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/* Copyright (C) 2000,2004 MySQL 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */
/* This file should be included when using heap_database_functions */
/* Author: Michael Widenius */
#ifndef _heap_h
#define _heap_h
#ifdef __cplusplus
extern "C" {
#endif
#ifndef _my_base_h
#include <my_base.h>
#endif
#include <mysys/my_pthread.h>
#include <mysys/thr_lock.h>
#include <mysys/my_handler.h>
#include <mysys/my_tree.h>
/* defines used by heap-funktions */
#define HP_MAX_LEVELS 4 /* 128^5 records is enough */
#define HP_PTRS_IN_NOD 128
/* struct used with heap_funktions */
typedef struct st_heapinfo /* Struct from heap_info */
{
ulong records; /* Records in database */
ulong deleted; /* Deleted records in database */
ulong max_records;
uint64_t data_length;
uint64_t index_length;
uint reclength; /* Length of one record */
int errkey;
uint64_t auto_increment;
} HEAPINFO;
/* Structs used by heap-database-handler */
typedef struct st_heap_ptrs
{
uchar *blocks[HP_PTRS_IN_NOD]; /* pointers to HP_PTRS or records */
} HP_PTRS;
struct st_level_info
{
/* Number of unused slots in *last_blocks HP_PTRS block (0 for 0th level) */
uint free_ptrs_in_block;
/*
Maximum number of records that can be 'contained' inside of each element
of last_blocks array. For level 0 - 1, for level 1 - HP_PTRS_IN_NOD, for
level 2 - HP_PTRS_IN_NOD^2 and so forth.
*/
ulong records_under_level;
/*
Ptr to last allocated HP_PTRS (or records buffer for level 0) on this
level.
*/
HP_PTRS *last_blocks;
};
/*
Heap table records and hash index entries are stored in HP_BLOCKs.
HP_BLOCK is used as a 'growable array' of fixed-size records. Size of record
is recbuffer bytes.
The internal representation is as follows:
HP_BLOCK is a hierarchical structure of 'blocks'.
A block at level 0 is an array records_in_block records.
A block at higher level is an HP_PTRS structure with pointers to blocks at
lower levels.
At the highest level there is one top block. It is stored in HP_BLOCK::root.
See hp_find_block for a description of how record pointer is obtained from
its index.
See hp_get_new_block
*/
typedef struct st_heap_block
{
HP_PTRS *root; /* Top-level block */
struct st_level_info level_info[HP_MAX_LEVELS+1];
uint levels; /* number of used levels */
uint records_in_block; /* Records in one heap-block */
uint recbuffer; /* Length of one saved record */
ulong last_allocated; /* number of records there is allocated space for */
} HP_BLOCK;
struct st_heap_info; /* For referense */
typedef struct st_hp_keydef /* Key definition with open */
{
uint flag; /* HA_NOSAME | HA_NULL_PART_KEY */
uint keysegs; /* Number of key-segment */
uint length; /* Length of key (automatic) */
uint8_t algorithm; /* HASH / BTREE */
HA_KEYSEG *seg;
HP_BLOCK block; /* Where keys are saved */
/*
Number of buckets used in hash table. Used only to provide
#records estimates for heap key scans.
*/
ha_rows hash_buckets;
TREE rb_tree;
int (*write_key)(struct st_heap_info *info, struct st_hp_keydef *keyinfo,
const uchar *record, uchar *recpos);
int (*delete_key)(struct st_heap_info *info, struct st_hp_keydef *keyinfo,
const uchar *record, uchar *recpos, int flag);
uint (*get_key_length)(struct st_hp_keydef *keydef, const uchar *key);
} HP_KEYDEF;
typedef struct st_heap_columndef /* column information */
{
int16_t type; /* en_fieldtype */
uint32_t length; /* length of field */
uint32_t offset; /* Offset to position in row */
uint8_t null_bit; /* If column may be 0 */
uint16_t null_pos; /* position for null marker */
uint8_t length_bytes; /* length of the size, 1 o 2 bytes */
} HP_COLUMNDEF;
typedef struct st_heap_dataspace /* control data for data space */
{
HP_BLOCK block;
uint chunk_count; /* Total chunks ever allocated in this dataspace */
uint del_chunk_count; /* Deleted chunks count */
uchar *del_link; /* Link to last deleted chunk */
uint chunk_length; /* Total length of one chunk */
uint chunk_dataspace_length; /* Length of payload that will be placed into one chunk */
uint offset_status; /* Offset of the status flag relative to the chunk start */
uint offset_link; /* Offset of the linking pointer relative to the chunk start */
uint is_variable_size; /* Test whether records have variable size and so "next" pointer */
uint64_t total_data_length; /* Total size allocated within this data space */
} HP_DATASPACE;
typedef struct st_heap_share
{
HP_KEYDEF *keydef;
HP_COLUMNDEF *column_defs;
HP_DATASPACE recordspace; /* Describes "block", which contains actual records */
ulong min_records,max_records; /* Params to open */
