487 lines
13 KiB
C
487 lines
13 KiB
C
#include "evas_common.h"
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#include "evas_private.h"
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static inline int _evas_hash_gen(const char *key);
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static int _evas_hash_alloc_error = 0;
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static inline int
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_evas_hash_gen(const char *key)
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{
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unsigned int hash_num = 5381;
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const unsigned char *ptr;
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if (!key) return 0;
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for (ptr = (unsigned char *)key; *ptr; ptr++)
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hash_num = (hash_num * 33) ^ *ptr;
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hash_num &= 0xff;
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return (int)hash_num;
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}
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/**
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* @defgroup Evas_Hash_Data Hash Data Functions
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*
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* Functions that add, access or remove data from hashes.
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*
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* The following example shows how to add and then access data in a
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* hash table:
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* @code
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* Evas_Hash *hash = NULL;
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* extern void *my_data;
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*
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* hash = evas_hash_add(hash, "My Data", my_data);
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* if (evas_hash_alloc_error())
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* {
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* fprintf(stderr, "ERROR: Memory is low. Hash allocation failed.\n");
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* exit(-1);
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* }
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* if (evas_hash_find(hash, "My Data") == my_data)
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* {
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* printf("My Data inserted and successfully found.\n");
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* }
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* @endcode
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*
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* What follows is another example, showing how the @ref evas_hash_del
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* function is used:
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* @code
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* extern Evas_Hash *hash;
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* extern void *data;
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*
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* printf("Insert some data...\n");
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* hash = evas_hash_add(hash, "My Data", my_data);
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* printf("Removing by key...\n");
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* hash = evas_hash_del(hash, "My Data", NULL);
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* printf("Insert some more data as a NULL key...\n");
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* hash = evas_hash_add(hash, NULL, my_data);
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* printf("Removing by data as a NULL key...\n");
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* hash = evas_hash_del(hash, NULL, my_data);
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* @endcode
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*/
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/**
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* Adds an entry to the given hash table.
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*
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* @p key is expected to be a unique string within the hash table.
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* Otherwise, you cannot be sure which inserted data pointer will be
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* accessed with @ref evas_hash_find , and removed with
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* @ref evas_hash_del .
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*
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* Key strings are case sensitive.
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*
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* @ref evas_hash_alloc_error should be used to determine if an
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* allocation error occurred during this function.
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*
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* @param hash The given hash table. Can be @c NULL, in which case a
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* new hash table is allocated and returned.
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* @param key A unique string. Can be @c NULL.
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* @param data Data to associate with the string given by @p key.
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* @return Either the given hash table, or if the given value for @p
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* hash is @c NULL, then a new one. @c NULL will be returned
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* if memory could not be allocated for a new table.
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* @ingroup Evas_Hash_Data
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*/
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EAPI Evas_Hash *
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evas_hash_add(Evas_Hash *hash, const char *key, const void *data)
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{
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int hash_num;
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Evas_Hash_El *el;
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if ((!key) || (!data)) return hash;
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_evas_hash_alloc_error = 0;
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if (!hash)
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{
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hash = calloc(1, sizeof(struct _Evas_Hash));
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if (!hash)
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{
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_evas_hash_alloc_error = 1;
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return NULL;
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}
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}
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if (!(el = malloc(sizeof(struct _Evas_Hash_El) + strlen(key) + 1)))
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{
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if (hash->population <= 0)
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{
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free(hash);
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hash = NULL;
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}
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_evas_hash_alloc_error = 1;
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return hash;
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};
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el->key = ((char *)el) + sizeof(struct _Evas_Hash_El);
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strcpy(el->key, key);
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el->data = (void *)data;
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hash_num = _evas_hash_gen(key);
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hash->buckets[hash_num] = evas_object_list_prepend(hash->buckets[hash_num], el);
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if (evas_list_alloc_error())
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{
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_evas_hash_alloc_error = 1;
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free(el);
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return hash;
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}
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hash->population++;
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return hash;
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}
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/**
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* Adds an entry to the given hash table and does not duplicate the string key.
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*
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* @p key is expected to be a unique string within the hash table.
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* Otherwise, you cannot be sure which inserted data pointer will be
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* accessed with @ref evas_hash_find , and removed with
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* @ref evas_hash_del . This call does nto make a copy of the key so it must
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* be a string constant or stored elsewhere (in the object being added) etc.
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*
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* Key strings are case sensitive.
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*
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* @ref evas_hash_alloc_error should be used to determine if an
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* allocation error occurred during this function.
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*
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* @param hash The given hash table. Can be @c NULL, in which case a
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* new hash table is allocated and returned.
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* @param key A unique string. Can be @c NULL.
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* @param data Data to associate with the string given by @p key.
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* @return Either the given hash table, or if the given value for @p
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* hash is @c NULL, then a new one. @c NULL will be returned
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* if memory could not be allocated for a new table.
