/************************************************************************ The hash table with external chains (c) 1994-1997 Innobase Oy Created 8/22/1994 Heikki Tuuri *************************************************************************/ #include "ha0ha.h" #ifdef UNIV_NONINL #include "ha0ha.ic" #endif #include "buf0buf.h" /***************************************************************** Creates a hash table with >= n array cells. The actual number of cells is chosen to be a prime number slightly bigger than n. */ hash_table_t* ha_create( /*======*/ /* out, own: created table */ ibool in_btr_search, /* in: TRUE if the hash table is used in the btr_search module */ ulint n, /* in: number of array cells */ ulint n_mutexes, /* in: number of mutexes to protect the hash table: must be a power of 2, or 0 */ ulint mutex_level) /* in: level of the mutexes in the latching order: this is used in the debug version */ { hash_table_t* table; ulint i; table = hash_create(n); if (n_mutexes == 0) { if (in_btr_search) { table->heap = mem_heap_create_in_btr_search(4096); } else { table->heap = mem_heap_create_in_buffer(4096); } return(table); } hash_create_mutexes(table, n_mutexes, mutex_level); table->heaps = mem_alloc(n_mutexes * sizeof(void*)); for (i = 0; i < n_mutexes; i++) { if (in_btr_search) { table->heaps[i] = mem_heap_create_in_btr_search(4096); } else { table->heaps[i] = mem_heap_create_in_buffer(4096); } } return(table); } /***************************************************************** Checks that a hash table node is in the chain. */ ibool ha_node_in_chain( /*=============*/ /* out: TRUE if in chain */ hash_cell_t* cell, /* in: hash table cell */ ha_node_t* node) /* in: external chain node */ { ha_node_t* node2; node2 = cell->node; while (node2 != NULL) { if (node2 == node) { return(TRUE); } node2 = node2->next; } return(FALSE); } /***************************************************************** Inserts an entry into a hash table. If an entry with the same fold number is found, its node is updated to point to the new data, and no new node is inserted. */ ibool ha_insert_for_fold( /*===============*/ /* out: TRUE if succeed, FALSE if no more memory could be allocated */ hash_table_t* table, /* in: hash table */ ulint fold, /* in: folded value of data; if a node with the same fold value already exists, it is updated to point to the same data, and no new node is created! */ void* data) /* in: data, must not be NULL */ { hash_cell_t* cell; ha_node_t* node; ha_node_t* prev_node; ulint hash; ut_ad(table && data); ut_ad(!table->mutexes || mutex_own(hash_get_mutex(table, fold))); hash = hash_calc_hash(fold, table); cell = hash_get_nth_cell(table, hash); prev_node = cell->node; while (prev_node != NULL) { if (prev_node->fold == fold) { prev_node->data = data; return(TRUE); } prev_node = prev_node->next; } /* We have to allocate a new chain node */ node = mem_heap_alloc(hash_get_heap(table, fold), sizeof(ha_node_t)); if (node == NULL) { /* It was a btr search type memory heap and at the moment no more memory could be allocated: return */ ut_ad(hash_get_heap(table, fold)->type & MEM_HEAP_BTR_SEARCH); return(FALSE); } ha_node_set_data(node, data); node->fold = fold; node->next = NULL; prev_node = cell->node; if (prev_node == NULL) { cell->node = node; return(TRUE); } while (prev_node->next != NULL) { prev_node = prev_node->next; } prev_node->next = node; return(TRUE); } /*************************************************************** Deletes a hash node. */ void ha_delete_hash_node( /*================*/ hash_table_t* table, /* in: hash table */ ha_node_t* del_node) /* in: node to be deleted */ { HASH_DELETE_AND_COMPACT(ha_node_t, next, table, del_node); } /***************************************************************** Deletes an entry from a hash table. */ void ha_delete( /*======*/ hash_table_t* table, /* in: hash table */ ulint fold, /* in: folded value of data */ void* data) /* in: data, must not be NULL and must exist in the hash table */ { ha_node_t* node; ut_ad(!table->mutexes || mutex_own(hash_get_mutex(table, fold))); node = ha_search_with_data(table, fold, data); ut_ad(node); ha_delete_hash_node(table, node); } /********************************************************************* Removes from the chain determined by fold all nodes whose data pointer points to the page given. */ void ha_remove_all_nodes_to_page( /*========================*/ hash_table_t* table, /* in: hash table */ ulint fold, /* in: fold value */ page_t* page) /* in: buffer page */ { ha_node_t* node; ut_ad(!table->mutexes || mutex_own(hash_get_mutex(table, fold))); node = ha_chain_get_first(table, fold); while (node) { if (buf_frame_align(ha_node_get_data(node)) == page) { /* Remove the hash node */ ha_delete_hash_node(table, node); /* Start again from the first node in the chain because the deletion may compact the heap of nodes and move other nodes! */ node = ha_chain_get_first(table, fold); } else { node = ha_chain_get_next(table, node); } } } /***************************************************************** Validates a hash table. */ ibool ha_validate( /*========*/ /* out: TRUE if ok */ hash_table_t* table) /* in: hash table */ { hash_cell_t* cell; ha_node_t* node; ulint i; for (i = 0; i < hash_get_n_cells(table); i++) { cell = hash_get_nth_cell(table, i); node = cell->node; while (node) { ut_a(hash_calc_hash(node->fold, table) == i); node = node->next; } } return(TRUE); } /***************************************************************** Prints info of a hash table. */ void ha_print_info( /*==========*/ hash_table_t* table) /* in: hash table */ { hash_cell_t* cell; ha_node_t* node; ulint nodes = 0; ulint cells = 0; ulint len = 0; ulint max_len = 0; ulint i; for (i = 0; i < hash_get_n_cells(table); i++) { cell = hash_get_nth_cell(table, i); if (cell->node) { cells++; len = 0; node = cell->node; for (;;) { len++; nodes++; if (ha_chain_get_next(table, node) == NULL) { break; } node = node->next; } if (len > max_len) { max_len = len; } } } printf("Hash table size %lu, used cells %lu, nodes %lu\n", hash_get_n_cells(table), cells, nodes); printf("max chain length %lu\n", max_len); ut_a(ha_validate(table)); }