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/* Copyright (C) 2006 MySQL AB & MySQL Finland AB & TCX DataKonsult 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 Street, Fifth Floor, Boston, MA 02110-1335 USA */
/*
Gives a approximated number of how many records there is between two keys.
Used when optimizing querries.
*/
#include "maria_def.h"
#include "ma_rt_index.h"
static ha_rows _ma_record_pos(MARIA_HA *,const uchar *, key_part_map,
enum ha_rkey_function);
static double _ma_search_pos(MARIA_HA *, MARIA_KEY *, uint32, my_off_t);
static uint _ma_keynr(MARIA_PAGE *page, uchar *keypos, uint *ret_max_key);
/**
@brief Estimate how many records there is in a given range
@param info MARIA handler
@param inx Index to use
@param min_key Min key. Is = 0 if no min range
@param max_key Max key. Is = 0 if no max range
@note
We should ONLY return 0 if there is no rows in range
@return Estimated number of rows or error
@retval HA_POS_ERROR error (or we can't estimate number of rows)
@retval number Estimated number of rows
*/
ha_rows maria_records_in_range(MARIA_HA *info, int inx, key_range *min_key,
key_range *max_key)
{
ha_rows start_pos,end_pos,res;
MARIA_SHARE *share= info->s;
MARIA_KEY key;
MARIA_KEYDEF *keyinfo;
DBUG_ENTER("maria_records_in_range");
if ((inx = _ma_check_index(info,inx)) < 0)
DBUG_RETURN(HA_POS_ERROR);
if (fast_ma_readinfo(info))
DBUG_RETURN(HA_POS_ERROR);
info->update&= (HA_STATE_CHANGED+HA_STATE_ROW_CHANGED);
keyinfo= share->keyinfo + inx;
if (share->lock_key_trees)
mysql_rwlock_rdlock(&keyinfo->root_lock);
switch (keyinfo->key_alg) {
#ifdef HAVE_RTREE_KEYS
case HA_KEY_ALG_RTREE:
{
uchar *key_buff;
/*
The problem is that the optimizer doesn't support
RTree keys properly at the moment.
Hope this will be fixed some day.
But now NULL in the min_key means that we
didn't make the task for the RTree key
and expect BTree functionality from it.
As it's not able to handle such request
we return the error.
*/
if (!min_key)
{
res= HA_POS_ERROR;
break;
}
key_buff= info->last_key.data + share->base.max_key_length;
_ma_pack_key(info, &key, inx, key_buff,
min_key->key, min_key->keypart_map,
(HA_KEYSEG**) 0);
res= maria_rtree_estimate(info, &key, maria_read_vec[min_key->flag]);
res= res ? res : 1; /* Don't return 0 */
break;
}
#endif
case HA_KEY_ALG_BTREE:
default:
start_pos= (min_key ?
_ma_record_pos(info, min_key->key, min_key->keypart_map,
min_key->flag) :
(ha_rows) 0);
end_pos= (max_key ?
_ma_record_pos(info, max_key->key, max_key->keypart_map,
max_key->flag) :
info->state->records + (ha_rows) 1);
res= (end_pos < start_pos ? (ha_rows) 0 :
(end_pos == start_pos ? (ha_rows) 1 : end_pos-start_pos));
if (start_pos == HA_POS_ERROR || end_pos == HA_POS_ERROR)
res=HA_POS_ERROR;
}
if (share->lock_key_trees)
mysql_rwlock_unlock(&keyinfo->root_lock);
fast_ma_writeinfo(info);
/**
@todo LOCK
If res==0 (no rows), if we need to guarantee repeatability of the search,
we will need to set a next-key lock in this statement.
Also SELECT COUNT(*)...
*/
DBUG_PRINT("info",("records: %ld",(ulong) (res)));
DBUG_RETURN(res);
}
/* Find relative position (in records) for key in index-tree */
static ha_rows _ma_record_pos(MARIA_HA *info, const uchar *key_data,
key_part_map keypart_map,
enum ha_rkey_function search_flag)
{
uint inx= (uint) info->lastinx;
uint32 nextflag;
uchar *key_buff;
double pos;
MARIA_KEY key;
DBUG_ENTER("_ma_record_pos");
DBUG_PRINT("enter",("search_flag: %d",search_flag));
DBUG_ASSERT(keypart_map);
key_buff= info->lastkey_buff+info->s->base.max_key_length;
_ma_pack_key(info, &key, inx, key_buff, key_data, keypart_map,
(HA_KEYSEG**) 0);
DBUG_EXECUTE("key", _ma_print_key(DBUG_FILE, &key););
nextflag=maria_read_vec[search_flag];
/* Indicate if we're doing a search on a key prefix */
if (((((key_part_map)1) << key.keyinfo->keysegs) - 1) != keypart_map)
nextflag |= SEARCH_PART_KEY;
/*
my_handler.c:ha_compare_text() has a flag 'skip_end_space'.
This is set in my_handler.c:ha_key_cmp() in dependence on the
compare flags 'nextflag' and the column type.
TEXT columns are of type HA_KEYTYPE_VARTEXT. In this case the
condition is skip_end_space= ((nextflag & (SEARCH_FIND |
SEARCH_UPDATE)) == SEARCH_FIND).
SEARCH_FIND is used for an exact key search. The combination
SEARCH_FIND | SEARCH_UPDATE is used in write/update/delete
operations with a comment like "Not real duplicates", whatever this
means. From the condition above we can see that 'skip_end_space' is
always false for these operations. The result is that trailing space
counts in key comparison and hence, empty strings ('', string length
zero, but not NULL) compare less that strings starting with control
characters and these in turn compare less than strings starting with
blanks.
