/* * wee-hashtable.c - implementation of hashtable * * Copyright (C) 2010-2015 Sébastien Helleu * * This file is part of WeeChat, the extensible chat client. * * WeeChat is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 3 of the License, or * (at your option) any later version. * * WeeChat is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with WeeChat. If not, see . */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include #include #include #include "weechat.h" #include "wee-hashtable.h" #include "wee-infolist.h" #include "wee-list.h" #include "wee-log.h" #include "wee-string.h" #include "../plugins/plugin.h" char *hashtable_type_string[HASHTABLE_NUM_TYPES] = { WEECHAT_HASHTABLE_INTEGER, WEECHAT_HASHTABLE_STRING, WEECHAT_HASHTABLE_POINTER, WEECHAT_HASHTABLE_BUFFER, WEECHAT_HASHTABLE_TIME }; /* * Searches for a hashtable type. * * Returns index of type in enum t_hashtable_type, -1 if type is not found. */ int hashtable_get_type (const char *type) { int i; if (!type) return -1; for (i = 0; i < HASHTABLE_NUM_TYPES; i++) { if (string_strcasecmp (hashtable_type_string[i], type) == 0) return i; } /* type not found */ return -1; } /* * Hashes a string using a variant of djb2 hash. * * Returns the hash of the string. */ unsigned long long hashtable_hash_key_djb2 (const char *string) { unsigned long long hash; const char *ptr_string; hash = 5381; for (ptr_string = string; ptr_string[0]; ptr_string++) { hash ^= (hash << 5) + (hash >> 2) + (int)(ptr_string[0]); } return hash; } /* * Hashes a key (default callback). * * Returns the hash of the key, depending on the type. */ unsigned long long hashtable_hash_key_default_cb (struct t_hashtable *hashtable, const void *key) { unsigned long long hash; hash = 0; switch (hashtable->type_keys) { case HASHTABLE_INTEGER: hash = (unsigned long long)(*((int *)key)); break; case HASHTABLE_STRING: hash = hashtable_hash_key_djb2 ((const char *)key); break; case HASHTABLE_POINTER: hash = (unsigned long long)((unsigned long)((void *)key)); break; case HASHTABLE_BUFFER: break; case HASHTABLE_TIME: hash = (unsigned long long)(*((time_t *)key)); break; case HASHTABLE_NUM_TYPES: break; } return hash; } /* * Compares two keys (default callback). * * Returns: * < 0: key1 < key2 * 0: key1 == key2 * > 0: key1 > key2 */ int hashtable_keycmp_default_cb (struct t_hashtable *hashtable, const void *key1, const void *key2) { int rc; /* make C compiler happy */ (void) hashtable; rc = 0; switch (hashtable->type_keys) { case HASHTABLE_INTEGER: if (*((int *)key1) < *((int *)key2)) rc = -1; else if (*((int *)key1) > *((int *)key2)) rc = 1; break; case HASHTABLE_STRING: rc = strcmp ((const char *)key1, (const char *)key2); break; case HASHTABLE_POINTER: if (key1 < key2) rc = -1; else if (key1 > key2) rc = 1; break; case HASHTABLE_BUFFER: break; case HASHTABLE_TIME: if (*((time_t *)key1) < *((time_t *)key2)) rc = -1; else if (*((time_t *)key1) > *((time_t *)key2)) rc = 1; break; case HASHTABLE_NUM_TYPES: break; } return rc; } /* * Creates a new hashtable. * * The size is NOT a limit for number of items in hashtable. It is the size of * internal array to store hashed keys: a high value uses more memory, but has * better performance because this reduces the collisions of hashed keys and * then reduces length of linked lists. * * Returns pointer to new hashtable, NULL if error. */ struct t_hashtable * hashtable_new (int size, const char *type_keys, const char *type_values, t_hashtable_hash_key *callback_hash_key, t_hashtable_keycmp *callback_keycmp) { struct t_hashtable *new_hashtable; int i, type_keys_int, type_values_int; if (size <= 0) return NULL; type_keys_int = hashtable_get_type (type_keys); if (type_keys_int < 0) return NULL; type_values_int = hashtable_get_type (type_values); if (type_values_int < 0) return NULL; /* the two callbacks are mandatory if type of keys is "buffer" */ if ((type_keys_int == HASHTABLE_BUFFER) && (!callback_hash_key || !callback_keycmp)) return NULL; new_hashtable = malloc (sizeof (*new_hashtable)); if (new_hashtable) { new_hashtable->size = size; new_hashtable->type_keys = type_keys_int; new_hashtable->type_values = type_values_int; new_hashtable->htable = malloc (size * sizeof (*(new_hashtable->htable))); new_hashtable->keys_values = NULL; if (!new_hashtable->htable) { free (new_hashtable); return NULL; } for (i = 0; i < size; i++) { new_hashtable->htable[i] = NULL; } new_hashtable->items_count = 0; new_hashtable->callback_hash_key = (callback_hash_key) ? callback_hash_key : &hashtable_hash_key_default_cb; new_hashtable->callback_keycmp = (callback_keycmp) ? callback_keycmp : &hashtable_keycmp_default_cb; new_hashtable->callback_free_key = NULL; new_hashtable->callback_free_value = NULL; } return new_hashtable; } /* * Allocates space for a key or value. */ void hashtable_alloc_type (enum t_hashtable_type type, const void *value, int size_value, void **pointer, int *size) { switch (type) { case HASHTABLE_INTEGER: if (value) { *pointer = malloc (sizeof (int)); if (*pointer) *((int *)(*pointer)) = *((int *)value); } else *pointer = NULL; *size = (*pointer) ? sizeof (int) : 0; break; case HASHTABLE_STRING: *pointer = (value) ? strdup ((const char *)value) : NULL; *size = (*pointer) ? strlen (*pointer) + 1 : 0; break; case HASHTABLE_POINTER: *pointer = (void *)value; *size = sizeof (void *); break; case HASHTABLE_BUFFER: if (value && (size_value > 0)) { *pointer = malloc (size_value); if (*pointer) memcpy (*pointer, value, size_value); } else *pointer = NULL; *size = (*pointer) ? size_value : 0; break; case HASHTABLE_TIME: if (value) { *pointer = malloc (sizeof (time_t)); if (*pointer) *((time_t *)(*pointer)) = *((time_t *)value); } else *pointer = NULL; *size = (*pointer) ? sizeof (time_t) : 0; break; case HASHTABLE_NUM_TYPES: break; } } /* * Frees space used by a key. */ void hashtable_free_key (struct t_hashtable *hashtable, struct t_hashtable_item *item) { if (hashtable->callback_free_key) { (void) (hashtable->callback_free_key) (hashtable, item->key); } else { switch (hashtable->type_keys) { case HASHTABLE_INTEGER: case HASHTABLE_STRING: case HASHTABLE_BUFFER: case HASHTABLE_TIME: if (item->key) free (item->key); break; case HASHTABLE_POINTER: break; case HASHTABLE_NUM_TYPES: break; } } } /* * Frees space used by a value. */ void hashtable_free_value (struct t_hashtable *hashtable, struct t_hashtable_item *item) { if (hashtable->callback_free_value) { (void) (hashtable->callback_free_value) (hashtable, item->key, item->value); } else { switch (hashtable->type_values) { case HASHTABLE_INTEGER: case HASHTABLE_STRING: case HASHTABLE_BUFFER: case HASHTABLE_TIME: if (item->value) free (item->value); break; case HASHTABLE_POINTER: break; case HASHTABLE_NUM_TYPES: break; } } } /* * Sets value for a key in hashtable. * * The size arguments are used only for type "buffer". * * Returns pointer to item created/updated, NULL if error. */ struct t_hashtable_item * hashtable_set_with_size (struct t_hashtable *hashtable, const void *key, int key_size, const void *value, int value_size) { unsigned long long hash; struct t_hashtable_item *ptr_item, *pos_item, *new_item; if (!hashtable || !key || ((hashtable->type_keys == HASHTABLE_BUFFER) && (key_size <= 0)) || ((hashtable->type_values == HASHTABLE_BUFFER) && (value_size <= 0))) { return NULL; } /* search position for item in hashtable */ hash = hashtable->callback_hash_key (hashtable, key) % hashtable->size; pos_item = NULL; for (ptr_item = hashtable->htable[hash]; ptr_item && ((int)(hashtable->callback_keycmp) (hashtable, key, ptr_item->key) > 0); ptr_item = ptr_item->next_item) { pos_item = ptr_item; } /* replace value if item is already in hashtable */ if (ptr_item && (hashtable->callback_keycmp (hashtable, key, ptr_item->key) == 0)) { hashtable_free_value (hashtable, ptr_item); hashtable_alloc_type (hashtable->type_values, value, value_size, &ptr_item->value, &ptr_item->value_size); return ptr_item; } /* create new item */ new_item = malloc (sizeof (*new_item)); if (!new_item) return NULL; /* set key and value */ hashtable_alloc_type (hashtable->type_keys, key, key_size, &new_item->key, &new_item->key_size); hashtable_alloc_type (hashtable->type_values, value, value_size, &new_item->value, &new_item->value_size); /* add item */ if (pos_item) { /* insert item after position found */ new_item->prev_item = pos_item; new_item->next_item = pos_item->next_item; if (pos_item->next_item) (pos_item->next_item)->prev_item = new_item; pos_item->next_item = new_item; } else { /* insert item at beginning of list */ new_item->prev_item = NULL; new_item->next_item = hashtable->htable[hash]; if (hashtable->htable[hash]) (hashtable->htable[hash])->prev_item = new_item; hashtable->htable[hash] = new_item; } hashtable->items_count++; return new_item; } /* * Sets value for a key in hashtable. * * Note: this function can be called *only* if key AND value are *not* of type * "buffer". * * Returns pointer to item created/updated, NULL if error. */ struct t_hashtable_item * hashtable_set (struct t_hashtable *hashtable, const void *key, const void *value) { return hashtable_set_with_size (hashtable, key, 0, value, 0); } /* * Searches for an item in hashtable. * * If hash is non NULL, then it is set with hash value of key (even if key is * not found). */ struct t_hashtable_item * hashtable_get_item (struct t_hashtable *hashtable, const void *key, unsigned long long *hash) { unsigned long long key_hash; struct t_hashtable_item *ptr_item; if (!hashtable || !key) return NULL; key_hash = hashtable->callback_hash_key (hashtable, key) % hashtable->size; if (hash) *hash = key_hash; for (ptr_item = hashtable->htable[key_hash]; ptr_item && hashtable->callback_keycmp (hashtable, key, ptr_item->key) > 0; ptr_item = ptr_item->next_item) { } if (ptr_item && (hashtable->callback_keycmp (hashtable, key, ptr_item->key) == 0)) { return ptr_item; } return NULL; } /* * Gets value for a key in hashtable. * * Returns pointer to value for key, NULL if key is not found. */ void * hashtable_get (struct t_hashtable *hashtable, const void *key) { struct t_hashtable_item *ptr_item; ptr_item = hashtable_get_item (hashtable, key, NULL); return (ptr_item) ? ptr_item->value : NULL; } /* * Checks if a key exists in the hashtable. * * Returns: * 1: key exists * 0: key does not exist */ int hashtable_has_key (struct t_hashtable *hashtable, const void *key) { return (hashtable_get_item (hashtable, key, NULL) != NULL) ? 1 : 0; } /* * Converts a value (from any type) to a string. * * Returns pointer to a static buffer (for type string, returns pointer to * string itself), which must be used immediately, it is overwritten by * subsequent calls to this function. */ const char * hashtable_to_string (enum t_hashtable_type type, const void *value) { static char str_value[128]; switch (type) { case HASHTABLE_INTEGER: snprintf (str_value, sizeof (str_value), "%d", *((int *)value)); return str_value; break; case HASHTABLE_STRING: return (const char *)value; break; case HASHTABLE_POINTER: case HASHTABLE_BUFFER: snprintf (str_value, sizeof (str_value), "0x%lx", (long unsigned int)value); return str_value; break; case HASHTABLE_TIME: snprintf (str_value, sizeof (str_value), "%ld", (long)(*((time_t *)value))); return str_value; break; case HASHTABLE_NUM_TYPES: break; } return NULL; } /* * Calls a function on all hashtable entries. */ void hashtable_map (struct t_hashtable *hashtable, t_hashtable_map *callback_map, void *callback_map_data) { int i; struct t_hashtable_item *ptr_item, *ptr_next_item; if (!hashtable) return; for (i = 0; i < hashtable->size; i++) { ptr_item = hashtable->htable[i]; while (ptr_item) { ptr_next_item = ptr_item->next_item; (void) (callback_map) (callback_map_data, hashtable, ptr_item->key, ptr_item->value); ptr_item = ptr_next_item; } } } /* * Calls a function on all hashtable entries (sends keys and values as strings). */ void hashtable_map_string (struct t_hashtable *hashtable, t_hashtable_map_string *callback_map, void *callback_map_data) { int i; struct t_hashtable_item *ptr_item, *ptr_next_item; const char *str_key, *str_value; char *key, *value; if (!hashtable) return; for (i = 0; i < hashtable->size; i++) { ptr_item = hashtable->htable[i]; while (ptr_item) { ptr_next_item = ptr_item->next_item; str_key = hashtable_to_string (hashtable->type_keys, ptr_item->key); key = (str_key) ? strdup (str_key) : NULL; str_value = hashtable_to_string (hashtable->type_values, ptr_item->value); value = (str_value) ? strdup (str_value) : NULL; (void) (callback_map) (callback_map_data, hashtable, key, value); if (key) free (key); if (value) free (value); ptr_item = ptr_next_item; } } } /* * Duplicates key/value in another hashtable (callback called for each variable * in hashtable). */ void hashtable_duplicate_map_cb (void *data, struct t_hashtable *hashtable, const void *key, const void *value) { struct t_hashtable *hashtable2; /* make C compiler happy */ (void) hashtable; hashtable2 = (struct t_hashtable *)data; if (hashtable2) hashtable_set (hashtable2, key, value); } /* * Duplicates a hashtable. * * Returns pointer to new hashtable, NULL if error. */ struct t_hashtable * hashtable_dup (struct t_hashtable *hashtable) { struct t_hashtable *new_hashtable; new_hashtable = hashtable_new (hashtable->size, hashtable_type_string[hashtable->type_keys], hashtable_type_string[hashtable->type_values], hashtable->callback_hash_key, hashtable->callback_keycmp); if (new_hashtable) { new_hashtable->callback_free_key = hashtable->callback_free_key; new_hashtable->callback_free_value = hashtable->callback_free_value; hashtable_map (hashtable, &hashtable_duplicate_map_cb, new_hashtable); } return new_hashtable; } /* * Builds sorted list of keys (callback called for each variable in hashtable). */ void hashtable_get_list_keys_map_cb (void *data, struct t_hashtable *hashtable, const void *key, const void *value) { struct t_weelist *list; /* make C compiler happy */ (void) hashtable; (void) value; list = (struct t_weelist *)data; weelist_add (list, hashtable_to_string (hashtable->type_keys, key), WEECHAT_LIST_POS_SORT, NULL); } /* * Gets list with sorted keys of hashtable. * * Note: list must be freed after use. */ struct t_weelist * hashtable_get_list_keys (struct t_hashtable *hashtable) { struct t_weelist *weelist; weelist = weelist_new (); if (weelist) hashtable_map (hashtable, &hashtable_get_list_keys_map_cb, weelist); return weelist; } /* * Gets a hashtable property as integer. */ int hashtable_get_integer (struct t_hashtable *hashtable, const char *property) { if (hashtable && property) { if (string_strcasecmp (property, "size") == 0) return hashtable->size; else if (string_strcasecmp (property, "items_count") == 0) return hashtable->items_count; } return 0; } /* * Computes length of all keys (callback called for each variable in hashtable). */ void hashtable_compute_length_keys_cb (void *data, struct t_hashtable *hashtable, const void *key, const void *value) { const