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mariadb/storage/myisam/rt_index.c
Sergey Vojtovich 18e9c314e4 MDEV-6650 - LINT_INIT emits code in non-debug builds 
Replaced all references to LINT_INIT with UNINIT_VAR and LINT_INIT_STRUCT.
Removed LINT_INIT macro.
2015-03-16 14:48:22 +04:00

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/* Copyright (C) 2002-2006 MySQL AB & Ramil Kalimullin
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 02110-1301, USA */
#include "myisamdef.h"
#ifdef HAVE_RTREE_KEYS
#include "rt_index.h"
#include "rt_key.h"
#include "rt_mbr.h"
#define REINSERT_BUFFER_INC 10
#define PICK_BY_AREA
/*#define PICK_BY_PERIMETER*/
typedef struct st_page_level
{
uint level;
my_off_t offs;
} stPageLevel;
typedef struct st_page_list
{
ulong n_pages;
ulong m_pages;
stPageLevel *pages;
} stPageList;
/*
Find next key in r-tree according to search_flag recursively
NOTES
Used in rtree_find_first() and rtree_find_next()
RETURN
-1 Error
0 Found
1 Not found
*/
static int rtree_find_req(MI_INFO *info, MI_KEYDEF *keyinfo, uint search_flag,
uint nod_cmp_flag, my_off_t page, int level)
{
uchar *k;
uchar *last;
uint nod_flag;
int res;
uchar *page_buf;
int k_len;
uint *saved_key = (uint*) (info->rtree_recursion_state) + level;
if (!(page_buf = (uchar*)my_alloca((uint)keyinfo->block_length)))
{
my_errno = HA_ERR_OUT_OF_MEM;
return -1;
}
if (!_mi_fetch_keypage(info, keyinfo, page, DFLT_INIT_HITS, page_buf, 0))
goto err1;
nod_flag = mi_test_if_nod(page_buf);
k_len = keyinfo->keylength - info->s->base.rec_reflength;
if(info->rtree_recursion_depth >= level)
{
k = page_buf + *saved_key;
}
else
{
k = rt_PAGE_FIRST_KEY(page_buf, nod_flag);
}
last = rt_PAGE_END(page_buf);
for (; k < last; k = rt_PAGE_NEXT_KEY(k, k_len, nod_flag))
{
if (nod_flag)
{
/* this is an internal node in the tree */
if (!(res = rtree_key_cmp(keyinfo->seg, info->first_mbr_key, k,
info->last_rkey_length, nod_cmp_flag)))
{
switch ((res = rtree_find_req(info, keyinfo, search_flag, nod_cmp_flag,
_mi_kpos(nod_flag, k), level + 1)))
{
case 0: /* found - exit from recursion */
*saved_key = (uint) (k - page_buf);
goto ok;
case 1: /* not found - continue searching */
info->rtree_recursion_depth = level;
break;
default: /* error */
case -1:
goto err1;
}
}
}
else
{
/* this is a leaf */
if (!rtree_key_cmp(keyinfo->seg, info->first_mbr_key, k,
info->last_rkey_length, search_flag))
{
uchar *after_key = rt_PAGE_NEXT_KEY(k, k_len, nod_flag);
info->lastpos = _mi_dpos(info, 0, after_key);
info->lastkey_length = k_len + info->s->base.rec_reflength;
memcpy(info->lastkey, k, info->lastkey_length);
info->rtree_recursion_depth = level;
*saved_key = (uint) (last - page_buf);
if (after_key < last)
{
info->int_keypos = info->buff;
info->int_maxpos = info->buff + (last - after_key);
memcpy(info->buff, after_key, last - after_key);
info->buff_used = 0;
}
else
{
info->buff_used = 1;
}
res = 0;
goto ok;
}
}
}
info->lastpos = HA_OFFSET_ERROR;
my_errno = HA_ERR_KEY_NOT_FOUND;
res = 1;
ok:
my_afree((uchar*)page_buf);
return res;
err1:
my_afree((uchar*)page_buf);
info->lastpos = HA_OFFSET_ERROR;
return -1;
}
/*
Find first key in r-tree according to search_flag condition
SYNOPSIS
rtree_find_first()
info Handler to MyISAM file
uint keynr Key number to use
key Key to search for
key_length Length of 'key'
search_flag Bitmap of flags how to do the search
RETURN
-1 Error
0 Found
1 Not found
*/
int rtree_find_first(MI_INFO *info, uint keynr, uchar *key, uint key_length,
uint search_flag)
{
my_off_t root;
uint nod_cmp_flag;
MI_KEYDEF *keyinfo = info->s->keyinfo + keynr;
/*
At the moment index can only properly handle the
MBR_INTERSECT, so we use it for all sorts of queries.
