/* Copyright (c) 2000, 2010, Oracle and/or its affiliates. Copyright (c) 2011, 2013, Monty Program Ab. This program 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; version 2 of the License. This program 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 this program; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1335 USA */ /* The hash functions used for saveing keys */ /* One of key_length or key_length_offset must be given */ /* Key length of 0 isn't allowed */ #include "mysys_priv.h" #include #include #include "hash.h" #define NO_RECORD ~((my_hash_value_type) 0) #define LOWFIND 1 #define LOWUSED 2 #define HIGHFIND 4 #define HIGHUSED 8 typedef struct st_hash_info { uint32 next; /* index to next key */ my_hash_value_type hash_nr; uchar *data; /* data for current entry */ } HASH_LINK; static uint my_hash_mask(my_hash_value_type hashnr, size_t buffmax, size_t maxlength); static void movelink(HASH_LINK *array,uint pos,uint next_link,uint newlink); static int hashcmp(const HASH *hash, HASH_LINK *pos, const uchar *key, size_t length); my_hash_value_type my_hash_sort(CHARSET_INFO *cs, const uchar *key, size_t length) { ulong nr1= 1, nr2= 4; cs->coll->hash_sort(cs, (uchar*) key, length, &nr1, &nr2); return (my_hash_value_type) nr1; } /** @brief Initialize the hash @details Initialize the hash, by defining and giving valid values for its elements. The failure to allocate memory for the hash->array element will not result in a fatal failure. The dynamic array that is part of the hash will allocate memory as required during insertion. @param[in,out] hash The hash that is initialized @param[in[ growth_size size incrememnt for the underlying dynarray @param[in] charset The character set information @param[in] size The hash size @param[in] key_offest The key offset for the hash @param[in] key_length The length of the key used in the hash @param[in] get_key get the key for the hash @param[in] free_element pointer to the function that does cleanup @param[in] flags flags set in the hash @return indicates success or failure of initialization @retval 0 success @retval 1 failure */ my_bool my_hash_init2(HASH *hash, uint growth_size, CHARSET_INFO *charset, ulong size, size_t key_offset, size_t key_length, my_hash_get_key get_key, my_hash_function hash_function, void (*free_element)(void*), uint flags) { my_bool res; DBUG_ENTER("my_hash_init"); DBUG_PRINT("enter",("hash:%p size: %u", hash, (uint) size)); hash->records=0; hash->key_offset=key_offset; hash->key_length=key_length; hash->blength=1; hash->get_key=get_key; hash->hash_function= hash_function ? hash_function : my_hash_sort; hash->free=free_element; hash->flags=flags; hash->charset=charset; res= init_dynamic_array2(&hash->array, sizeof(HASH_LINK), NULL, size, growth_size, MYF((flags & HASH_THREAD_SPECIFIC ? MY_THREAD_SPECIFIC : 0))); DBUG_RETURN(res); } /* Call hash->free on all elements in hash. SYNOPSIS my_hash_free_elements() hash hash table NOTES: Sets records to 0 */ static inline void my_hash_free_elements(HASH *hash) { uint records= hash->records; /* Set records to 0 early to guard against anyone looking at the structure during the free process */ hash->records= 0; if (hash->free) { HASH_LINK *data=dynamic_element(&hash->array,0,HASH_LINK*); HASH_LINK *end= data + records; while (data < end) (*hash->free)((data++)->data); } } /* Free memory used by hash. SYNOPSIS my_hash_free() hash the hash to delete elements