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1820745a0a
When a ctf_dynhash_insert() finds a slot already existing, it should call the key and value free functions on the existing key and value and move the passed-in key into place, so that the lifetime rules for hash keys are always the same no matter whether the key existed or not but neither are the keys or values leaked. New in v3. v5: fix tabdamage. libctf/ * ctf-hash.c (ctf_hashtab_insert): Pass in the key and value freeing functions: if set, free the key and value if the slot already exists. Always reassign the key. (ctf_dynhash_insert): Adjust call appropriately. (ctf_hash_insert_type): Likewise.
368 lines
8.9 KiB
C
368 lines
8.9 KiB
C
/* Interface to hashtable implementations.
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Copyright (C) 2006-2019 Free Software Foundation, Inc.
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This file is part of libctf.
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libctf is free software; you can redistribute it and/or modify it under
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the terms of the GNU General Public License as published by the Free
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Software Foundation; either version 3, or (at your option) any later
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version.
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This program is distributed in the hope that it will be useful, but
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WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
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See the GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; see the file COPYING. If not see
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<http://www.gnu.org/licenses/>. */
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#include <ctf-impl.h>
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#include <string.h>
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#include "libiberty.h"
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#include "hashtab.h"
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/* We have two hashtable implementations: one, ctf_dynhash_*(), is an interface to
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a dynamically-expanding hash with unknown size that should support addition
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of large numbers of items, and removal as well, and is used only at
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type-insertion time; the other, ctf_dynhash_*(), is an interface to a
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fixed-size hash from const char * -> ctf_id_t with number of elements
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specified at creation time, that should support addition of items but need
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not support removal. These can be implemented by the same underlying hashmap
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if you wish. */
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typedef struct ctf_helem
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{
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void *key; /* Either a pointer, or a coerced ctf_id_t. */
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void *value; /* The value (possibly a coerced int). */
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ctf_hash_free_fun key_free;
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ctf_hash_free_fun value_free;
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} ctf_helem_t;
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struct ctf_dynhash
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{
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struct htab *htab;
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ctf_hash_free_fun key_free;
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ctf_hash_free_fun value_free;
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};
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/* Hash functions. */
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unsigned int
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ctf_hash_integer (const void *ptr)
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{
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ctf_helem_t *hep = (ctf_helem_t *) ptr;
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return htab_hash_pointer (hep->key);
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}
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int
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ctf_hash_eq_integer (const void *a, const void *b)
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{
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ctf_helem_t *hep_a = (ctf_helem_t *) a;
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ctf_helem_t *hep_b = (ctf_helem_t *) b;
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return htab_eq_pointer (hep_a->key, hep_b->key);
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}
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unsigned int
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ctf_hash_string (const void *ptr)
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{
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ctf_helem_t *hep = (ctf_helem_t *) ptr;
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return htab_hash_string (hep->key);
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}
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int
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ctf_hash_eq_string (const void *a, const void *b)
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{
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ctf_helem_t *hep_a = (ctf_helem_t *) a;
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ctf_helem_t *hep_b = (ctf_helem_t *) b;
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return !strcmp((const char *) hep_a->key, (const char *) hep_b->key);
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}
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/* Hash a type_mapping_key. */
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unsigned int
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ctf_hash_type_mapping_key (const void *ptr)
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{
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ctf_helem_t *hep = (ctf_helem_t *) ptr;
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ctf_link_type_mapping_key_t *k = (ctf_link_type_mapping_key_t *) hep->key;
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return htab_hash_pointer (k->cltm_fp) + 59 * htab_hash_pointer ((void *) k->cltm_idx);
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}
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int
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ctf_hash_eq_type_mapping_key (const void *a, const void *b)
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{
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ctf_helem_t *hep_a = (ctf_helem_t *) a;
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ctf_helem_t *hep_b = (ctf_helem_t *) b;
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ctf_link_type_mapping_key_t *key_a = (ctf_link_type_mapping_key_t *) hep_a->key;
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ctf_link_type_mapping_key_t *key_b = (ctf_link_type_mapping_key_t *) hep_b->key;
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return (key_a->cltm_fp == key_b->cltm_fp)
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&& (key_a->cltm_idx == key_b->cltm_idx);
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}
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/* The dynhash, used for hashes whose size is not known at creation time. */
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/* Free a single ctf_helem. */
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static void
