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Kirill Smelkov
mariadb
Commits
edd5a859
Commit
edd5a859
authored
Mar 28, 2007
by
unknown
Browse files
Options
Browse Files
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Merge mysql.com:/home/psergey/mysql-4.1-bug26625
into mysql.com:/home/psergey/mysql-4.1-bug26624-r2
parents
60189d35
9639eb3d
Changes
3
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Showing
3 changed files
with
191 additions
and
31 deletions
+191
-31
mysql-test/r/range.result
mysql-test/r/range.result
+28
-0
mysql-test/t/range.test
mysql-test/t/range.test
+32
-0
sql/opt_range.cc
sql/opt_range.cc
+131
-31
No files found.
mysql-test/r/range.result
View file @
edd5a859
...
@@ -701,4 +701,32 @@ d8c4177d225791924.30714720
...
@@ -701,4 +701,32 @@ d8c4177d225791924.30714720
d8c4177d2380fc201.39666693
d8c4177d2380fc201.39666693
d8c4177d24ccef970.14957924
d8c4177d24ccef970.14957924
DROP TABLE t1;
DROP TABLE t1;
create table t1 (
c1 char(10), c2 char(10), c3 char(10), c4 char(10),
c5 char(10), c6 char(10), c7 char(10), c8 char(10),
c9 char(10), c10 char(10), c11 char(10), c12 char(10),
c13 char(10), c14 char(10), c15 char(10), c16 char(10),
index(c1, c2, c3, c4, c5, c6, c7, c8, c9, c10, c11, c12,c13,c14,c15,c16)
);
insert into t1 (c1) values ('1'),('1'),('1'),('1');
select * from t1 where
c1 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
and c2 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
and c3 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
and c4 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
and c5 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
and c6 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
and c7 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
and c8 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
and c9 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
and c10 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
and c11 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
and c12 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
and c13 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
and c14 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
and c15 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
and c16 in ("abcdefgh", "123456789", "qwertyuio", "asddfgh")
;
c1 c2 c3 c4 c5 c6 c7 c8 c9 c10 c11 c12 c13 c14 c15 c16
drop table t1;
End of 4.1 tests
End of 4.1 tests
mysql-test/t/range.test
View file @
edd5a859
...
@@ -563,4 +563,36 @@ SELECT s.oxid FROM t1 v, t1 s
...
@@ -563,4 +563,36 @@ SELECT s.oxid FROM t1 v, t1 s
DROP
TABLE
t1
;
DROP
TABLE
t1
;
# BUG#26624 high mem usage (crash) in range optimizer (depends on order of fields in where)
create
table
t1
(
c1
char
(
10
),
c2
char
(
10
),
c3
char
(
10
),
c4
char
(
10
),
c5
char
(
10
),
c6
char
(
10
),
c7
char
(
10
),
c8
char
(
10
),
c9
char
(
10
),
c10
char
(
10
),
c11
char
(
10
),
c12
char
(
10
),
c13
char
(
10
),
c14
char
(
10
),
c15
char
(
10
),
c16
char
(
10
),
index
(
c1
,
c2
,
c3
,
c4
,
c5
,
c6
,
c7
,
c8
,
c9
,
c10
,
c11
,
c12
,
c13
,
c14
,
c15
,
c16
)
);
insert
into
t1
(
c1
)
values
(
'1'
),(
'1'
),(
'1'
),(
'1'
);
# This must run without crash and fast:
select
*
from
t1
where
c1
in
(
"abcdefgh"
,
"123456789"
,
"qwertyuio"
,
"asddfgh"
)
and
c2
in
(
"abcdefgh"
,
"123456789"
,
"qwertyuio"
,
"asddfgh"
)
and
c3
in
(
"abcdefgh"
,
"123456789"
,
"qwertyuio"
,
"asddfgh"
)
and
c4
in
(
"abcdefgh"
,
"123456789"
,
"qwertyuio"
,
"asddfgh"
)
and
c5
in
(
"abcdefgh"
,
"123456789"
,
"qwertyuio"
,
"asddfgh"
)
and
c6
in
(
"abcdefgh"
,
"123456789"
,
"qwertyuio"
,
"asddfgh"
)
and
c7
in
(
"abcdefgh"
,
"123456789"
,
"qwertyuio"
,
"asddfgh"
)
and
c8
in
(
"abcdefgh"
,
"123456789"
,
"qwertyuio"
,
"asddfgh"
)
and
c9
in
(
"abcdefgh"
,
"123456789"
,
"qwertyuio"
,
"asddfgh"
)
and
c10
in
(
"abcdefgh"
,
"123456789"
,
"qwertyuio"
,
"asddfgh"
)
and
c11
in
(
"abcdefgh"
,
"123456789"
,
"qwertyuio"
,
"asddfgh"
)
and
c12
in
(
"abcdefgh"
,
"123456789"
,
"qwertyuio"
,
"asddfgh"
)
and
c13
in
(
"abcdefgh"
,
"123456789"
,
"qwertyuio"
,
"asddfgh"
)
and
c14
in
(
"abcdefgh"
,
"123456789"
,
"qwertyuio"
,
"asddfgh"
)
and
c15
in
(
"abcdefgh"
,
"123456789"
,
"qwertyuio"
,
"asddfgh"
)
and
c16
in
(
"abcdefgh"
,
"123456789"
,
"qwertyuio"
,
"asddfgh"
)
;
drop
table
t1
;
--
echo
End
of
4.1
tests
--
echo
End
of
4.1
tests
sql/opt_range.cc
View file @
edd5a859
...