TODO: better searsh for CONTAINS/WITHIN.
*/
search_flag= nod_cmp_flag= MBR_INTERSECT;
if ((root = info->s->state.key_root[keynr]) == HA_OFFSET_ERROR)
{
my_errno= HA_ERR_END_OF_FILE;
return -1;
}
/*
Save searched key, include data pointer.
The data pointer is required if the search_flag contains MBR_DATA.
(minimum bounding rectangle)
*/
memcpy(info->first_mbr_key, key, keyinfo->keylength);
info->last_rkey_length = key_length;
info->rtree_recursion_depth = -1;
info->buff_used = 1;
/*
TODO better search for CONTAINS/WITHIN.
nod_cmp_flag= ((search_flag & (MBR_EQUAL | MBR_WITHIN)) ?
MBR_WITHIN : MBR_INTERSECT);
*/
return rtree_find_req(info, keyinfo, search_flag, nod_cmp_flag, root, 0);
}
/*
Find next key in r-tree according to search_flag condition
SYNOPSIS
rtree_find_next()
info Handler to MyISAM file
uint keynr Key number to use
search_flag Bitmap of flags how to do the search
RETURN
-1 Error
0 Found
1 Not found
*/
int rtree_find_next(MI_INFO *info, uint keynr, uint search_flag)
{
my_off_t root;
uint nod_cmp_flag;
MI_KEYDEF *keyinfo = info->s->keyinfo + keynr;
/*
At the moment index can only properly handle the
MBR_INTERSECT, so we use it for all sorts of queries.
TODO: better searsh for CONTAINS/WITHIN.
*/
search_flag= nod_cmp_flag= MBR_INTERSECT;
if (info->update & HA_STATE_DELETED)
return rtree_find_first(info, keynr, info->lastkey, info->lastkey_length,
search_flag);
if (!info->buff_used)
{
uchar *key= info->int_keypos;
while (key < info->int_maxpos)
{
if (!rtree_key_cmp(keyinfo->seg, info->first_mbr_key, key,
info->last_rkey_length, search_flag))
{
uchar *after_key = key + keyinfo->keylength;
info->lastpos= _mi_dpos(info, 0, after_key);
memcpy(info->lastkey, key, info->lastkey_length);
if (after_key < info->int_maxpos)
info->int_keypos= after_key;
else
info->buff_used= 1;
return 0;
}
key+= keyinfo->keylength;
}
}
if ((root = info->s->state.key_root[keynr]) == HA_OFFSET_ERROR)
{
my_errno= HA_ERR_END_OF_FILE;
return -1;
}
/*
TODO better search for CONTAINS/WITHIN.
nod_cmp_flag= (((search_flag & (MBR_EQUAL | MBR_WITHIN)) ?
