#include typedef unsigned int (*rtgui_hash_func_t) (const void* key); typedef struct _rtgui_hash_table rtgui_hash_table_t; typedef rt_bool_t (*rtgui_equal_func_t) (const void* a, const void* b); typedef void (*rtgui_user_func_t) (const void* value, const void* data); /* *Hash tables */ rtgui_hash_table_t* hash_table_create(rtgui_hash_func_t hash_func, rtgui_equal_func_t key_equal_func); void hash_table_destroy (rtgui_hash_table_t* hash_table); void* hash_table_find (rtgui_hash_table_t* hash_table, void* key); void hash_table_insert (rtgui_hash_table_t* hash_table, void* key, void* value); rt_bool_t hash_table_remove (rtgui_hash_table_t* hash_table, void* key); void hash_table_foreach(rtgui_hash_table_t* hash_table, rtgui_user_func_t user_func, void* data); unsigned int hash_table_get_size (rtgui_hash_table_t* hash_table); /* Hash Functions */ unsigned int direct_hash (void* v); #define HASH_TABLE_MIN_SIZE 11 #define HASH_TABLE_MAX_SIZE 6247 typedef struct _gui_hash_node rtgui_hash_node_t; struct _gui_hash_node { void* key; void* value; rtgui_hash_node_t *next; }; struct _rtgui_hash_table { rt_uint16_t size; rt_uint16_t nnodes; rtgui_hash_node_t **nodes; rtgui_hash_func_t hash_func; rtgui_equal_func_t key_equal_func; }; static const unsigned int primes[] = { 11, 19, 37, 73, 109, 163, 251, 367, 557, 823, 1237, 1861, 2777, 4177, 6247, /* 9371, 14057, 21089, 31627, 47431, 71143, 106721, 160073, 240101, 360163, 540217, 810343, 1215497, 1823231, 2734867, 4102283, 6153409, 9230113, 13845163, */ }; static const unsigned int nprimes = sizeof (primes) / sizeof (primes[0]); static void hash_table_resize (rtgui_hash_table_t *hash_table); static rtgui_hash_node_t** hash_table_find_node (rtgui_hash_table_t *hash_table, void* key); static rtgui_hash_node_t* hash_node_create (void* key, void* value); static void hash_node_destroy (rtgui_hash_node_t *hash_node); static void hash_nodes_destroy (rtgui_hash_node_t *hash_node); static unsigned int primes_closest (unsigned int num); static void hash_table_needresize(rtgui_hash_table_t *hash_table); rt_inline unsigned int primes_closest (unsigned int num) { int i; for (i = 0; i < nprimes; i++) if (primes[i] > num) return primes[i]; return primes[nprimes - 1]; } /* directly hash */ unsigned int direct_hash (void* v) { return (unsigned int)v; } rtgui_hash_table_t* hash_table_create(rtgui_hash_func_t hash_func, rtgui_equal_func_t key_equal_func) { rtgui_hash_table_t *hash_table; hash_table = (rtgui_hash_table_t*) rt_malloc (sizeof(rtgui_hash_table_t)); if (hash_table != RT_NULL) { hash_table->size = HASH_TABLE_MIN_SIZE; hash_table->nnodes = 0; hash_table->hash_func = hash_func ? hash_func : direct_hash; hash_table->key_equal_func = key_equal_func; hash_table->nodes = (rtgui_hash_node_t **)rt_malloc ( sizeof(rtgui_hash_node_t*) * hash_table->size); if (hash_table->nodes == RT_NULL) { /* no memory yet */ rt_free(hash_table); return RT_NULL; } rt_memset(hash_table->nodes, 0, sizeof(rtgui_hash_node_t*) * hash_table->size); } return hash_table; } void hash_table_destroy (rtgui_hash_table_t *hash_table) { unsigned int i; RT_ASSERT(hash_table != RT_NULL); for (i = 0; i < hash_table->size; i++) hash_nodes_destroy (hash_table->nodes[i]); rt_free (hash_table->nodes); rt_free (hash_table); } static rtgui_hash_node_t** hash_table_find_node (rtgui_hash_table_t *hash_table, void* key) { rtgui_hash_node_t **node; node = &hash_table->nodes [(* hash_table->hash_func) (key) % hash_table->size]; if (hash_table->key_equal_func) while (*node && !