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* @ingroup Evas_Hash_Data
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*/
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EAPI Evas_Hash *
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evas_hash_direct_add(Evas_Hash *hash, const char *key, const void *data)
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{
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int hash_num;
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Evas_Hash_El *el;
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if ((!key) || (!data)) return hash;
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_evas_hash_alloc_error = 0;
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if (!hash)
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{
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hash = calloc(1, sizeof(struct _Evas_Hash));
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if (!hash)
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{
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_evas_hash_alloc_error = 1;
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return NULL;
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}
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}
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if (!(el = malloc(sizeof(struct _Evas_Hash_El))))
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{
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if (hash->population <= 0)
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{
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free(hash);
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hash = NULL;
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}
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_evas_hash_alloc_error = 1;
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return hash;
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};
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el->key = key;
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el->data = (void *)data;
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hash_num = _evas_hash_gen(key);
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hash->buckets[hash_num] = evas_object_list_prepend(hash->buckets[hash_num], el);
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if (evas_list_alloc_error())
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{
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_evas_hash_alloc_error = 1;
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free(el);
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return hash;
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}
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hash->population++;
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return hash;
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}
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/**
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* Removes the entry identified by @p key or @p data from the given
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* hash table.
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*
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* If @p key is @c NULL, then @p data is used to find a match to
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* remove.
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*
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* @param hash The given hash table.
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* @param key The key string. Can be @c NULL.
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* @param data The data pointer to remove if @p key is @c NULL.
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* Otherwise, not required and can be @c NULL.
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* @return The modified hash table. If there are no entries left, the
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* hash table will be freed and @c NULL will be returned.
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* @ingroup Evas_Hash_Data
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*/
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EAPI Evas_Hash *
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evas_hash_del(Evas_Hash *hash, const char *key, const void *data)
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{
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int hash_num;
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Evas_Hash_El *el;
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Evas_Object_List *l;
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if (!hash) return NULL;
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if (!key)
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{
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int hash_num;
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for (hash_num = 0; hash_num < 256; hash_num++)
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{
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for (l = hash->buckets[hash_num]; l; l = l->next)
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{
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el = (Evas_Hash_El *)l;
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if (el->data == data)
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{
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hash->buckets[hash_num] = evas_object_list_remove(hash->buckets[hash_num], el);
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free(el);
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hash->population--;
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if (hash->population <= 0)
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{
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free(hash);
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hash = NULL;
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}
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return hash;
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}
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}
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}
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}
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else
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{
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hash_num = _evas_hash_gen(key);
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for (l = hash->buckets[hash_num]; l; l = l->next)
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{
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el = (Evas_Hash_El *)l;
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if (!strcmp(el->key, key))
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{
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hash->buckets[hash_num] = evas_object_list_remove(hash->buckets[hash_num], el);
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free(el);
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hash->population--;
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if (hash->population <= 0)
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{
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free(hash);
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hash = NULL;
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}
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return hash;
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}
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}
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}
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return hash;
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}
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/**
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* Retrieves a specific entry in the given hash table.
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* @param hash The given hash table.
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* @param key The key string of the entry to find.
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* @return The data pointer for the stored entry, or @c NULL if not
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* found.
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* @ingroup Evas_Hash_Data
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*/
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EAPI void *
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evas_hash_find(Evas_Hash *hash, const char *key)
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{
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int hash_num;
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Evas_Hash_El *el;
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Evas_Object_List *l;
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_evas_hash_alloc_error = 0;
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if ((!hash) || (!key)) return NULL;
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hash_num = _evas_hash_gen(key);
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for (l = hash->buckets[hash_num]; l; l = l->next)
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{
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el = (Evas_Hash_El *)l;
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if (!strcmp(el->key, key))
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{
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if (l != hash->buckets[hash_num])
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{
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hash->buckets[hash_num] = evas_object_list_remove(hash->buckets[hash_num], el);
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hash->buckets[hash_num] = evas_object_list_prepend(hash->buckets[hash_num], el);
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}
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return el->data;
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}
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}
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return NULL;
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}
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/**
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* Modifies the entry pointer at the specified key and returns the old entry
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* @param hash The given hash table.
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* @param key The key string of the entry to modify.
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* @param data The data to replace the old entry, if it exists.
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* @return The data pointer for the old stored entry, or @c NULL if not
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* found. If an existing entry is not found, nothing is added to the
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* hash.
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* @ingroup Evas_Hash_Data
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*/
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EAPI void *
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evas_hash_modify(Evas_Hash *hash, const char *key, const void *data)
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{
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int hash_num;
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Evas_Hash_El *el;
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Evas_Object_List *l;
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_evas_hash_alloc_error = 0;
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if (!hash) return NULL;
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hash_num = _evas_hash_gen(key);
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for (l = hash->buckets[hash_num]; l; l = l->next)
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{
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el = (Evas_Hash_El *)l;
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if ((key) && (!strcmp(el->key, key)))
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{
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void *old_data;
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if (l != hash->buckets[hash_num])
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{
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hash->buckets[hash_num] = evas_object_list_remove(hash->buckets[hash_num], el);
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hash->buckets[hash_num] = evas_object_list_prepend(hash->buckets[hash_num], el);
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}
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old_data = el->data;
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el->data = (void *) data;
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return old_data;
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}
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}
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return NULL;
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}
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/**
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* @defgroup Evas_Hash_General_Group Hash General Functions
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*
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* Miscellaneous functions that operate on hash objects.
