302 lines
7.6 KiB
C
302 lines
7.6 KiB
C
/* Fully-inline hash table, used mainly for managing TLS descriptors.
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Copyright (C) 1999, 2000, 2001, 2002, 2003, 2005, 2008
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Free Software Foundation, Inc.
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This file is part of the GNU C Library.
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Contributed by Alexandre Oliva <aoliva@redhat.com>
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This file is derived from a 2003's version of libiberty's
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hashtab.c, contributed by Vladimir Makarov (vmakarov@cygnus.com),
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but with most adaptation points and support for deleting elements
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removed.
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The GNU C Library is free software; you can redistribute it and/or
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modify it under the terms of the GNU Lesser General Public
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License as published by the Free Software Foundation; either
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version 2.1 of the License, or (at your option) any later version.
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The GNU C Library 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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Lesser General Public License for more details.
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You should have received a copy of the GNU Lesser General Public
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License along with the GNU C Library; if not, write to the Free
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Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
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02111-1307 USA. */
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#ifndef INLINE_HASHTAB_H
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# define INLINE_HASHTAB_H 1
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extern void weak_function free (void *ptr);
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inline static unsigned long
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higher_prime_number (unsigned long n)
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{
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/* These are primes that are near, but slightly smaller than, a
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power of two. */
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static const uint32_t primes[] = {
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UINT32_C (7),
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UINT32_C (13),
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UINT32_C (31),
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UINT32_C (61),
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UINT32_C (127),
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UINT32_C (251),
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UINT32_C (509),
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UINT32_C (1021),
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UINT32_C (2039),
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UINT32_C (4093),
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UINT32_C (8191),
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UINT32_C (16381),
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UINT32_C (32749),
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UINT32_C (65521),
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UINT32_C (131071),
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UINT32_C (262139),
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UINT32_C (524287),
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UINT32_C (1048573),
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UINT32_C (2097143),
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UINT32_C (4194301),
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UINT32_C (8388593),
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UINT32_C (16777213),
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UINT32_C (33554393),
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UINT32_C (67108859),
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UINT32_C (134217689),
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UINT32_C (268435399),
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UINT32_C (536870909),
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UINT32_C (1073741789),
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UINT32_C (2147483647),
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/* 4294967291L */
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UINT32_C (2147483647) + UINT32_C (2147483644)
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};
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const uint32_t *low = &primes[0];
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const uint32_t *high = &primes[sizeof (primes) / sizeof (primes[0])];
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while (low != high)
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{
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const uint32_t *mid = low + (high - low) / 2;
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if (n > *mid)
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low = mid + 1;
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else
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high = mid;
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}
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#if 0
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/* If we've run out of primes, abort. */
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if (n > *low)
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{
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fprintf (stderr, "Cannot find prime bigger than %lu\n", n);
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abort ();
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}
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#endif
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return *low;
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}
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struct hashtab
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{
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/* Table itself. */
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void **entries;
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/* Current size (in entries) of the hash table */
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size_t size;
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/* Current number of elements. */
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size_t n_elements;
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/* Free function for the entries array. This may vary depending on
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how early the array was allocated. If it is NULL, then the array
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can't be freed. */
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void (*free) (void *ptr);
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};
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inline static struct hashtab *
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htab_create (void)
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{
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struct hashtab *ht = malloc (sizeof (struct hashtab));
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if (! ht)
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return NULL;
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ht->size = 3;
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ht->entries = malloc (sizeof (void *) * ht->size);
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ht->free = free;
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if (! ht->entries)
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{
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if (ht->free)
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ht->free (ht);
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return NULL;
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}
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ht->n_elements = 0;
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memset (ht->entries, 0, sizeof (void *) * ht->size);
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return ht;
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}
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/* This is only called from _dl_unmap, so it's safe to call
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free(). */
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inline static void
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htab_delete (struct hashtab *htab)
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{
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int i;
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for (i = htab->size - 1; i >= 0; i--)
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free (htab->entries[i]);
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if (htab->free)
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htab->free (htab->entries);
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free (htab);
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}
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/* Similar to htab_find_slot, but without several unwanted side effects:
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- Does not call htab->eq_f when it finds an existing entry.