MBR_WITHIN : MBR_INTERSECT));
*/
return rtree_find_req(info, keyinfo, search_flag, nod_cmp_flag, root, 0);
}
/*
Get next key in r-tree recursively
NOTES
Used in rtree_get_first() and rtree_get_next()
RETURN
-1 Error
0 Found
1 Not found
*/
static int rtree_get_req(MI_INFO *info, MI_KEYDEF *keyinfo, uint key_length,
my_off_t page, int level)
{
uchar *k;
uchar *last;
uint nod_flag;
int res;
uchar *page_buf;
uint k_len;
uint *saved_key = (uint*) (info->rtree_recursion_state) + level;
if (!(page_buf = (uchar*)my_alloca((uint)keyinfo->block_length)))
return -1;
if (!_mi_fetch_keypage(info, keyinfo, page, DFLT_INIT_HITS, page_buf, 0))
goto err1;
nod_flag = mi_test_if_nod(page_buf);
k_len = keyinfo->keylength - info->s->base.rec_reflength;
if(info->rtree_recursion_depth >= level)
{
k = page_buf + *saved_key;
if (!nod_flag)
{
/* Only leaf pages contain data references. */
/* Need to check next key with data reference. */
k = rt_PAGE_NEXT_KEY(k, k_len, nod_flag);
}
}
else
{
k = rt_PAGE_FIRST_KEY(page_buf, nod_flag);
}
last = rt_PAGE_END(page_buf);
for (; k < last; k = rt_PAGE_NEXT_KEY(k, k_len, nod_flag))
{
if (nod_flag)
{
/* this is an internal node in the tree */
switch ((res = rtree_get_req(info, keyinfo, key_length,
_mi_kpos(nod_flag, k), level + 1)))
{
case 0: /* found - exit from recursion */
*saved_key = (uint) (k - page_buf);
goto ok;
case 1: /* not found - continue searching */
info->rtree_recursion_depth = level;
break;
default:
case -1: /* error */
goto err1;
}
}
else
{
/* this is a leaf */
uchar *after_key = rt_PAGE_NEXT_KEY(k, k_len, nod_flag);
info->lastpos = _mi_dpos(info, 0, after_key);
info->lastkey_length = k_len + info->s->base.rec_reflength;
memcpy(info->lastkey, k, info->lastkey_length);
info->rtree_recursion_depth = level;
*saved_key = (uint) (k - page_buf);
if (after_key < last)
{
info->int_keypos = (uchar*)saved_key;
memcpy(info->buff, page_buf, keyinfo->block_length);
info->int_maxpos = rt_PAGE_END(info->buff);
info->buff_used = 0;
}
else
{
info->buff_used = 1;
}
res = 0;
goto ok;
}
}
info->lastpos = HA_OFFSET_ERROR;
my_errno = HA_ERR_KEY_NOT_FOUND;
res = 1;
ok:
my_afree((uchar*)page_buf);
return res;
err1:
my_afree((uchar*)page_buf);
info->lastpos = HA_OFFSET_ERROR;
return -1;
}
/*
Get first key in r-tree
RETURN
-1 Error
0 Found
1 Not found
*/
int rtree_get_first(MI_INFO *info, uint keynr, uint key_length)
{
my_off_t root;
MI_KEYDEF *keyinfo = info->s->keyinfo + keynr;
if ((root = info->s->state.key_root[keynr]) == HA_OFFSET_ERROR)
{
my_errno= HA_ERR_END_OF_FILE;
return -1;
}
info->rtree_recursion_depth = -1;
info->buff_used = 1;
return rtree_get_req(info, keyinfo, key_length, root, 0);
}
/*
Get next key in r-tree
RETURN
-1 Error
0 Found
1 Not found
*/
int rtree_get_next(MI_INFO *info, uint keynr, uint key_length)
{
my_off_t root= info->s->state.key_root[keynr];
MI_KEYDEF *keyinfo = info->s->keyinfo + keynr;
if (root == HA_OFFSET_ERROR)
{
my_errno= HA_ERR_END_OF_FILE;
return -1;
}
if (!info->buff_used && !info->page_changed)
{
uint k_len = keyinfo->keylength - info->s->base.rec_reflength;
/* rt_PAGE_NEXT_KEY(info->int_keypos) */
uchar *key = info->buff + *(int*)info->int_keypos + k_len +
info->s->base.rec_reflength;
/* rt_PAGE_NEXT_KEY(key) */
uchar *after_key = key + k_len + info->s->base.rec_reflength;