@@ -128,6 +128,89 @@ static char is_null_string[2]= {1,0};
...
@@ -128,6 +128,89 @@ static char is_null_string[2]= {1,0};
- get_quick_select() - Walk the SEL_ARG, materialize the key intervals,
- get_quick_select() - Walk the SEL_ARG, materialize the key intervals,
and create QUICK_RANGE_SELECT object that will
and create QUICK_RANGE_SELECT object that will
read records within these intervals.
read records within these intervals.
4. SPACE COMPLEXITY NOTES
SEL_ARG graph is a representation of an ordered disjoint sequence of
intervals over the ordered set of index tuple values.
For multi-part keys, one can construct a WHERE expression such that its
list of intervals will be of combinatorial size. Here is an example:
(keypart1 IN (1,2, ..., n1)) AND
(keypart2 IN (1,2, ..., n2)) AND
(keypart3 IN (1,2, ..., n3))
For this WHERE clause the list of intervals will have n1*n2*n3 intervals
of form
(keypart1, keypart2, keypart3) = (k1, k2, k3), where 1 <= k{i} <= n{i}
SEL_ARG graph structure aims to reduce the amount of required space by
"sharing" the elementary intervals when possible (the pic at the
beginning of this comment has examples of such sharing). The sharing may
prevent combinatorial blowup:
There are WHERE clauses that have combinatorial-size interval lists but
will be represented by a compact SEL_ARG graph.
Example:
(keypartN IN (1,2, ..., n1)) AND
...
(keypart2 IN (1,2, ..., n2)) AND
(keypart1 IN (1,2, ..., n3))
but not in all cases:
- There are WHERE clauses that do have a compact SEL_ARG-graph
representation but get_mm_tree() and its callees will construct a
graph of combinatorial size.
Example:
(keypart1 IN (1,2, ..., n1)) AND
(keypart2 IN (1,2, ..., n2)) AND
...
(keypartN IN (1,2, ..., n3))
- There are WHERE clauses for which the minimal possible SEL_ARG graph
representation will have combinatorial size.
Example:
By induction: Let's take any interval on some keypart in the middle:
kp15=1
Then let's AND it with this interval 'structure' from preceding and
following keyparts:
(kp14=c1 AND kp16=c3) OR keypart14=c2) (*)
We will obtain this SEL_ARG graph:
kp14 $ kp15 $ kp16
$ $
+---------+ $ +--------+ $ +---------+
| kp14=c1 |--$-->| kp15=1 |--$-->| kp16=c3 |
+---------+ $ +--------+ $ +---------+
| $ $
+---------+ $ +--------+ $
| kp14=c2 |--$-->| kp15=1 | $
+---------+ $ +--------+ $
$ $
Note that we had to duplicate "kp15=1" and there was no way to avoid
that.
The induction step: AND the obtained expression with another "wrapping"
expression like (*).
When the process ends because of the limit on max. number of keyparts
we'll have:
WHERE clause length is O(3*#max_keyparts)
SEL_ARG graph size is O(2^(#max_keyparts/2))
(it is also possible to construct a case where instead of 2 in 2^n we
have a bigger constant, e.g. 4, and get a graph with 4^(31/2)= 2^31
nodes)
We avoid consuming too much memory by setting a limit on the number of
SEL_ARG object we can construct during one range analysis invocation.