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- Does not change the count of elements/searches/collisions in the
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hash table.
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This function also assumes there are no deleted entries in the table.
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HASH is the hash value for the element to be inserted. */
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inline static void **
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find_empty_slot_for_expand (struct hashtab *htab, int hash)
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{
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size_t size = htab->size;
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unsigned int index = hash % size;
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void **slot = htab->entries + index;
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int hash2;
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if (! *slot)
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return slot;
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hash2 = 1 + hash % (size - 2);
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for (;;)
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{
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index += hash2;
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if (index >= size)
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index -= size;
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slot = htab->entries + index;
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if (! *slot)
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return slot;
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}
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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. If memory allocation failures are allowed,
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this function will return zero, indicating that the table could not be
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expanded. If all goes well, it will return a non-zero value. */
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inline static int
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htab_expand (struct hashtab *htab, int (*hash_fn) (void *))
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{
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void **oentries;
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void **olimit;
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void **p;
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void **nentries;
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size_t nsize;
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oentries = htab->entries;
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olimit = oentries + htab->size;
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/* Resize only when table after removal of unused elements is either
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too full or too empty. */
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if (htab->n_elements * 2 > htab->size)
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nsize = higher_prime_number (htab->n_elements * 2);
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else
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nsize = htab->size;
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nentries = malloc (sizeof (void *) * nsize);
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memset (nentries, 0, sizeof (void *) * nsize);
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if (nentries == NULL)
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return 0;
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htab->entries = nentries;
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htab->size = nsize;
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p = oentries;
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do
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{
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if (*p)
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*find_empty_slot_for_expand (htab, hash_fn (*p))
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= *p;
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p++;
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}
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while (p < olimit);
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/* Without recording the free corresponding to the malloc used to
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allocate the table, we couldn't tell whether this was allocated
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by the malloc() built into ld.so or the one in the main
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executable or libc. Calling free() for something that was
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allocated by the early malloc(), rather than the final run-time
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malloc() could do Very Bad Things (TM). We will waste memory
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allocated early as long as there's no corresponding free(), but
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this isn't so much memory as to be significant. */
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if (htab->free)
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htab->free (oentries);
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/* Use the free() corresponding to the malloc() above to free this
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up. */
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htab->free = free;
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return 1;
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}
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/* This function searches for a hash table slot containing an entry
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equal to the given element. To delete an entry, call this with
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INSERT = 0, then call htab_clear_slot on the slot returned (possibly
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after doing some checks). To insert an entry, call this with
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INSERT = 1, then write the value you want into the returned slot.
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When inserting an entry, NULL may be returned if memory allocation
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fails. */
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inline static void **
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htab_find_slot (struct hashtab *htab, void *ptr, int insert,
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int (*hash_fn)(void *), int (*eq_fn)(void *, void *))
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{
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unsigned int index;
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int hash, hash2;
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size_t size;
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void **entry;
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if (htab->size * 3 <= htab->n_elements * 4
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&& htab_expand (htab, hash_fn) == 0)
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return NULL;
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hash = hash_fn (ptr);
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size = htab->size;
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index = hash % size;
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entry = &htab->entries[index];
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if (!*entry)
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goto empty_entry;
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else if (eq_fn (*entry, ptr))
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return entry;
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hash2 = 1 + hash % (size - 2);
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for (;;)
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{
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index += hash2;
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if (index >= size)
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index -= size;
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entry = &htab->entries[index];
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if (!*entry)
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goto empty_entry;
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else if (eq_fn (*entry, ptr))
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return entry;
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}
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empty_entry:
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if (!insert)
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return NULL;
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htab->n_elements++;
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return entry;
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}
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#endif /* INLINE_HASHTAB_H */
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