info->lastpos = _mi_dpos(info, 0, after_key);
info->lastkey_length = k_len + info->s->base.rec_reflength;
memcpy(info->lastkey, key, k_len + info->s->base.rec_reflength);
*(uint*)info->int_keypos = (uint) (key - info->buff);
if (after_key >= info->int_maxpos)
{
info->buff_used = 1;
}
return 0;
}
return rtree_get_req(info, keyinfo, key_length, root, 0);
}
/*
Choose non-leaf better key for insertion
*/
#ifdef PICK_BY_PERIMETER
static uchar *rtree_pick_key(MI_INFO *info, MI_KEYDEF *keyinfo, uchar *key,
uint key_length, uchar *page_buf, uint nod_flag)
{
double increase;
double best_incr = DBL_MAX;
double perimeter;
double UNINIT_VAR(best_perimeter);
uchar *UNINIT_VAR(best_key);
uchar *k = rt_PAGE_FIRST_KEY(page_buf, nod_flag);
uchar *last = rt_PAGE_END(page_buf);
for (; k < last; k = rt_PAGE_NEXT_KEY(k, key_length, nod_flag))
{
if ((increase = rtree_perimeter_increase(keyinfo->seg, k, key, key_length,
&perimeter)) == -1)
return NULL;
if ((increase < best_incr)||
(increase == best_incr && perimeter < best_perimeter))
{
best_key = k;
best_perimeter= perimeter;
best_incr = increase;
}
}
return best_key;
}
#endif /*PICK_BY_PERIMETER*/
#ifdef PICK_BY_AREA
static uchar *rtree_pick_key(MI_INFO *info, MI_KEYDEF *keyinfo, uchar *key,
uint key_length, uchar *page_buf, uint nod_flag)
{
double increase;
double UNINIT_VAR(best_incr);
double area;
double UNINIT_VAR(best_area);
uchar *best_key= NULL;
uchar *k = rt_PAGE_FIRST_KEY(page_buf, nod_flag);
uchar *last = rt_PAGE_END(page_buf);
for (; k < last; k = rt_PAGE_NEXT_KEY(k, key_length, nod_flag))
{
/* The following is safe as -1.0 is an exact number */
if ((increase = rtree_area_increase(keyinfo->seg, k, key, key_length,
&area)) == -1.0)
return NULL;
/* The following should be safe, even if we compare doubles */
if (!best_key || increase < best_incr ||
((increase == best_incr) && (area < best_area)))
{
best_key = k;
best_area = area;
best_incr = increase;
}
}
return best_key;
}
#endif /*PICK_BY_AREA*/
/*
Go down and insert key into tree
RETURN
-1 Error
0 Child was not split
1 Child was split
*/
static int rtree_insert_req(MI_INFO *info, MI_KEYDEF *keyinfo, uchar *key,
uint key_length, my_off_t page, my_off_t *new_page,
int ins_level, int level)
{
uchar *k;
uint nod_flag;
uchar *page_buf;
int res;
DBUG_ENTER("rtree_insert_req");
if (!(page_buf = (uchar*)my_alloca((uint)keyinfo->block_length +
HA_MAX_KEY_BUFF)))
{
my_errno = HA_ERR_OUT_OF_MEM;
DBUG_RETURN(-1); /* purecov: inspected */
}
if (!_mi_fetch_keypage(info, keyinfo, page, DFLT_INIT_HITS, page_buf, 0))
goto err1;
nod_flag = mi_test_if_nod(page_buf);
DBUG_PRINT("rtree", ("page: %lu level: %d ins_level: %d nod_flag: %u",
(ulong) page, level, ins_level, nod_flag));
if ((ins_level == -1 && nod_flag) || /* key: go down to leaf */
(ins_level > -1 && ins_level > level)) /* branch: go down to ins_level */
{
if ((k = rtree_pick_key(info, keyinfo, key, key_length, page_buf,
nod_flag)) == NULL)
goto err1;
switch ((res = rtree_insert_req(info, keyinfo, key, key_length,
_mi_kpos(nod_flag, k), new_page, ins_level, level + 1)))
{
case 0: /* child was not split */
{
rtree_combine_rect(keyinfo->seg, k, key, k, key_length);
if (_mi_write_keypage(info, keyinfo, page, DFLT_INIT_HITS, page_buf))
goto err1;
goto ok;
}
case 1: /* child was split */
{