*/
*/
class
SEL_ARG
:
public
Sql_alloc
class
SEL_ARG
:
public
Sql_alloc
...
@@ -158,6 +241,8 @@ public:
...
@@ -158,6 +241,8 @@ public:
enum
leaf_color
{
BLACK
,
RED
}
color
;
enum
leaf_color
{
BLACK
,
RED
}
color
;
enum
Type
{
IMPOSSIBLE
,
MAYBE
,
MAYBE_KEY
,
KEY_RANGE
}
type
;
enum
Type
{
IMPOSSIBLE
,
MAYBE
,
MAYBE_KEY
,
KEY_RANGE
}
type
;
enum
{
MAX_SEL_ARGS
=
64000
};
SEL_ARG
()
{}
SEL_ARG
()
{}
SEL_ARG
(
SEL_ARG
&
);
SEL_ARG
(
SEL_ARG
&
);
SEL_ARG
(
Field
*
,
const
char
*
,
const
char
*
);
SEL_ARG
(
Field
*
,
const
char
*
,
const
char
*
);
...
@@ -227,7 +312,8 @@ public:
...
@@ -227,7 +312,8 @@ public:
return
new
SEL_ARG
(
field
,
part
,
min_value
,
arg
->
max_value
,
return
new
SEL_ARG
(
field
,
part
,
min_value
,
arg
->
max_value
,
min_flag
,
arg
->
max_flag
,
maybe_flag
|
arg
->
maybe_flag
);
min_flag
,
arg
->
max_flag
,
maybe_flag
|
arg
->
maybe_flag
);
}
}
SEL_ARG
*
clone
(
SEL_ARG
*
new_parent
,
SEL_ARG
**
next
);
SEL_ARG
*
clone
(
struct
st_qsel_param
*
param
,
SEL_ARG
*
new_parent
,
SEL_ARG
**
next
);
bool
copy_min
(
SEL_ARG
*
arg
)
bool
copy_min
(
SEL_ARG
*
arg
)
{
// Get overlapping range
{
// Get overlapping range
...
@@ -365,7 +451,7 @@ public:
...
@@ -365,7 +451,7 @@ public:
{
{
return
parent
->
left
==
this
?
&
parent
->
left
:
&
parent
->
right
;
return
parent
->
left
==
this
?
&
parent
->
left
:
&
parent
->
right
;
}
}
SEL_ARG
*
clone_tree
();
SEL_ARG
*
clone_tree
(
struct
st_qsel_param
*
param
);
};
};
...
@@ -391,6 +477,8 @@ typedef struct st_qsel_param {
...
@@ -391,6 +477,8 @@ typedef struct st_qsel_param {
max_key
[
MAX_KEY_LENGTH
+
MAX_FIELD_WIDTH
];
max_key
[
MAX_KEY_LENGTH
+
MAX_FIELD_WIDTH
];
bool
quick
;
// Don't calulate possible keys
bool
quick
;
// Don't calulate possible keys
COND
*
cond
;
COND
*
cond
;
/* Numbr of SEL_ARG objects allocated by SEL_ARG::clone_tree operations */
uint
alloced_sel_args
;
}
PARAM
;
}
PARAM
;
static
SEL_TREE
*
get_mm_parts
(
PARAM
*
param
,
COND
*
cond_func
,
Field
*
field
,
static
SEL_TREE
*
get_mm_parts
(
PARAM
*
param
,
COND
*
cond_func
,
Field
*
field
,
...
@@ -413,8 +501,8 @@ static void print_quick(QUICK_SELECT *quick,const key_map* needed_reg);
...