uint64_t index_length,max_table_size;
uint key_stat_version; /* version to indicate insert/delete */
uint records; /* Actual record (row) count */
uint blength; /* used_chunk_count rounded up to 2^n */
uint fixed_data_length; /* Length of record's fixed part, which contains keys and always fits into the first chunk */
uint fixed_column_count; /* Number of columns stored in fixed_data_length */
uint changed;
uint keys,max_key_length;
uint column_count;
uint currently_disabled_keys; /* saved value from "keys" when disabled */
uint open_count;
char * name; /* Name of "memory-file" */
THR_LOCK lock;
pthread_mutex_t intern_lock; /* Locking for use with _locking */
my_bool delete_on_close;
LIST open_list;
uint auto_key;
uint auto_key_type; /* real type of the auto key segment */
uint64_t auto_increment;
} HP_SHARE;
struct st_hp_hash_info;
typedef struct st_heap_info
{
HP_SHARE *s;
uchar *current_ptr;
struct st_hp_hash_info *current_hash_ptr;
ulong current_record,next_block;
int lastinx,errkey;
int mode; /* Mode of file (READONLY..) */
uint opt_flag,update;
uchar *lastkey; /* Last used key with rkey */
uchar *recbuf; /* Record buffer for rb-tree keys */
enum ha_rkey_function last_find_flag;
TREE_ELEMENT *parents[MAX_TREE_HEIGHT+1];
TREE_ELEMENT **last_pos;
uint lastkey_len;
my_bool implicit_emptied;
THR_LOCK_DATA lock;
LIST open_list;
} HP_INFO;
typedef struct st_heap_create_info
{
uint auto_key; /* keynr [1 - maxkey] for auto key */
uint auto_key_type;
uint max_chunk_size;
uint is_dynamic;
uint64_t max_table_size;
uint64_t auto_increment;
my_bool with_auto_increment;
my_bool internal_table;
} HP_CREATE_INFO;
/* Prototypes for heap-functions */
extern HP_INFO *heap_open(const char *name, int mode);
extern HP_INFO *heap_open_from_share(HP_SHARE *share, int mode);
extern HP_INFO *heap_open_from_share_and_register(HP_SHARE *share, int mode);
extern int heap_close(HP_INFO *info);
extern int heap_write(HP_INFO *info,const uchar *record);
extern int heap_update(HP_INFO *info,const uchar *old_record,const uchar *new_record);
extern int heap_rrnd(HP_INFO *info,uchar *buf,uchar *pos);
extern int heap_scan_init(HP_INFO *info);
extern int heap_scan(register HP_INFO *info, uchar *record);
extern int heap_delete(HP_INFO *info,const uchar *buff);
extern int heap_info(HP_INFO *info,HEAPINFO *x,int flag);
extern int heap_create(const char *name, uint keys, HP_KEYDEF *keydef,
uint columns, HP_COLUMNDEF *columndef,
uint max_key_fieldnr, uint key_part_size,
uint reclength, uint keys_memory_size,
ulong max_records, ulong min_records,
HP_CREATE_INFO *create_info, HP_SHARE **share);
extern int heap_delete_table(const char *name);
extern void heap_drop_table(HP_INFO *info);
extern int heap_extra(HP_INFO *info,enum ha_extra_function function);
extern int heap_reset(HP_INFO *info);
extern int heap_rename(const char *old_name,const char *new_name);
extern int heap_panic(enum ha_panic_function flag);
extern int heap_rsame(HP_INFO *info,uchar *record,int inx);
extern int heap_rnext(HP_INFO *info,uchar *record);
extern int heap_rprev(HP_INFO *info,uchar *record);
extern int heap_rfirst(HP_INFO *info,uchar *record,int inx);
extern int heap_rlast(HP_INFO *info,uchar *record,int inx);
extern void heap_clear(HP_INFO *info);
extern void heap_clear_keys(HP_INFO *info);
extern int heap_disable_indexes(HP_INFO *info);
extern int heap_enable_indexes(HP_INFO *info);
extern int heap_indexes_are_disabled(HP_INFO *info);
extern void heap_update_auto_increment(HP_INFO *info, const uchar *record);
ha_rows hp_rb_records_in_range(HP_INFO *info, int inx, key_range *min_key,
key_range *max_key);
int hp_panic(enum ha_panic_function flag);
int heap_rkey(HP_INFO *info, uchar *record, int inx, const uchar *key,
key_part_map keypart_map, enum ha_rkey_function find_flag);
extern uchar * heap_find(HP_INFO *info,int inx,const uchar *key);
extern int heap_check_heap(HP_INFO *info, my_bool print_status);
extern uchar *heap_position(HP_INFO *info);
/* The following is for programs that uses the old HEAP interface where
pointer to rows where a long instead of a (uchar*).
*/
#if defined(WANT_OLD_HEAP_VERSION) || defined(OLD_HEAP_VERSION)
extern int heap_rrnd_old(HP_INFO *info,uchar *buf,ulong pos);
extern ulong heap_position_old(HP_INFO *info);
#endif
#ifdef OLD_HEAP_VERSION
typedef ulong HEAP_PTR;
#define heap_position(A) heap_position_old(A)
#define heap_rrnd(A,B,C) heap_rrnd_old(A,B,C)
#else
typedef uchar *HEAP_PTR;
#endif
#ifdef __cplusplus
}
#endif
#endif
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