uchar *new_key = page_buf + keyinfo->block_length + nod_flag;
/* set proper MBR for key */
if (rtree_set_key_mbr(info, keyinfo, k, key_length,
_mi_kpos(nod_flag, k)))
goto err1;
/* add new key for new page */
_mi_kpointer(info, new_key - nod_flag, *new_page);
if (rtree_set_key_mbr(info, keyinfo, new_key, key_length, *new_page))
goto err1;
res = rtree_add_key(info, keyinfo, new_key, key_length,
page_buf, new_page);
if (_mi_write_keypage(info, keyinfo, page, DFLT_INIT_HITS, page_buf))
goto err1;
goto ok;
}
default:
case -1: /* error */
{
goto err1;
}
}
}
else
{
res = rtree_add_key(info, keyinfo, key, key_length, page_buf, new_page);
if (_mi_write_keypage(info, keyinfo, page, DFLT_INIT_HITS, page_buf))
goto err1;
goto ok;
}
ok:
my_afree((uchar*)page_buf);
DBUG_RETURN(res);
err1:
my_afree((uchar*)page_buf);
DBUG_RETURN(-1); /* purecov: inspected */
}
/*
Insert key into the tree
RETURN
-1 Error
0 Root was not split
1 Root was split
*/
static int rtree_insert_level(MI_INFO *info, uint keynr, uchar *key,
uint key_length, int ins_level)
{
my_off_t old_root;
MI_KEYDEF *keyinfo = info->s->keyinfo + keynr;
int res;
my_off_t new_page;
DBUG_ENTER("rtree_insert_level");
if ((old_root = info->s->state.key_root[keynr]) == HA_OFFSET_ERROR)
{
if ((old_root = _mi_new(info, keyinfo, DFLT_INIT_HITS)) == HA_OFFSET_ERROR)
DBUG_RETURN(-1);
info->buff_used = 1;
mi_putint(info->buff, 2, 0);
res = rtree_add_key(info, keyinfo, key, key_length, info->buff, NULL);
if (_mi_write_keypage(info, keyinfo, old_root, DFLT_INIT_HITS, info->buff))
DBUG_RETURN(1);
info->s->state.key_root[keynr] = old_root;
DBUG_RETURN(res);
}
switch ((res = rtree_insert_req(info, keyinfo, key, key_length,
old_root, &new_page, ins_level, 0)))
{
case 0: /* root was not split */
{
break;
}
case 1: /* root was split, grow a new root */
{
uchar *new_root_buf= info->buff + info->s->base.max_key_block_length;
my_off_t new_root;
uchar *new_key;
uint nod_flag = info->s->base.key_reflength;
DBUG_PRINT("rtree", ("root was split, grow a new root"));
mi_putint(new_root_buf, 2, nod_flag);
if ((new_root = _mi_new(info, keyinfo, DFLT_INIT_HITS)) ==
HA_OFFSET_ERROR)
goto err1;
new_key = new_root_buf + keyinfo->block_length + nod_flag;
_mi_kpointer(info, new_key - nod_flag, old_root);
if (rtree_set_key_mbr(info, keyinfo, new_key, key_length, old_root))
goto err1;
if (rtree_add_key(info, keyinfo, new_key, key_length, new_root_buf, NULL)
== -1)
goto err1;
_mi_kpointer(info, new_key - nod_flag, new_page);
if (rtree_set_key_mbr(info, keyinfo, new_key, key_length, new_page))
goto err1;
if (rtree_add_key(info, keyinfo, new_key, key_length, new_root_buf, NULL)
== -1)
goto err1;
if (_mi_write_keypage(info, keyinfo, new_root,
DFLT_INIT_HITS, new_root_buf))
goto err1;
info->s->state.key_root[keynr] = new_root;
DBUG_PRINT("rtree", ("new root page: %lu level: %d nod_flag: %u",
(ulong) new_root, 0, mi_test_if_nod(new_root_buf)));
break;
err1:
DBUG_RETURN(-1); /* purecov: inspected */
}
default:
case -1: /* error */
{
break;
}
}
DBUG_RETURN(res);
}
/*
Insert key into the tree - interface function
RETURN
-1 Error
0 OK
*/
int rtree_insert(MI_INFO *info, uint keynr, uchar *key, uint key_length)
{
DBUG_ENTER("rtree_insert");
DBUG_RETURN((!key_length ||
(rtree_insert_level(info, keynr, key, key_length, -1) == -1)) ?