of NOTES: Hash can't be reused without calling my_hash_init again. */ void my_hash_free(HASH *hash) { DBUG_ENTER("my_hash_free"); DBUG_PRINT("enter",("hash:%p elements: %ld", hash, hash->records)); my_hash_free_elements(hash); hash->free= 0; delete_dynamic(&hash->array); hash->blength= 0; DBUG_VOID_RETURN; } /* Delete all elements from the hash (the hash itself is to be reused). SYNOPSIS my_hash_reset() hash the hash to delete elements of */ void my_hash_reset(HASH *hash) { DBUG_ENTER("my_hash_reset"); DBUG_PRINT("enter",("hash:%p", hash)); my_hash_free_elements(hash); reset_dynamic(&hash->array); /* Set row pointers so that the hash can be reused at once */ hash->blength= 1; DBUG_VOID_RETURN; } /* some helper functions */ /* This function is char* instead of uchar* as HPUX11 compiler can't handle inline functions that are not defined as native types */ static inline char* my_hash_key(const HASH *hash, const uchar *record, size_t *length, my_bool first) { if (hash->get_key) return (char*) (*hash->get_key)(record,length,first); *length=hash->key_length; return (char*) record+hash->key_offset; } /* Calculate pos according to keys */ static uint my_hash_mask(my_hash_value_type hashnr, size_t buffmax, size_t maxlength) { if ((hashnr & (buffmax-1)) < maxlength) return (uint) (hashnr & (buffmax-1)); return (uint) (hashnr & ((buffmax >> 1) -1)); } static inline uint my_hash_rec_mask(HASH_LINK *pos, size_t buffmax, size_t maxlength) { return my_hash_mask(pos->hash_nr, buffmax, maxlength); } /* for compilers which can not handle inline */ static #if !defined(__USLC__) && !defined(__sgi) inline #endif my_hash_value_type rec_hashnr(HASH *hash,const uchar *record) { size_t length; uchar *key= (uchar*) my_hash_key(hash, record, &length, 0); return hash->hash_function(hash->charset, key, length); } uchar* my_hash_search(const HASH *hash, const uchar *key, size_t length) { HASH_SEARCH_STATE state; return my_hash_first(hash, key, length, &state); } uchar* my_hash_search_using_hash_value(const HASH *hash, my_hash_value_type hash_value, const uchar *key, size_t length) { HASH_SEARCH_STATE state; return my_hash_first_from_hash_value(hash, hash_value, key, length, &state); } /* Search after a record based on a key NOTE Assigns the number of the found record to HASH_SEARCH_STATE state */ uchar* my_hash_first(const HASH *hash, const uchar *key, size_t length, HASH_SEARCH_STATE *current_record) { uchar *res; DBUG_ASSERT(my_hash_inited(hash)); res= my_hash_first_from_hash_value(hash, hash->hash_function(hash->charset, key, length ? length : hash->key_length), key, length, current_record); return res; } uchar* my_hash_first_from_hash_value(const HASH *hash, my_hash_value_type hash_value, const uchar *key, size_t length, HASH_SEARCH_STATE *current_record) { HASH_LINK *pos; DBUG_ENTER("my_hash_first_from_hash_value"); if (hash->records) { uint flag= 1; uint idx= my_hash_mask(hash_value, hash->blength, hash->records); do { pos= dynamic_element(&hash->array,idx,HASH_LINK*); if (!hashcmp(hash,pos,key,length)) { DBUG_PRINT("exit",("found key at %d",idx)); *current_record= idx; DBUG_RETURN (pos->data); } if (flag) { flag=0; /* Reset flag */ if (my_hash_rec_mask(pos, hash->blength, hash->records) != idx) break; /* Wrong link */ } } while ((idx=pos->next) != NO_RECORD); } *current_record= NO_RECORD; DBUG_RETURN(0); } /* Get next record with identical key */ /* Can only be called if previous calls was