab->size;
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entry_ptr++)
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if (*entry_ptr != EMPTY_ENTRY && *entry_ptr != DELETED_ENTRY)
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{
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new_entry_ptr = find_hash_table_entry (new_htab, *entry_ptr, 1);
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*new_entry_ptr = (*entry_ptr);
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}
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free (htab->entries);
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*htab = (*new_htab);
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free (new_htab);
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}
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/* This function searches for hash table entry which contains element
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equal to given value or empty entry in which given value can be
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placed (if the element with given value does not exist in the
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table). The function works in two regimes. The first regime is
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used only for search. The second is used for search and
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reservation empty entry for given value. The table is expanded if
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occupancy (taking into accout also deleted elements) is more than
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75%. Naturally the hash table must already exist. If reservation
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flag is TRUE then the element with given value should be inserted
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into the table entry before another call of
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`find_hash_table_entry'. */
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hash_table_entry_t *
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find_hash_table_entry (htab, element, reserve)
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hash_table_t htab;
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hash_table_entry_t element;
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int reserve;
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{
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hash_table_entry_t *entry_ptr;
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hash_table_entry_t *first_deleted_entry_ptr;
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unsigned index, hash_value, secondary_hash_value;
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if (htab->size * 3 <= htab->number_of_elements * 4)
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{
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all_expansions++;
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expand_hash_table (htab);
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}
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hash_value = (*htab->hash_function) (element);
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secondary_hash_value = 1 + hash_value % (htab->size - 2);
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index = hash_value % htab->size;
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htab->searches++;
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all_searches++;
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first_deleted_entry_ptr = NULL;
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for (;;htab->collisions++, all_collisions++)
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{
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entry_ptr = htab->entries + index;
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if (*entry_ptr == EMPTY_ENTRY)
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{
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if (reserve)
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{
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htab->number_of_elements++;
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if (first_deleted_entry_ptr != NULL)
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{
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entry_ptr = first_deleted_entry_ptr;
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*entry_ptr = EMPTY_ENTRY;
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}
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}
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break;
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}
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else if (*entry_ptr != DELETED_ENTRY)
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{
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if ((*htab->eq_function) (*entry_ptr, element))
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break;
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}
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else if (first_deleted_entry_ptr == NULL)
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first_deleted_entry_ptr = entry_ptr;
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index += secondary_hash_value;
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if (index >= htab->size)
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index -= htab->size;
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}
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return entry_ptr;
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}
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/* This function deletes element with given value from hash table.
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The hash table entry value will be `DELETED_ENTRY' after the
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function call. Naturally the hash table must already exist. Hash
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table entry for given value should be not empty (or deleted). */
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void
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remove_element_from_hash_table_entry (htab, element)
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hash_table_t htab;
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hash_table_entry_t element;
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{
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hash_table_entry_t *entry_ptr;
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entry_ptr = find_hash_table_entry (htab, element, 0);
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*entry_ptr = DELETED_ENTRY;
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htab->number_of_deleted_elements++;
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}
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/* This function clears a specified slot in a hash table.
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It is useful when you've already done the lookup and don't want to
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do it again. */
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void
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clear_hash_table_slot (htab, slot)
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hash_table_t htab;
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hash_table_entry_t *slot;
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{
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if (slot < htab->entries || slot >= htab->entries + htab->size
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|| *slot == EMPTY_ENTRY || *slot == DELETED_ENTRY)
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abort ();
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*slot = DELETED_ENTRY;
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htab->number_of_deleted_elements++;
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}
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/* This function scans over the entire hash table calling
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CALLBACK for each live entry. If CALLBACK returns false,
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the iteration stops. INFO is passed as CALLBACK's second
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argument. */
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void
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traverse_hash_table (htab, callback, info)
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hash_table_t htab;
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int (*callback) PARAMS ((hash_table_entry_t, void *));
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void *info;
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{
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hash_table_entry_t *entry_ptr;
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for (entry_ptr = htab->entries; entry_ptr < htab->entries + htab->size;
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entry_ptr++)
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if (*entry_ptr != EMPTY_ENTRY && *entry_ptr != DELETED_ENTRY)
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if (!callback (*entry_ptr, info))
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break;
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}
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/* The following function returns current size of given hash table. */
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size_t
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hash_table_size (htab)
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hash_table_t htab;
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{
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return htab->size;
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}
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/* The following function returns current number of elements in given
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hash table. */
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size_t
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hash_table_elements_number (htab)
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hash_table_t htab;
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{
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return htab->number_of_elements - htab->number_of_deleted_elements;
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}
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/* The following function returns number of percents of fixed
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collisions during all work with given hash table. */
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int
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hash_table_collisions (htab)
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hash_table_t htab;
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{
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int searches;
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searches = htab->searches;
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if (searches == 0)
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searches++;
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return htab->collisions * 100 / searches;
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}
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/* The following function returns number of percents of fixed
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collisions during all work with all hash tables. */
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int
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all_hash_table_collisions ()
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{
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int searches;
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searches = all_searches;
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if (searches == 0)
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searches++;
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return all_collisions * 100 / searches;
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}
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