-1 : 0);
}
/*
Fill reinsert page buffer
RETURN
-1 Error
0 OK
*/
static int rtree_fill_reinsert_list(stPageList *ReinsertList, my_off_t page,
int level)
{
DBUG_ENTER("rtree_fill_reinsert_list");
DBUG_PRINT("rtree", ("page: %lu level: %d", (ulong) page, level));
if (ReinsertList->n_pages == ReinsertList->m_pages)
{
ReinsertList->m_pages += REINSERT_BUFFER_INC;
if (!(ReinsertList->pages = (stPageLevel*)my_realloc((uchar*)ReinsertList->pages,
ReinsertList->m_pages * sizeof(stPageLevel), MYF(MY_ALLOW_ZERO_PTR))))
goto err1;
}
/* save page to ReinsertList */
ReinsertList->pages[ReinsertList->n_pages].offs = page;
ReinsertList->pages[ReinsertList->n_pages].level = level;
ReinsertList->n_pages++;
DBUG_RETURN(0);
err1:
DBUG_RETURN(-1); /* purecov: inspected */
}
/*
Go down and delete key from the tree
RETURN
-1 Error
0 Deleted
1 Not found
2 Empty leaf
*/
static int rtree_delete_req(MI_INFO *info, MI_KEYDEF *keyinfo, uchar *key,
uint key_length, my_off_t page, uint *page_size,
stPageList *ReinsertList, int level)
{
uchar *k;
uchar *last;
ulong i;
uint nod_flag;
uchar *page_buf;
int res;
DBUG_ENTER("rtree_delete_req");
if (!(page_buf = (uchar*)my_alloca((uint)keyinfo->block_length)))
{
my_errno = HA_ERR_OUT_OF_MEM;
DBUG_RETURN(-1); /* purecov: inspected */
}
if (!_mi_fetch_keypage(info, keyinfo, page, DFLT_INIT_HITS, page_buf, 0))
goto err1;
nod_flag = mi_test_if_nod(page_buf);
DBUG_PRINT("rtree", ("page: %lu level: %d nod_flag: %u",
(ulong) page, level, nod_flag));
k = rt_PAGE_FIRST_KEY(page_buf, nod_flag);
last = rt_PAGE_END(page_buf);
for (i = 0; k < last; k = rt_PAGE_NEXT_KEY(k, key_length, nod_flag), ++i)
{
if (nod_flag)
{
/* not leaf */
if (!rtree_key_cmp(keyinfo->seg, key, k, key_length, MBR_WITHIN))
{
switch ((res = rtree_delete_req(info, keyinfo, key, key_length,
_mi_kpos(nod_flag, k), page_size, ReinsertList, level + 1)))
{
case 0: /* deleted */
{
/* test page filling */
if (*page_size + key_length >= rt_PAGE_MIN_SIZE(keyinfo->block_length))
{
/* OK */
/* Calculate a new key value (MBR) for the shrinked block. */
if (rtree_set_key_mbr(info, keyinfo, k, key_length,
_mi_kpos(nod_flag, k)))
goto err1;
if (_mi_write_keypage(info, keyinfo, page,
DFLT_INIT_HITS, page_buf))
goto err1;
}
else
{
/*
Too small: delete key & add it descendant to reinsert list.
Store position and level of the block so that it can be
accessed later for inserting the remaining keys.
*/
DBUG_PRINT("rtree", ("too small. move block to reinsert list"));
if (rtree_fill_reinsert_list(ReinsertList, _mi_kpos(nod_flag, k),
level + 1))
goto err1;
/*
Delete the key that references the block. This makes the
block disappear from the index. Hence we need to insert
its remaining keys later. Note: if the block is a branch
block, we do not only remove this block, but the whole
subtree. So we need to re-insert its keys on the same
level later to reintegrate the subtrees.