char *str_key; int *length; /* make C compiler happy */ (void) value; length = (int *)data; str_key = hashtable_to_string (hashtable->type_keys, key); if (str_key) *length += strlen (str_key) + 1; } /* * Computes length of all values (callback called for each variable in * hashtable). */ void hashtable_compute_length_values_cb (void *data, struct t_hashtable *hashtable, const void *key, const void *value) { const char *str_value; int *length; /* make C compiler happy */ (void) key; length = (int *)data; if (value) { str_value = hashtable_to_string (hashtable->type_values, value); if (str_value) *length += strlen (str_value) + 1; } else { *length += strlen ("(null)") + 1; } } /* * Computes length of all keys + values (callback called for each variable in * hashtable). */ void hashtable_compute_length_keys_values_cb (void *data, struct t_hashtable *hashtable, const void *key, const void *value) { hashtable_compute_length_keys_cb (data, hashtable, key, value); hashtable_compute_length_values_cb (data, hashtable, key, value); } /* * Builds a string with all keys (callback called for each variable in * hashtable). */ void hashtable_build_string_keys_cb (void *data, struct t_hashtable *hashtable, const void *key, const void *value) { const char *str_key; char *str; /* make C compiler happy */ (void) value; str = (char *)data; if (str[0]) strcat (str, ","); str_key = hashtable_to_string (hashtable->type_keys, key); if (str_key) strcat (str, str_key); } /* * Builds a string with all values (callback called for each variable in * hashtable). */ void hashtable_build_string_values_cb (void *data, struct t_hashtable *hashtable, const void *key, const void *value) { const char *str_value; char *str; /* make C compiler happy */ (void) key; str = (char *)data; if (str[0]) strcat (str, ","); if (value) { str_value = hashtable_to_string (hashtable->type_values, value); if (str_value) strcat (str, str_value); } else { strcat (str, "(null)"); } } /* * Builds a string with all keys + values (callback called for each variable in * hashtable). */ void hashtable_build_string_keys_values_cb (void *data, struct t_hashtable *hashtable, const void *key, const void *value) { const char *str_key, *str_value; char *str; str = (char *)data; if (str[0]) strcat (str, ","); str_key = hashtable_to_string (hashtable->type_keys, key); if (str_key) strcat (str, str_key); strcat (str, ":"); if (value) { str_value = hashtable_to_string (hashtable->type_values, value); if (str_value) strcat (str, str_value); } else { strcat (str, "(null)"); } } /* * Gets keys and/or values of hashtable as string. * * Returns a string with one of these formats: * if keys == 1 and values == 0: "key1,key2,key3" * if keys == 0 and values == 1: "value1,value2,value3" * if keys == 1 and values == 1: "key1:value1,key2:value2,key3:value3" */ const char * hashtable_get_keys_values (struct t_hashtable *hashtable, int keys, int sort_keys, int values) { int length; struct t_weelist *list_keys; struct t_weelist_item *ptr_item; if (hashtable->keys_values) { free (hashtable->keys_values); hashtable->keys_values = NULL; } /* first compute length of string */ length = 0; hashtable_map (hashtable, (keys && values) ? &hashtable_compute_length_keys_values_cb : ((keys) ? &hashtable_compute_length_keys_cb : &hashtable_compute_length_values_cb), &length); if (length == 0) return hashtable->keys_values; /* build string */ hashtable->keys_values = malloc (length + 1); if (!hashtable->keys_values) return NULL; hashtable->keys_values[0] = '\0'; if (keys && sort_keys) { list_keys = hashtable_get_list_keys (hashtable); if (list_keys) { for (ptr_item = list_keys->items; ptr_item; ptr_item = ptr_item->next_item) { if (values) { hashtable_build_string_keys_values_cb (hashtable->keys_values, hashtable, ptr_item->data, hashtable_get (hashtable, ptr_item->data)); } else { hashtable_build_string_keys_cb (hashtable->keys_values, hashtable, ptr_item->data, NULL); } } weelist_free (list_keys); } } else { hashtable_map (hashtable, (keys && values) ? &hashtable_build_string_keys_values_cb : ((keys) ? &hashtable_build_string_keys_cb : &hashtable_build_string_values_cb), hashtable->keys_values); } return hashtable->keys_values; } /* * Gets a hashtable property as string. */ const char * hashtable_get_string (struct t_hashtable *hashtable, const char *property) { if (hashtable && property) { if (string_strcasecmp (property, "type_keys") == 0) return hashtable_type_string[hashtable->type_keys]; else if (string_strcasecmp (property, "type_values") == 0) return hashtable_type_string[hashtable->type_values]; else if (string_strcasecmp (property, "keys") == 0) return hashtable_get_keys_values (hashtable, 1, 0, 0); else if (string_strcasecmp (property, "keys_sorted") == 0) return hashtable_get_keys_values (hashtable, 1, 1, 0); else if (string_strcasecmp (property, "values") == 0) return hashtable_get_keys_values (hashtable, 0, 0, 1); else if (string_strcasecmp (property, "keys_values") == 0) return hashtable_get_keys_values (hashtable, 1, 0, 1); else if (string_strcasecmp (property, "keys_values_sorted") == 0) return hashtable_get_keys_values (hashtable, 1, 1, 1); } return NULL; } /* * Sets a hashtable property (pointer). */ void hashtable_set_pointer (struct t_hashtable *hashtable, const char *property, void *pointer) { if (hashtable && property) { if (string_strcasecmp (property, "callback_free_key") == 0) hashtable->callback_free_key = pointer; else if (string_strcasecmp (property, "callback_free_value") == 0) hashtable->callback_free_value = pointer; } } /* * Adds hashtable keys and values in an infolist. * * Returns: * 1: OK * 0: error */ int hashtable_add_to_infolist (struct t_hashtable *hashtable, struct t_infolist_item *infolist_item, const char *prefix) { int i, item_number; struct t_hashtable_item *ptr_item; char option_name[128]; if (!hashtable || !infolist_item || !prefix) return 0; item_number = 0; for (i = 0; i < hashtable->size; i++) { for (ptr_item = hashtable->htable[i]; ptr_item; ptr_item = ptr_item->next_item) { snprintf (option_name, sizeof (option_name), "%s_name_%05d", prefix, item_number); if (!infolist_new_var_string (infolist_item, option_name, hashtable_to_string (hashtable->type_keys, ptr_item->key))) return 0; snprintf (option_name, sizeof (option_name), "%s_value_%05d", prefix, item_number); switch (hashtable->type_values) { case HASHTABLE_INTEGER: if (!infolist_new_var_integer (infolist_item, option_name, *((int *)ptr_item->value))) return 0; break; case HASHTABLE_STRING: if (!infolist_new_var_string (infolist_item, option_name, (const char *)ptr_item->value)) return 0; break; case HASHTABLE_POINTER: if (!infolist_new_var_pointer (infolist_item, option_name, ptr_item->value)) return 0; break; case HASHTABLE_BUFFER: if (!infolist_new_var_buffer (infolist_item, option_name, ptr_item->value, ptr_item->value_size)) return 0; break; case HASHTABLE_TIME: if (!infolist_new_var_time (infolist_item, option_name, *((time_t *)ptr_item->value))) return 0; break; case HASHTABLE_NUM_TYPES: break; } item_number++; } } return 1; } /* * Removes an item from hashtable. */ void hashtable_remove_item (struct t_hashtable *hashtable, struct t_hashtable_item *item, unsigned long long hash) { if (!hashtable || !item) return; /* free key and value */ hashtable_free_value (hashtable, item); hashtable_free_key (hashtable, item); /* remove item from list */ if (item->prev_item) (item->prev_item)->next_item = item->next_item; if (item->next_item) (item->next_item)->prev_item = item->prev_item; if (hashtable->htable[hash] == item) hashtable->htable[hash] = item->next_item; free (item); hashtable->items_count--; } /* * Removes an item from hashtable (searches it with key). */ void hashtable_remove (struct t_hashtable *hashtable, const void *key) { struct t_hashtable_item *ptr_item; unsigned long long hash; if (!hashtable || !key) return; ptr_item = hashtable_get_item (hashtable, key, &hash); if (ptr_item) hashtable_remove_item (hashtable, ptr_item, hash); } /* * Removes all items from hashtable. */ void hashtable_remove_all (struct t_hashtable *hashtable) { int i; if (!hashtable) return; for (i = 0; i < hashtable->size; i++) { while (hashtable->htable[i]) { hashtable_remove_item (hashtable, hashtable->htable[i], i); } } } /* * Frees a hashtable: removes all items and frees hashtable. */ void hashtable_free (struct t_hashtable *hashtable) { if (!hashtable) return; hashtable_remove_all (hashtable); free (hashtable->htable); if (hashtable->keys_values) free (hashtable->keys_values); free (hashtable); } /* * Prints hashtable in WeeChat log file (usually for crash dump). */ void hashtable_print_log (struct t_hashtable *hashtable, const char *name) { struct t_hashtable_item *ptr_item; int i; log_printf (""); log_printf ("[hashtable %s (addr:0x%lx)]", name, hashtable); log_printf (" size . . . . . . . . . : %d", hashtable->size); log_printf (" htable . . . . . . . . : 0x%lx", hashtable->htable); log_printf (" items_count. . . . . . : %d", hashtable->items_count); log_printf (" type_keys. . . . . . . : %d (%s)", hashtable->type_keys, hashtable_type_string[hashtable->type_keys]); log_printf (" type_values. . . . . . : %d (%s)", hashtable->type_values, hashtable_type_string[hashtable->type_values]); log_printf (" callback_hash_key. . . : 0x%lx", hashtable->callback_hash_key); log_printf (" callback_keycmp. . . . : 0x%lx", hashtable->callback_keycmp); log_printf (" callback_free_key. . . : 0x%lx", hashtable->callback_free_key); log_printf (" callback_free_value. . : 0x%lx", hashtable->callback_free_value); log_printf (" keys_values. . . . . . : '%s'", hashtable->keys_values); for (i = 0; i < hashtable->size; i++) { log_printf (" htable[%06d] . . . . : 0x%lx", i, hashtable->htable[i]); for (ptr_item = hashtable->htable[i]; ptr_item; ptr_item = ptr_item->next_item) { log_printf (" [item 0x%lx]", hashtable->htable); switch (hashtable->type_keys) { case HASHTABLE_INTEGER: log_printf (" key (integer). . . : %d", *((int *)ptr_item->key)); break; case HASHTABLE_STRING: log_printf (" key (string) . . . : '%s'", (char *)ptr_item->key); break; case HASHTABLE_POINTER: log_printf (" key (pointer). . . : 0x%lx", ptr_item->key); break; case HASHTABLE_BUFFER: log_printf (" key (buffer) . . . : 0x%lx", ptr_item->key); break; case HASHTABLE_TIME: log_printf (" key (time) . . . . : %ld", *((time_t *)ptr_item->key)); break; case HASHTABLE_NUM_TYPES: break; } log_printf (" key_size . . . . . : %d", ptr_item->key_size); switch (hashtable->type_values) { case HASHTABLE_INTEGER: log_printf (" value (integer). . : %d", *((int *)ptr_item->value)); break; case HASHTABLE_STRING: log_printf (" value (string) . . : '%s'", (char *)ptr_item->value); break; case HASHTABLE_POINTER: log_printf (" value (pointer). . : 0x%lx", ptr_item->value); break; case HASHTABLE_BUFFER: log_printf (" value (buffer) . . : 0x%lx", ptr_item->value); break; case HASHTABLE_TIME: log_printf (" value (time) . . . : %d", *((time_t *)ptr_item->value)); break; case HASHTABLE_NUM_TYPES: break; } log_printf (" value_size . . . . : %d", ptr_item->value_size); log_printf (" prev_item. . . . . : 0x%lx", ptr_item->prev_item); log_printf (" next_item. . . . . : 0x%lx", ptr_item->next_item); } } }