my_hash_search */ uchar* my_hash_next(const HASH *hash, const uchar *key, size_t length, HASH_SEARCH_STATE *current_record) { HASH_LINK *pos; uint idx; if (*current_record != NO_RECORD) { HASH_LINK *data=dynamic_element(&hash->array,0,HASH_LINK*); for (idx=data[*current_record].next; idx != NO_RECORD ; idx=pos->next) { pos=data+idx; if (!hashcmp(hash,pos,key,length)) { *current_record= idx; return pos->data; } } *current_record= NO_RECORD; } return 0; } /* Change link from pos to new_link */ static void movelink(HASH_LINK *array,uint find,uint next_link,uint newlink) { HASH_LINK *old_link; do { old_link=array+next_link; } while ((next_link=old_link->next) != find); old_link->next= newlink; return; } /* Compare a key in a record to a whole key. Return 0 if identical SYNOPSIS hashcmp() hash hash table pos position of hash record to use in comparison key key for comparison length length of key NOTES: If length is 0, comparison is done using the length of the record being compared against. RETURN = 0 key of record == key != 0 key of record != key */ static int hashcmp(const HASH *hash, HASH_LINK *pos, const uchar *key, size_t length) { size_t rec_keylength; uchar *rec_key= (uchar*) my_hash_key(hash, pos->data, &rec_keylength, 1); return ((length && length != rec_keylength) || my_strnncoll(hash->charset, (uchar*) rec_key, rec_keylength, (uchar*) key, rec_keylength)); } /** Write a hash-key to the hash-index @return @retval 0 ok @retval 1 Duplicate key or out of memory */ my_bool my_hash_insert(HASH *info, const uchar *record) { int flag; uint idx, halfbuff, first_index; size_t length; my_hash_value_type current_hash_nr, UNINIT_VAR(rec_hash_nr), UNINIT_VAR(rec2_hash_nr); uchar *UNINIT_VAR(rec_data),*UNINIT_VAR(rec2_data), *key; HASH_LINK *data,*empty,*UNINIT_VAR(gpos),*UNINIT_VAR(gpos2),*pos; key= (uchar*) my_hash_key(info, record, &length, 1); current_hash_nr= info->hash_function(info->charset, key, length); if (info->flags & HASH_UNIQUE) { if (my_hash_search_using_hash_value(info, current_hash_nr, key, length)) return(TRUE); /* Duplicate entry */ } flag=0; if (!(empty=(HASH_LINK*) alloc_dynamic(&info->array))) return(TRUE); /* No more memory */ data=dynamic_element(&info->array,0,HASH_LINK*); halfbuff= info->blength >> 1; idx=first_index=info->records-halfbuff; if (idx != info->records) /* If some records */ { do { my_hash_value_type hash_nr; pos=data+idx; hash_nr= pos->hash_nr; if (flag == 0) /* First loop; Check if ok */ if (my_hash_mask(hash_nr, info->blength, info->records) != first_index) break; if (!(hash_nr & halfbuff)) { /* Key will not move */ if (!(flag & LOWFIND)) { if (flag & HIGHFIND) { flag= LOWFIND | HIGHFIND; /* key shall be moved to the current empty position */ gpos= empty; rec_data= pos->data; rec_hash_nr= pos->hash_nr; empty=pos; /* This place is now free */ } else { flag= LOWFIND | LOWUSED; /* key isn't changed */ gpos= pos; rec_data= pos->data; rec_hash_nr= pos->hash_nr; } } else { if (!(flag & LOWUSED)) { /* Change link of previous LOW-key */ gpos->data= rec_data; gpos->hash_nr= rec_hash_nr; gpos->next= (uint) (pos-data); flag= (flag & HIGHFIND) | (LOWFIND | LOWUSED); } gpos= pos; rec_data= pos->data; rec_hash_nr= pos->hash_nr; } } else { /* key will be moved */ if (!(flag & HIGHFIND)) { flag= (flag & LOWFIND) | HIGHFIND; /* key shall be moved to the last (empty) position */ gpos2= empty; empty= pos; rec2_data= pos->data; rec2_hash_nr= pos->hash_nr; } else { if (!