*/
rtree_delete_key(info, page_buf, k, key_length, nod_flag);
if (_mi_write_keypage(info, keyinfo, page,
DFLT_INIT_HITS, page_buf))
goto err1;
*page_size = mi_getint(page_buf);
}
goto ok;
}
case 1: /* not found - continue searching */
{
break;
}
case 2: /* vacuous case: last key in the leaf */
{
rtree_delete_key(info, page_buf, k, key_length, nod_flag);
if (_mi_write_keypage(info, keyinfo, page,
DFLT_INIT_HITS, page_buf))
goto err1;
*page_size = mi_getint(page_buf);
res = 0;
goto ok;
}
default: /* error */
case -1:
{
goto err1;
}
}
}
}
else
{
/* leaf */
if (!rtree_key_cmp(keyinfo->seg, key, k, key_length, MBR_EQUAL | MBR_DATA))
{
rtree_delete_key(info, page_buf, k, key_length, nod_flag);
*page_size = mi_getint(page_buf);
if (*page_size == 2)
{
/* last key in the leaf */
res = 2;
if (_mi_dispose(info, keyinfo, page, DFLT_INIT_HITS))
goto err1;
}
else
{
res = 0;
if (_mi_write_keypage(info, keyinfo, page, DFLT_INIT_HITS, page_buf))
goto err1;
}
goto ok;
}
}
}
res = 1;
ok:
my_afree((uchar*)page_buf);
DBUG_RETURN(res);
err1:
my_afree((uchar*)page_buf);
DBUG_RETURN(-1); /* purecov: inspected */
}
/*
Delete key - interface function
RETURN
-1 Error
0 Deleted
*/
int rtree_delete(MI_INFO *info, uint keynr, uchar *key, uint key_length)
{
uint page_size;
stPageList ReinsertList;
my_off_t old_root;
MI_KEYDEF *keyinfo = info->s->keyinfo + keynr;
DBUG_ENTER("rtree_delete");
if ((old_root = info->s->state.key_root[keynr]) == HA_OFFSET_ERROR)
{
my_errno= HA_ERR_END_OF_FILE;
DBUG_RETURN(-1); /* purecov: inspected */
}
DBUG_PRINT("rtree", ("starting deletion at root page: %lu",
(ulong) old_root));
ReinsertList.pages = NULL;
ReinsertList.n_pages = 0;
ReinsertList.m_pages = 0;
switch (rtree_delete_req(info, keyinfo, key, key_length, old_root,
&page_size, &ReinsertList, 0))
{
case 2: /* empty */
{
info->s->state.key_root[keynr] = HA_OFFSET_ERROR;
DBUG_RETURN(0);
}
case 0: /* deleted */
{
uint nod_flag;
ulong i;
for (i = 0; i < ReinsertList.n_pages; ++i)
{
uchar *page_buf;
uchar *k;
uchar *last;
if (!(page_buf = (uchar*)my_alloca((uint)keyinfo->block_length)))
{
my_errno = HA_ERR_OUT_OF_MEM;
goto err1;
}
if (!_mi_fetch_keypage(info, keyinfo, ReinsertList.pages[i].offs,
DFLT_INIT_HITS, page_buf, 0))
goto err1;
nod_flag = mi_test_if_nod(page_buf);
DBUG_PRINT("rtree", ("reinserting keys from "
"page: %lu level: %d nod_flag: %u",
(ulong) ReinsertList.pages[i].offs,
ReinsertList.pages[i].level, nod_flag));
k = rt_PAGE_FIRST_KEY(page_buf, nod_flag);
last = rt_PAGE_END(page_buf);
for (; k < last; k = rt_PAGE_NEXT_KEY(k, key_length, nod_flag))
{
int res;
if ((res= rtree_insert_level(info, keynr, k, key_length,
ReinsertList.pages[i].level)) == -1)
{
my_afree((uchar*)page_buf);
goto err1;
}
if (res)
{
ulong j;
DBUG_PRINT("rtree", ("root has been split, adjust levels"));
for (j= i; j < ReinsertList.n_pages; j++)
{
ReinsertList.pages[j].level++;
DBUG_PRINT("rtree", ("keys from page: %lu now level: %d",
(ulong) ReinsertList.pages[i].offs,