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*/
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/**
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* Retrieves the number of buckets available in the given hash table.
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* @param hash The given hash table.
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* @return @c 256 if @p hash is not @c NULL. @c 0 otherwise.
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* @ingroup Evas_Hash_General_Group
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*/
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EAPI int
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evas_hash_size(Evas_Hash *hash)
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{
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if (!hash) return 0;
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return 256;
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}
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/**
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* @todo Complete polishing documentation for evas_hash.c. The
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* functions' docs may be grouped, but they need some simplification.
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*/
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/**
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* Free an entire hash table
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* @param hash The hash table to be freed
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*
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* This function frees up all the memory allocated to storing the specified
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* hash tale pointed to by @p hash. Any entries in the table that the program
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* has no more pointers for elsewhere may now be lost, so this should only be
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* called if the program has lready freed any allocated data in the hash table
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* or has the pointers for data in teh table stored elswehere as well.
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*
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* Example:
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* @code
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* extern Evas_Hash *hash;
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*
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* evas_hash_free(hash);
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* hash = NULL;
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* @endcode
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* @ingroup Evas_Hash_General_Group
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*/
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EAPI void
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evas_hash_free(Evas_Hash *hash)
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{
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int i, size;
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if (!hash) return;
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size = evas_hash_size(hash);
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for (i = 0; i < size; i++)
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{
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while (hash->buckets[i])
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{
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Evas_Hash_El *el;
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el = (Evas_Hash_El *)hash->buckets[i];
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hash->buckets[i] = evas_object_list_remove(hash->buckets[i], el);
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free(el);
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}
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}
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free(hash);
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}
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/**
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* Call a function on every member stored in the hash table
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* @param hash The hash table whose members will be walked
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* @param func The function to call on each parameter
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* @param fdata The data pointer to pass to the function being called
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*
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* This function goes through every entry in the hash table @p hash and calls
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* the function @p func on each member. The function should NOT modify the
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* hash table contents if it returns 1. IF the hash table contents are
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* modified by this function or the function wishes to stop processing it must
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* return 0, otherwise return 1 to keep processing.
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*
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* Example:
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* @code
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* extern Evas_Hash *hash;
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*
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* Evas_Bool hash_fn(Evas_Hash *hash, const char *key, void *data, void *fdata)
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* {
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* printf("Func data: %s, Hash entry: %s / %p\n", fdata, key, data);
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* return 1;
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* }
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*
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* int main(int argc, char **argv)
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* {
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* char *hash_fn_data;
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*
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* hash_fn_data = strdup("Hello World");
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* evas_hash_foreach(hash, hash_fn, hash_fn_data);
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* free(hash_fn_data);
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* }
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* @endcode
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* @ingroup Evas_Hash_General_Group
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*/
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EAPI void
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evas_hash_foreach(Evas_Hash *hash, Evas_Bool (*func) (Evas_Hash *hash, const char *key, void *data, void *fdata), const void *fdata)
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{
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int i, size;
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if (!hash) return;
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size = evas_hash_size(hash);
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for (i = 0; i < size; i++)
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{
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Evas_Object_List *l, *next_l;
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for (l = hash->buckets[i]; l;)
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{
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Evas_Hash_El *el;
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next_l = l->next;
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el = (Evas_Hash_El *)l;
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if (!func(hash, el->key, el->data, (void *)fdata)) return;
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l = next_l;
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}
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}
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}
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/**
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* Return memory allocation failure flag after an function requiring allocation
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* @return The state of the allocation flag
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*
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* This function returns the state of the memory allocation flag. This flag is
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* set if memory allocations fail during evas_hash_add() calls. If they do, 1
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* will be returned, otherwise 0 will be returned. The flag will remain in its
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* current state until the next call that requires allocation is called, and
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* is then reset.
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*
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* Example:
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* @code
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* Evas_Hash *hash = NULL;
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* extern void *my_data;
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*
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* hash = evas_hash_add(hash, "My Data", my_data);
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* if (evas_hash_alloc_error())
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* {
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* fprintf(stderr, "ERROR: Memory is low. Hash allocation failed.\n");
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* exit(-1);
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* }
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* if (evas_hash_find(hash, "My Data") == my_data)
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* {
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* printf("My Data inserted and successfully found.\n");
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* }
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* @endcode
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* @ingroup Evas_Hash_General_Group
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*/
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EAPI int
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evas_hash_alloc_error(void)
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{
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return _evas_hash_alloc_error;
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}
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