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ctf_dynhash_item_free (void *item)
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{
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ctf_helem_t *helem = item;
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if (helem->key_free && helem->key)
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helem->key_free (helem->key);
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if (helem->value_free && helem->value)
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helem->value_free (helem->value);
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free (helem);
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}
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ctf_dynhash_t *
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ctf_dynhash_create (ctf_hash_fun hash_fun, ctf_hash_eq_fun eq_fun,
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ctf_hash_free_fun key_free, ctf_hash_free_fun value_free)
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{
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ctf_dynhash_t *dynhash;
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dynhash = malloc (sizeof (ctf_dynhash_t));
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if (!dynhash)
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return NULL;
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/* 7 is arbitrary and untested for now.. */
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if ((dynhash->htab = htab_create_alloc (7, (htab_hash) hash_fun, eq_fun,
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ctf_dynhash_item_free, xcalloc, free)) == NULL)
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{
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free (dynhash);
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return NULL;
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}
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dynhash->key_free = key_free;
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dynhash->value_free = value_free;
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return dynhash;
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}
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static ctf_helem_t **
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ctf_hashtab_lookup (struct htab *htab, const void *key, enum insert_option insert)
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{
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ctf_helem_t tmp = { .key = (void *) key };
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return (ctf_helem_t **) htab_find_slot (htab, &tmp, insert);
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}
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static ctf_helem_t *
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ctf_hashtab_insert (struct htab *htab, void *key, void *value,
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ctf_hash_free_fun key_free,
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ctf_hash_free_fun value_free)
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{
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ctf_helem_t **slot;
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slot = ctf_hashtab_lookup (htab, key, INSERT);
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if (!slot)
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{
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errno = -ENOMEM;
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return NULL;
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}
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if (!*slot)
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{
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*slot = malloc (sizeof (ctf_helem_t));
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if (!*slot)
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return NULL;
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}
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else
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{
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if (key_free)
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key_free ((*slot)->key);
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if (value_free)
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value_free ((*slot)->value);
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}
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(*slot)->key = key;
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(*slot)->value = value;
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return *slot;
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}
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int
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ctf_dynhash_insert (ctf_dynhash_t *hp, void *key, void *value)
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{
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ctf_helem_t *slot;
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slot = ctf_hashtab_insert (hp->htab, key, value,
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hp->key_free, hp->value_free);
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if (!slot)
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return errno;
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/* We need to keep the key_free and value_free around in each item because the
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del function has no visibility into the hash as a whole, only into the
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individual items. */
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slot->key_free = hp->key_free;
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slot->value_free = hp->value_free;
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return 0;
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}
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void
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ctf_dynhash_remove (ctf_dynhash_t *hp, const void *key)
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{
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ctf_helem_t hep = { (void *) key, NULL, NULL, NULL };
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htab_remove_elt (hp->htab, &hep);
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}
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void
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ctf_dynhash_empty (ctf_dynhash_t *hp)
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{
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htab_empty (hp->htab);
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}
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void *
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ctf_dynhash_lookup (ctf_dynhash_t *hp, const void *key)
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{
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ctf_helem_t **slot;
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slot = ctf_hashtab_lookup (hp->htab, key, NO_INSERT);
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if (slot)
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return (*slot)->value;
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return NULL;
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}
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typedef struct ctf_traverse_cb_arg
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{
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ctf_hash_iter_f fun;
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void *arg;
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} ctf_traverse_cb_arg_t;
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static int
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ctf_hashtab_traverse (void **slot, void *arg_)
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{
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ctf_helem_t *helem = *((ctf_helem_t **) slot);