(flag & HIGHUSED)) { /* Change link of previous hash-key and save */ gpos2->data= rec2_data; gpos2->hash_nr= rec2_hash_nr; gpos2->next= (uint) (pos-data); flag= (flag & LOWFIND) | (HIGHFIND | HIGHUSED); } gpos2= pos; rec2_data= pos->data; rec2_hash_nr= pos->hash_nr; } } } while ((idx=pos->next) != NO_RECORD); if ((flag & (LOWFIND | LOWUSED)) == LOWFIND) { gpos->data= rec_data; gpos->hash_nr= rec_hash_nr; gpos->next= NO_RECORD; } if ((flag & (HIGHFIND | HIGHUSED)) == HIGHFIND) { gpos2->data= rec2_data; gpos2->hash_nr= rec2_hash_nr; gpos2->next= NO_RECORD; } } idx= my_hash_mask(current_hash_nr, info->blength, info->records + 1); pos= data+idx; /* Check if we are at the empty position */ if (pos == empty) { pos->next=NO_RECORD; } else { /* Move conflicting record to empty position (last) */ empty[0]= pos[0]; /* Check if the moved record was in same hash-nr family */ gpos= data + my_hash_rec_mask(pos, info->blength, info->records + 1); if (pos == gpos) { /* Point to moved record */ pos->next= (uint32) (empty - data); } else { pos->next= NO_RECORD; movelink(data,(uint) (pos-data),(uint) (gpos-data),(uint) (empty-data)); } } pos->data= (uchar*) record; pos->hash_nr= current_hash_nr; if (++info->records == info->blength) info->blength+= info->blength; return(0); } /** Remove one record from hash-table. @fn hash_delete() @param hash Hash tree @param record Row to be deleted @notes The record with the same record ptr is removed. If there is a free-function it's called if record was found. hash->free() is guarantee to be called only after the row has been deleted from the hash and the hash can be reused by other threads. @return @retval 0 ok @retval 1 Record not found */ my_bool my_hash_delete(HASH *hash, uchar *record) { uint pos2,idx,empty_index; my_hash_value_type pos_hashnr, lastpos_hashnr; size_t blength; HASH_LINK *data,*lastpos,*gpos,*pos,*pos3,*empty; DBUG_ENTER("my_hash_delete"); if (!hash->records) DBUG_RETURN(1); blength=hash->blength; data=dynamic_element(&hash->array,0,HASH_LINK*); /* Search after record with key */ pos= data + my_hash_mask(rec_hashnr(hash, record), blength, hash->records); gpos = 0; while (pos->data != record) { gpos=pos; if (pos->next == NO_RECORD) DBUG_RETURN(1); /* Key not found */ pos=data+pos->next; } if ( --(hash->records) < hash->blength >> 1) hash->blength>>=1; lastpos=data+hash->records; /* Remove link to record */ empty=pos; empty_index=(uint) (empty-data); if (gpos) gpos->next=pos->next; /* unlink current ptr */ else if (pos->next != NO_RECORD) { empty=data+(empty_index=pos->next); pos[0]= empty[0]; } if (empty == lastpos) /* last key at wrong pos or no next link */ goto exit; /* Move the last key (lastpos) */ lastpos_hashnr= lastpos->hash_nr; /* pos is where lastpos should be */ pos= data + my_hash_mask(lastpos_hashnr, hash->blength, hash->records); if (pos == empty) /* Move to empty position. */ { empty[0]=lastpos[0]; goto exit; } pos_hashnr= pos->hash_nr; /* pos3 is where the pos should be */ pos3= data + my_hash_mask(pos_hashnr, hash->blength, hash->records); if (pos != pos3) { /* pos is on wrong posit */ empty[0]=pos[0]; /* Save it here */ pos[0]=lastpos[0]; /* This should be here */ movelink(data,(uint) (pos-data),(uint) (pos3-data),empty_index); goto exit; } pos2= my_hash_mask(lastpos_hashnr, blength, hash->records + 1); if (pos2 == my_hash_mask(pos_hashnr, blength, hash->records + 1)) { /* Identical key-positions */ if (pos2 != hash->records) { empty[0]=lastpos[0]; movelink(data,(uint) (lastpos-data),(uint) (pos-data),empty_index); goto exit; } idx= (uint) (pos-data); /* Link pos->next after lastpos */ } else idx= NO_RECORD; /* Different positions merge */ empty[0]=lastpos[0]; movelink(data,idx,empty_index,pos->next); pos->next=empty_index; exit: (void) pop_dynamic(&hash->array); if (hash->free) (*hash->free)((uchar*) record); DBUG_RETURN(0); } /** Update keys when record has changed. This is much more efficient than using a delete & insert. */ my_bool my_hash_update(HASH *hash, uchar *record, uchar *old_key, size_t old_key_length) { uint new_index, new_pos_index, org_index, records, idx; size_t length, empty, blength; my_hash_value_type hash_nr; HASH_LINK org_link,*data,*previous,*pos; uchar *new_key; DBUG_ENTER("my_hash_update"); new_key= (uchar*) my_hash_key(hash, record, &length, 1); hash_nr= hash->hash_function(hash->charset, new_key, length); if (HASH_UNIQUE & hash->flags) { HASH_SEARCH_STATE state; uchar *found; if ((found= my_hash_first_from_hash_value(hash, hash_nr, new_key, length, &state))) { do { if (found != record) DBUG_RETURN(1); /* Duplicate entry */ } while ((found= my_hash_next(hash, new_key, length, &state))); } } data=dynamic_element(&hash->array,0,HASH_LINK*); blength=hash->blength; records=hash->records; /* Search after record with key */ idx= my_hash_mask(hash->hash_function(hash->charset, old_key, (old_key_length ? old_key_length : hash->key_length)), blength, records); org_index= idx; new_index= my_hash_mask(hash_nr, blength, records); previous=0; for (;;) { if ((pos= data+idx)->data == record) break; previous=pos; if ((idx=pos->next) == NO_RECORD) DBUG_RETURN(1); /* Not found in links */ } if (org_index == new_index) { data[idx].hash_nr= hash_nr; /* Hash number may have changed */ DBUG_RETURN(0); /* Record is in right position */ } org_link= *pos; empty=idx; /* Relink record from current chain */ if (!previous) { if (pos->next != NO_RECORD) { empty=pos->next; *pos= data[pos->next]; } } else previous->next=pos->next; /* unlink pos */ /* Move data to correct position */ if (new_index == empty) { /* At this point record is unlinked from the old chain, thus it holds random position. By the chance this position is equal to position for the first element in the new chain. That means updated record is the only record in the new chain. */ if (empty != idx) { /* Record was moved while unlinking it from the old chain. Copy data to a new position. */ data[empty]= org_link; } data[empty].next= NO_RECORD; data[empty].hash_nr= hash_nr; DBUG_RETURN(0); } pos=data+new_index; new_pos_index= my_hash_rec_mask(pos, blength, records); if (new_index != new_pos_index) { /* Other record in wrong position */ data[empty]= *pos; movelink(data,new_index,new_pos_index, (uint) empty); org_link.next=NO_RECORD; data[new_index]= org_link; data[new_index].hash_nr= hash_nr; } else { /* Link in chain at right position */ org_link.next=data[new_index].next; data[empty]=org_link; data[empty].hash_nr= hash_nr; data[new_index].next= (uint) empty; } DBUG_RETURN(0); } uchar *my_hash_element(HASH *hash, size_t idx) { if (idx < hash->records) return dynamic_element(&hash->array,idx,HASH_LINK*)->data; return 0; } /* Replace old row with new row. This should only be used when key isn't changed */ void my_hash_replace(HASH *hash, HASH_SEARCH_STATE *current_record, uchar *new_row) { if (*current_record != NO_RECORD) /* Safety */ dynamic_element(&hash->array, *current_record, HASH_LINK*)->data= new_row; } /** Iterate over all elements in hash and call function with the element @param hash hash array @param action function to call for each argument @param argument second argument for call to action @notes If one of functions calls returns 1 then the iteration aborts @retval 0 ok @retval 1 iteration aborted becasue action returned 1 */ my_bool my_hash_iterate(HASH *hash, my_hash_walk_action action, void *argument) { uint records, i; HASH_LINK *data; records= hash->records; data= dynamic_element(&hash->array,0,HASH_LINK*); for (i= 0 ; i < records ; i++) { if ((*action)(data[i].data, argument)) return 1; } return 0; } #if !defined(DBUG_OFF) || defined(MAIN) my_bool my_hash_check(HASH *hash) { int error; uint i,rec_link,found,max_links,seek,links,idx; uint records; size_t blength; HASH_LINK *data,*hash_info; records=hash->records; blength=hash->blength; data=dynamic_element(&hash->array,0,HASH_LINK*); error=0; for (i=found=max_links=seek=0 ; i < records ; i++) { size_t length; uchar *key= (uchar*) my_hash_key(hash, data[i].data, &length, 0); if (data[i].hash_nr != hash->hash_function(hash->charset, key, length)) { DBUG_PRINT("error", ("record at %d has wrong hash", i)); error= 1; } if (my_hash_rec_mask(data + i, blength, records) == i) { found++; seek++; links=1; for (idx=data[i].next ; idx != NO_RECORD && found < records + 1; idx=hash_info->next) { if (idx >= records) { DBUG_PRINT("error", ("Found pointer outside array to %d from link starting at %d", idx,i)); error=1; } hash_info=data+idx; seek+= ++links; if ((rec_link= my_hash_rec_mask(hash_info, blength, records)) != i) { DBUG_PRINT("error", ("Record in wrong link at %d: Start %d " "Record:%p Record-link %d", idx, i, hash_info->data, rec_link)); error=1; } else found++; } if (links > max_links) max_links=links; } } if (found != records) { DBUG_PRINT("error",("Found %u of %u records", found, records)); error=1; } if (records) DBUG_PRINT("info", ("records: %u seeks: %d max links: %d hitrate: %.2f", records,seek,max_links,(float) seek / (float) records)); DBUG_ASSERT(error == 0); return error; } #endif #ifdef MAIN #define RECORDS 1000 uchar *test_get_key(uchar *data, size_t *length, my_bool not_used __attribute__((unused))) { *length= 2; return data; } int main(int argc __attribute__((unused)),char **argv __attribute__((unused))) { uchar records[RECORDS][2], copy[2]; HASH hash_test; uint i; MY_INIT(argv[0]); DBUG_PUSH("d:t:O,/tmp/test_hash.trace"); printf("my_hash_init\n"); if (my_hash_init2(&hash_test, 100, &my_charset_bin, 20, 0, 0, (my_hash_get_key) test_get_key, 0, 0, HASH_UNIQUE)) { fprintf(stderr, "hash init failed\n"); exit(1); } printf("my_hash_insert\n"); for (i= 0 ; i < RECORDS ; i++) { int2store(records[i],i); my_hash_insert(&hash_test, records[i]); my_hash_check(&hash_test); } printf("my_hash_update\n"); for (i= 0 ; i < RECORDS ; i+=2) { memcpy(copy, records[i], 2); int2store(records[i],i + RECORDS); if (my_hash_update(&hash_test, records[i], copy, 2)) { fprintf(stderr, "hash update failed\n"); exit(1); } my_hash_check(&hash_test); } printf("my_hash_delete\n"); for (i= 0 ; i < RECORDS ; i++) { if (my_hash_delete(&hash_test, records[i])) { fprintf(stderr, "hash delete failed\n"); exit(1); } my_hash_check(&hash_test); } my_hash_free(&hash_test); printf("ok\n"); my_end(MY_CHECK_ERROR); return(0); } #endif /* MAIN */