@@ -413,8 +501,8 @@ static void print_quick(QUICK_SELECT *quick,const key_map* needed_reg);
static
SEL_TREE
*
tree_and
(
PARAM
*
param
,
SEL_TREE
*
tree1
,
SEL_TREE
*
tree2
);
static
SEL_TREE
*
tree_and
(
PARAM
*
param
,
SEL_TREE
*
tree1
,
SEL_TREE
*
tree2
);
static
SEL_TREE
*
tree_or
(
PARAM
*
param
,
SEL_TREE
*
tree1
,
SEL_TREE
*
tree2
);
static
SEL_TREE
*
tree_or
(
PARAM
*
param
,
SEL_TREE
*
tree1
,
SEL_TREE
*
tree2
);
static
SEL_ARG
*
sel_add
(
SEL_ARG
*
key1
,
SEL_ARG
*
key2
);
static
SEL_ARG
*
sel_add
(
SEL_ARG
*
key1
,
SEL_ARG
*
key2
);
static
SEL_ARG
*
key_or
(
SEL_ARG
*
key1
,
SEL_ARG
*
key2
);
static
SEL_ARG
*
key_or
(
PARAM
*
param
,
SEL_ARG
*
key1
,
SEL_ARG
*
key2
);
static
SEL_ARG
*
key_and
(
SEL_ARG
*
key1
,
SEL_ARG
*
key2
,
uint
clone_flag
);
static
SEL_ARG
*
key_and
(
PARAM
*
param
,
SEL_ARG
*
key1
,
SEL_ARG
*
key2
,
uint
clone_flag
);
static
bool
get_range
(
SEL_ARG
**
e1
,
SEL_ARG
**
e2
,
SEL_ARG
*
root1
);
static
bool
get_range
(
SEL_ARG
**
e1
,
SEL_ARG
**
e2
,
SEL_ARG
*
root1
);
static
bool
get_quick_keys
(
PARAM
*
param
,
QUICK_SELECT
*
quick
,
KEY_PART
*
key
,
static
bool
get_quick_keys
(
PARAM
*
param
,
QUICK_SELECT
*
quick
,
KEY_PART
*
key
,
SEL_ARG
*
key_tree
,
char
*
min_key
,
uint
min_key_flag
,
SEL_ARG
*
key_tree
,
char
*
min_key
,
uint
min_key_flag
,
...
@@ -424,6 +512,7 @@ static bool eq_tree(SEL_ARG* a,SEL_ARG *b);
...
@@ -424,6 +512,7 @@ static bool eq_tree(SEL_ARG* a,SEL_ARG *b);
static
SEL_ARG
null_element
(
SEL_ARG
::
IMPOSSIBLE
);
static
SEL_ARG
null_element
(
SEL_ARG
::
IMPOSSIBLE
);
static
bool
null_part_in_key
(
KEY_PART
*
key_part
,
const
char
*
key
,
uint
length
);
static
bool
null_part_in_key
(
KEY_PART
*
key_part
,
const
char
*
key
,
uint
length
);
/***************************************************************************
/***************************************************************************
** Basic functions for SQL_SELECT and QUICK_SELECT
** Basic functions for SQL_SELECT and QUICK_SELECT
***************************************************************************/
***************************************************************************/
...
@@ -568,12 +657,17 @@ SEL_ARG::SEL_ARG(Field *field_,uint8 part_,char *min_value_,char *max_value_,
...
@@ -568,12 +657,17 @@ SEL_ARG::SEL_ARG(Field *field_,uint8 part_,char *min_value_,char *max_value_,
left
=
right
=
&
null_element
;
left
=
right
=
&
null_element
;
}
}
SEL_ARG
*
SEL_ARG
::
clone
(
SEL_ARG
*
new_parent
,
SEL_ARG
**
next_arg
)
SEL_ARG
*
SEL_ARG
::
clone
(
PARAM
*
param
,
SEL_ARG
*
new_parent
,
SEL_ARG
**
next_arg
)
{
{
SEL_ARG
*
tmp
;
SEL_ARG
*
tmp
;
/* Bail out if we have already generated too many SEL_ARGs */
if
(
++
param
->
alloced_sel_args
>
MAX_SEL_ARGS
)
return
0
;
if
(
type
!=
KEY_RANGE
)
if
(
type
!=
KEY_RANGE
)
{
{
if
(
!
(
tmp
=
new
SEL_ARG
(
type
)))
if
(
!
(
tmp
=
new
(
param
->
mem_root
)
SEL_ARG
(
type
)))
return
0
;
// out of memory
return
0
;
// out of memory
tmp
->
prev
=
*
next_arg
;
// Link into next/prev chain
tmp
->
prev
=
*
next_arg
;
// Link into next/prev chain
(
*
next_arg
)
->
next
=
tmp
;
(
*
next_arg
)
->
next
=
tmp
;
...
@@ -581,20 +675,20 @@ SEL_ARG *SEL_ARG::clone(SEL_ARG *new_parent,SEL_ARG **next_arg)
...