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ctf_traverse_cb_arg_t *arg = (ctf_traverse_cb_arg_t *) arg_;
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arg->fun (helem->key, helem->value, arg->arg);
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return 1;
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}
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void
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ctf_dynhash_iter (ctf_dynhash_t *hp, ctf_hash_iter_f fun, void *arg_)
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{
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ctf_traverse_cb_arg_t arg = { fun, arg_ };
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htab_traverse (hp->htab, ctf_hashtab_traverse, &arg);
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}
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typedef struct ctf_traverse_remove_cb_arg
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{
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struct htab *htab;
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ctf_hash_iter_remove_f fun;
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void *arg;
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} ctf_traverse_remove_cb_arg_t;
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static int
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ctf_hashtab_traverse_remove (void **slot, void *arg_)
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{
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ctf_helem_t *helem = *((ctf_helem_t **) slot);
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ctf_traverse_remove_cb_arg_t *arg = (ctf_traverse_remove_cb_arg_t *) arg_;
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if (arg->fun (helem->key, helem->value, arg->arg))
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htab_clear_slot (arg->htab, slot);
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return 1;
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}
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void
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ctf_dynhash_iter_remove (ctf_dynhash_t *hp, ctf_hash_iter_remove_f fun,
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void *arg_)
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{
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ctf_traverse_remove_cb_arg_t arg = { hp->htab, fun, arg_ };
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htab_traverse (hp->htab, ctf_hashtab_traverse_remove, &arg);
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}
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void
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ctf_dynhash_destroy (ctf_dynhash_t *hp)
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{
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if (hp != NULL)
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htab_delete (hp->htab);
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free (hp);
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}
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/* ctf_hash, used for fixed-size maps from const char * -> ctf_id_t without
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removal. This is a straight cast of a hashtab. */
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ctf_hash_t *
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ctf_hash_create (unsigned long nelems, ctf_hash_fun hash_fun,
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ctf_hash_eq_fun eq_fun)
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{
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return (ctf_hash_t *) htab_create_alloc (nelems, (htab_hash) hash_fun,
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eq_fun, free, xcalloc, free);
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}
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uint32_t
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ctf_hash_size (const ctf_hash_t *hp)
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{
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return htab_elements ((struct htab *) hp);
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}
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int
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ctf_hash_insert_type (ctf_hash_t *hp, ctf_file_t *fp, uint32_t type,
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uint32_t name)
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{
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const char *str = ctf_strraw (fp, name);
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if (type == 0)
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return EINVAL;
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if (str == NULL
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&& CTF_NAME_STID (name) == CTF_STRTAB_1
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&& fp->ctf_syn_ext_strtab == NULL
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&& fp->ctf_str[CTF_NAME_STID (name)].cts_strs == NULL)
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return ECTF_STRTAB;
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if (str == NULL)
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return ECTF_BADNAME;
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if (str[0] == '\0')
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return 0; /* Just ignore empty strings on behalf of caller. */
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if (ctf_hashtab_insert ((struct htab *) hp, (char *) str,
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(void *) (ptrdiff_t) type, NULL, NULL) != NULL)
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return 0;
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return errno;
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}
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/* if the key is already in the hash, override the previous definition with
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this new official definition. If the key is not present, then call
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ctf_hash_insert_type() and hash it in. */
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int
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ctf_hash_define_type (ctf_hash_t *hp, ctf_file_t *fp, uint32_t type,
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uint32_t name)
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{
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/* This matches the semantics of ctf_hash_insert_type() in this
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implementation anyway. */
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return ctf_hash_insert_type (hp, fp, type, name);
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}
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ctf_id_t
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ctf_hash_lookup_type (ctf_hash_t *hp, ctf_file_t *fp __attribute__ ((__unused__)),
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const char *key)
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{
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ctf_helem_t **slot;
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slot = ctf_hashtab_lookup ((struct htab *) hp, key, NO_INSERT);
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if (slot)
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return (ctf_id_t) ((*slot)->value);
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return 0;
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}
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void
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ctf_hash_destroy (ctf_hash_t *hp)
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{
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if (hp != NULL)
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htab_delete ((struct htab *) hp);
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}
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