(*hash_table->key_equal_func) ((*node)->key, key)) node = &(*node)->next; else while (*node && (*node)->key != key) node = &(*node)->next; return node; } void* hash_table_find (rtgui_hash_table_t* hash_table, void* key) { rtgui_hash_node_t *node; RT_ASSERT(hash_table != RT_NULL); RT_ASSERT(key != RT_NULL); node = *hash_table_find_node (hash_table, key); if (node) return node->value; else return RT_NULL; } void hash_table_insert (rtgui_hash_table_t *hash_table, void* key, void* value) { rtgui_hash_node_t **node; if (hash_table == RT_NULL)return; node = hash_table_find_node (hash_table, key); if (*node) { (*node)->value = value; } else { *node = hash_node_create (key, value); hash_table->nnodes++; hash_table_needresize (hash_table); } } rt_bool_t hash_table_remove (rtgui_hash_table_t *hash_table, void* key) { rtgui_hash_node_t **node, *dest; if (hash_table == RT_NULL) return RT_FALSE; node = hash_table_find_node (hash_table, key); if (*node) { dest = *node; (*node) = dest->next; hash_node_destroy (dest); hash_table->nnodes--; hash_table_needresize (hash_table); return RT_TRUE; } return RT_FALSE; } void hash_table_foreach(rtgui_hash_table_t *hash_table, rtgui_user_func_t user_func, void* data) { rtgui_hash_node_t *node; int i; RT_ASSERT(hash_table != RT_NULL); RT_ASSERT(user_func != RT_NULL); for (i = 0; i < hash_table->size; i++) for (node = hash_table->nodes[i]; node; node = node->next) (* user_func) (node->value, data); } unsigned int hash_table_get_size (rtgui_hash_table_t *hash_table) { if ( hash_table ==NULL ) return 0; return hash_table->nnodes; } static void hash_table_needresize(rtgui_hash_table_t *hash_table) { if ((hash_table->size >= 3*hash_table->nnodes && hash_table->size > HASH_TABLE_MIN_SIZE) || (3 * hash_table->size <= hash_table->nnodes && hash_table->size < HASH_TABLE_MAX_SIZE)) hash_table_resize (hash_table); } static void hash_table_resize (rtgui_hash_table_t *hash_table) { rtgui_hash_node_t **new_nodes; rtgui_hash_node_t *node; rtgui_hash_node_t *next; unsigned int hash_val; int new_size; int i; i = primes_closest(hash_table->nnodes); new_size = i > HASH_TABLE_MAX_SIZE ? HASH_TABLE_MAX_SIZE : i < HASH_TABLE_MIN_SIZE ? HASH_TABLE_MIN_SIZE : i ; new_nodes = (rtgui_hash_node_t **)rt_malloc ( sizeof(rtgui_hash_node_t*) * new_size); if (new_nodes == RT_NULL) return; /* no memory yet */ rt_memset(new_nodes, 0, sizeof(rtgui_hash_node_t*) * new_size); for (i = 0; i < hash_table->size; i++) { for (node = hash_table->nodes[i]; node; node = next) { next = node->next; hash_val = (* hash_table->hash_func) (node->key) % new_size; node->next = new_nodes[hash_val]; new_nodes[hash_val] = node; } } rt_free (hash_table->nodes); hash_table->nodes = new_nodes; hash_table->size = new_size; } static rtgui_hash_node_t* hash_node_create (void* key, void* value) { rtgui_hash_node_t *hash_node; hash_node = (rtgui_hash_node_t*) rt_malloc ( sizeof(rtgui_hash_node_t) ); if (hash_node != RT_NULL) { /* set value and key */ hash_node->key = key; hash_node->value = value;; hash_node->next = RT_NULL; } return hash_node; } static void hash_node_destroy (rtgui_hash_node_t *hash_node) { rt_free(hash_node); } static void hash_nodes_destroy (rtgui_hash_node_t *hash_node) { if (hash_node) { rtgui_hash_node_t *node = hash_node; rtgui_hash_node_t *temp; while (node->next) { node->key = NULL; node->value = NULL; temp = node; node = node->next; rt_free(temp); } node->key = NULL; node->value = NULL; rt_free(node); } } unsigned int string_hash_func(const void* self) { const char *p; int h=0, g; for(p = self; *p != '\0'; p += 1) { h = ( h << 4 ) + *p; if ( ( g = h & 0xf0000000 ) ) { h = h ^ (g >> 24); h = h ^ g; } } return h ; } rt_bool_t string_equal_func(const void* a, const void* b) { const char *str1, *str2; str1 = (const char*)a; str2 = (const char*)b; if (strcmp(str1, str2) == 0) return RT_TRUE; return RT_FALSE; } static rtgui_hash_table_t* image_hash_table; rt_bool_t load_image = RT_FALSE; void image_container_system_init(rt_bool_t is_load) { /* create image hash table */ image_hash_table = hash_table_create(string_hash_func, string_equal_func); RT_ASSERT(image_hash_table != RT_NULL); load_image = is_load; } rtgui_image_t* image_container_get(const char* filename) { /* get image type */ } rtgui_image_t* image_container_get_memref(const rt_uint8_t* memory, const char* type) { } void image_container_put(rtgui_image_t* image) { }