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Direktori : /proc/thread-self/root/opt/alt/python38/share/doc/alt-python38-pycparser/examples/c_files/ |
Current File : //proc/thread-self/root/opt/alt/python38/share/doc/alt-python38-pycparser/examples/c_files/hash.c |
/* ** C implementation of a hash table ADT */ typedef enum tagReturnCode {SUCCESS, FAIL} ReturnCode; typedef struct tagEntry { char* key; char* value; } Entry; typedef struct tagNode { Entry* entry; struct tagNode* next; } Node; typedef struct tagHash { unsigned int table_size; Node** heads; } Hash; static unsigned int hash_func(const char* str, unsigned int table_size) { unsigned int hash_value; unsigned int a = 127; for (hash_value = 0; *str != 0; ++str) hash_value = (a*hash_value + *str) % table_size; return hash_value; } ReturnCode HashCreate(Hash** hash, unsigned int table_size) { unsigned int i; if (table_size < 1) return FAIL; // // Allocate space for the Hash // if (((*hash) = malloc(sizeof(**hash))) == NULL) return FAIL; // // Allocate space for the array of list heads // if (((*hash)->heads = malloc(table_size*sizeof(*((*hash)->heads)))) == NULL) return FAIL; // // Initialize Hash info // for (i = 0; i < table_size; ++i) { (*hash)->heads[i] = NULL; } (*hash)->table_size = table_size; return SUCCESS; } ReturnCode HashInsert(Hash* hash, const Entry* entry) { unsigned int index = hash_func(entry->key, hash->table_size); Node* temp = hash->heads[index]; HashRemove(hash, entry->key); if ((hash->heads[index] = malloc(sizeof(Node))) == NULL) return FAIL; hash->heads[index]->entry = malloc(sizeof(Entry)); hash->heads[index]->entry->key = malloc(strlen(entry->key)+1); hash->heads[index]->entry->value = malloc(strlen(entry->value)+1); strcpy(hash->heads[index]->entry->key, entry->key); strcpy(hash->heads[index]->entry->value, entry->value); hash->heads[index]->next = temp; return SUCCESS; } const Entry* HashFind(const Hash* hash, const char* key) { unsigned int index = hash_func(key, hash->table_size); Node* temp = hash->heads[index]; while (temp != NULL) { if (!strcmp(key, temp->entry->key)) return temp->entry; temp = temp->next; } return NULL; } ReturnCode HashRemove(Hash* hash, const char* key) { unsigned int index = hash_func(key, hash->table_size); Node* temp1 = hash->heads[index]; Node* temp2 = temp1; while (temp1 != NULL) { if (!strcmp(key, temp1->entry->key)) { if (temp1 == hash->heads[index]) hash->heads[index] = hash->heads[index]->next; else temp2->next = temp1->next; free(temp1->entry->key); free(temp1->entry->value); free(temp1->entry); free(temp1); temp1 = NULL; return SUCCESS; } temp2 = temp1; temp1 = temp1->next; } return FAIL; } void HashPrint(Hash* hash, void (*PrintFunc)(char*, char*)) { unsigned int i; if (hash == NULL || hash->heads == NULL) return; for (i = 0; i < hash->table_size; ++i) { Node* temp = hash->heads[i]; while (temp != NULL) { PrintFunc(temp->entry->key, temp->entry->value); temp = temp->next; } } } void HashDestroy(Hash* hash) { unsigned int i; if (hash == NULL) return; for (i = 0; i < hash->table_size; ++i) { Node* temp = hash->heads[i]; while (temp != NULL) { Node* temp2 = temp; free(temp->entry->key); free(temp->entry->value); free(temp->entry); temp = temp->next; free(temp2); } } free(hash->heads); hash->heads = NULL; free(hash); }