ReinsertList.pages[i].level));
}
}
}
my_afree((uchar*)page_buf);
if (_mi_dispose(info, keyinfo, ReinsertList.pages[i].offs,
DFLT_INIT_HITS))
goto err1;
}
if (ReinsertList.pages)
my_free(ReinsertList.pages);
/* check for redundant root (not leaf, 1 child) and eliminate */
if ((old_root = info->s->state.key_root[keynr]) == HA_OFFSET_ERROR)
goto err1;
if (!_mi_fetch_keypage(info, keyinfo, old_root, DFLT_INIT_HITS,
info->buff, 0))
goto err1;
nod_flag = mi_test_if_nod(info->buff);
page_size = mi_getint(info->buff);
if (nod_flag && (page_size == 2 + key_length + nod_flag))
{
my_off_t new_root = _mi_kpos(nod_flag,
rt_PAGE_FIRST_KEY(info->buff, nod_flag));
if (_mi_dispose(info, keyinfo, old_root, DFLT_INIT_HITS))
goto err1;
info->s->state.key_root[keynr] = new_root;
}
info->update= HA_STATE_DELETED;
DBUG_RETURN(0);
err1:
DBUG_RETURN(-1); /* purecov: inspected */
}
case 1: /* not found */
{
my_errno = HA_ERR_KEY_NOT_FOUND;
DBUG_RETURN(-1); /* purecov: inspected */
}
default:
case -1: /* error */
{
DBUG_RETURN(-1); /* purecov: inspected */
}
}
}
/*
Estimate number of suitable keys in the tree
RETURN
estimated value
*/
ha_rows rtree_estimate(MI_INFO *info, uint keynr, uchar *key,
uint key_length, uint flag)
{
MI_KEYDEF *keyinfo = info->s->keyinfo + keynr;
my_off_t root;
uint i = 0;
uchar *k;
uchar *last;
uint nod_flag;
uchar *page_buf;
uint k_len;
double area = 0;
ha_rows res = 0;
if (flag & MBR_DISJOINT)
return HA_POS_ERROR;
if ((root = info->s->state.key_root[keynr]) == HA_OFFSET_ERROR)
return HA_POS_ERROR;
if (!(page_buf = (uchar*)my_alloca((uint)keyinfo->block_length)))
return HA_POS_ERROR;
if (!_mi_fetch_keypage(info, keyinfo, root, DFLT_INIT_HITS, page_buf, 0))
goto err1;
nod_flag = mi_test_if_nod(page_buf);
k_len = keyinfo->keylength - info->s->base.rec_reflength;
k = rt_PAGE_FIRST_KEY(page_buf, nod_flag);
last = rt_PAGE_END(page_buf);
for (; k < last; k = rt_PAGE_NEXT_KEY(k, k_len, nod_flag), ++i)
{
if (nod_flag)
{
double k_area = rtree_rect_volume(keyinfo->seg, k, key_length);
/* The following should be safe, even if we compare doubles */
if (k_area == 0)
{
if (flag & (MBR_CONTAIN | MBR_INTERSECT))
{
area += 1;
}
else if (flag & (MBR_WITHIN | MBR_EQUAL))
{
if (!rtree_key_cmp(keyinfo->seg, key, k, key_length, MBR_WITHIN))
area += 1;
}
else
goto err1;
}
else
{
if (flag & (MBR_CONTAIN | MBR_INTERSECT))
{
area += rtree_overlapping_area(keyinfo->seg, key, k, key_length) /
k_area;
}
else if (flag & (MBR_WITHIN | MBR_EQUAL))
{
if (!rtree_key_cmp(keyinfo->seg, key, k, key_length, MBR_WITHIN))
area += rtree_rect_volume(keyinfo->seg, key, key_length) /
k_area;
}
else
goto err1;
}
}
else
{
if (!rtree_key_cmp(keyinfo->seg, key, k, key_length, flag))
++res;
}
}
if (nod_flag)
{
if (i)
res = (ha_rows) (area / i * info->state->records);
else
res = HA_POS_ERROR;
}
my_afree((uchar*)page_buf);
return res;
err1:
my_afree((uchar*)page_buf);
return HA_POS_ERROR;
}
#endif /*HAVE_RTREE_KEYS*/
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