When estimating the number of records in a key range, we request an
exact search for the minimum key. This translates into a plain
SEARCH_FIND flag. Using this alone would lead to a 'skip_end_space'
compare. Empty strings would be expected above control characters.
Their keys would not be found because they are located below control
characters.
This is the reason that we add the SEARCH_UPDATE flag here. It makes
the key estimation compare in the same way like key write operations
do. Only so we will find the keys where they have been inserted.
Adding the flag unconditionally does not hurt as it is used in the
above mentioned condition only. So it can safely be used together
with other flags.
*/
pos= _ma_search_pos(info, &key,
nextflag | SEARCH_SAVE_BUFF | SEARCH_UPDATE,
info->s->state.key_root[inx]);
if (pos >= 0.0)
{
DBUG_PRINT("exit",("pos: %ld",(ulong) (pos*info->state->records)));
DBUG_RETURN((ulong) (pos*info->state->records+0.5));
}
DBUG_RETURN(HA_POS_ERROR);
}
/**
Find offset for key on index page
@notes
Modified version of _ma_search()
@return
@retval 0.0 <= x <= 1.0
*/
static double _ma_search_pos(MARIA_HA *info, MARIA_KEY *key,
uint32 nextflag, my_off_t pos)
{
int flag;
uint keynr, UNINIT_VAR(max_keynr);
my_bool after_key;
uchar *keypos;
double offset;
MARIA_KEYDEF *keyinfo= key->keyinfo;
MARIA_PAGE page;
DBUG_ENTER("_ma_search_pos");
if (pos == HA_OFFSET_ERROR)
DBUG_RETURN(0.0);
if (_ma_fetch_keypage(&page, info, keyinfo, pos,
PAGECACHE_LOCK_LEFT_UNLOCKED, DFLT_INIT_HITS,
info->buff, 1))
goto err;
flag= (*keyinfo->bin_search)(key, &page, nextflag, &keypos,
info->lastkey_buff, &after_key);
keynr= _ma_keynr(&page, keypos, &max_keynr);
if (flag)
{
if (flag == MARIA_FOUND_WRONG_KEY)
DBUG_RETURN(-1); /* error */
/*
Didn't found match. keypos points at next (bigger) key
Try to find a smaller, better matching key.
Matches keynr + [0-1]
*/
if (! page.node)
offset= 0.0;
else if ((offset= _ma_search_pos(info, key, nextflag,
_ma_kpos(page.node,keypos))) < 0)
DBUG_RETURN(offset);
}
else
{
/*
Found match. Keypos points at the start of the found key.
For node pages, we are counting underlying trees and for key
pages we are counting keys.
If this is a node then we have to search backwards to find the
first occurence of the key. The row position in a node tree
is keynr (starting from 0) + offset for sub tree. If there is
no sub tree to search, then we are at start of next sub tree.
If this is not a node, then the current key position is correct.
*/
offset= (page.node) ? 1.0 : 0.0;
if ((nextflag & SEARCH_FIND) && page.node &&
((keyinfo->flag & (HA_NOSAME | HA_NULL_PART)) != HA_NOSAME ||
(nextflag & (SEARCH_PREFIX | SEARCH_NO_FIND | SEARCH_LAST |
SEARCH_PART_KEY))))
{
/*
There may be identical keys in the tree. Try to match on of those.
Matches keynr + [0-1]
*/
if ((offset= _ma_search_pos(info, key, SEARCH_FIND,
_ma_kpos(page.node,keypos))) < 0)
DBUG_RETURN(offset); /* Read error */
}
}
DBUG_PRINT("info",("keynr: %d offset: %g max_keynr: %d nod: %d flag: %d",
keynr,offset,max_keynr,page.node,flag));
DBUG_RETURN((keynr + offset) / (max_keynr + MY_TEST(page.node)));
err:
DBUG_PRINT("exit",("Error: %d",my_errno));
DBUG_RETURN (-1.0);
}
/*
Get keynummer of current key and max number of keys in nod
keynr >= 0 && key_nr <= max_key
*/
static uint _ma_keynr(MARIA_PAGE *page, uchar *keypos, uint *ret_max_key)
{
uint page_flag, nod_flag, keynr, max_key;
uchar t_buff[MARIA_MAX_KEY_BUFF], *pos, *end;
const MARIA_KEYDEF *keyinfo= page->keyinfo;
MARIA_KEY key;
page_flag= page->flag;
nod_flag= page->node;
pos= page->buff + page->info->s->keypage_header + nod_flag;
end= page->buff + page->size;
if (!(keyinfo->flag & (HA_VAR_LENGTH_KEY | HA_BINARY_PACK_KEY)) &&
! (page_flag & KEYPAGE_FLAG_HAS_TRANSID))
{
*ret_max_key= (uint) (end - pos)/(keyinfo->keylength+nod_flag);
return (uint) (keypos - pos)/(keyinfo->keylength+nod_flag);
}
max_key=keynr=0;
t_buff[0]=0; /* Safety */
key.data= t_buff;
key.keyinfo= (MARIA_KEYDEF*) keyinfo;
while (pos < end)
{
if (!(pos= (*keyinfo->skip_key)(&key, page_flag, nod_flag, pos)))
{
DBUG_ASSERT(0);
return 0; /* Error */
}
max_key++;
if (pos == keypos)
keynr= max_key;
}
*ret_max_key=max_key;
return(keynr);
}
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