@@ -581,20 +675,20 @@ SEL_ARG *SEL_ARG::clone(SEL_ARG *new_parent,SEL_ARG **next_arg)
}
}
else
else
{
{
if
(
!
(
tmp
=
new
SEL_ARG
(
field
,
part
,
min_value
,
max_value
,
if
(
!
(
tmp
=
new
(
param
->
mem_root
)
SEL_ARG
(
field
,
part
,
min_value
,
max_value
,
min_flag
,
max_flag
,
maybe_flag
)))
min_flag
,
max_flag
,
maybe_flag
)))
return
0
;
// OOM
return
0
;
// OOM
tmp
->
parent
=
new_parent
;
tmp
->
parent
=
new_parent
;
tmp
->
next_key_part
=
next_key_part
;
tmp
->
next_key_part
=
next_key_part
;
if
(
left
!=
&
null_element
)
if
(
left
!=
&
null_element
)
tmp
->
left
=
left
->
clone
(
tmp
,
next_arg
);
tmp
->
left
=
left
->
clone
(
param
,
tmp
,
next_arg
);
tmp
->
prev
=
*
next_arg
;
// Link into next/prev chain
tmp
->
prev
=
*
next_arg
;
// Link into next/prev chain
(
*
next_arg
)
->
next
=
tmp
;
(
*
next_arg
)
->
next
=
tmp
;
(
*
next_arg
)
=
tmp
;
(
*
next_arg
)
=
tmp
;
if
(
right
!=
&
null_element
)
if
(
right
!=
&
null_element
)
if
(
!
(
tmp
->
right
=
right
->
clone
(
tmp
,
next_arg
)))
if
(
!
(
tmp
->
right
=
right
->
clone
(
param
,
tmp
,
next_arg
)))
return
0
;
// OOM
return
0
;
// OOM
}
}
increment_use_count
(
1
);
increment_use_count
(
1
);
...
@@ -672,11 +766,12 @@ static int sel_cmp(Field *field, char *a,char *b,uint8 a_flag,uint8 b_flag)
...
@@ -672,11 +766,12 @@ static int sel_cmp(Field *field, char *a,char *b,uint8 a_flag,uint8 b_flag)
}
}
SEL_ARG
*
SEL_ARG
::
clone_tree
()
SEL_ARG
*
SEL_ARG
::
clone_tree
(
PARAM
*
param
)
{
{
SEL_ARG
tmp_link
,
*
next_arg
,
*
root
;
SEL_ARG
tmp_link
,
*
next_arg
,
*
root
;
next_arg
=
&
tmp_link
;
next_arg
=
&
tmp_link
;
root
=
clone
((
SEL_ARG
*
)
0
,
&
next_arg
);
if
(
!
(
root
=
clone
(
param
,
(
SEL_ARG
*
)
0
,
&
next_arg
)))
return
0
;
next_arg
->
next
=
0
;
// Fix last link
next_arg
->
next
=
0
;
// Fix last link
tmp_link
.
next
->
prev
=
0
;
// Fix first link
tmp_link
.
next
->
prev
=
0
;
// Fix first link
if
(
root
)
// If not OOM
if
(
root
)
// If not OOM
...
@@ -890,6 +985,7 @@ int SQL_SELECT::test_quick_select(THD *thd, key_map keys_to_use,
...
@@ -890,6 +985,7 @@ int SQL_SELECT::test_quick_select(THD *thd, key_map keys_to_use,
param
.
real_keynr
[
param
.
keys
++
]
=
idx
;
param
.
real_keynr
[
param
.
keys
++
]
=
idx
;
}
}
param
.
key_parts_end
=
key_parts
;
param
.
key_parts_end
=
key_parts
;
param
.
alloced_sel_args
=
0
;
if
((
tree
=
get_mm_tree
(
&
param
,
cond
)))
if
((
tree
=
get_mm_tree
(
&
param
,
cond
)))
{
{
...
@@ -991,7 +1087,8 @@ static SEL_TREE *get_mm_tree(PARAM *param,COND *cond)
...
@@ -991,7 +1087,8 @@ static SEL_TREE *get_mm_tree(PARAM *param,COND *cond)
while
((
item
=
li
++
))
while
((
item
=
li
++
))
{
{
SEL_TREE
*
new_tree
=
get_mm_tree
(
param
,
item
);
SEL_TREE
*
new_tree
=
get_mm_tree
(
param
,
item
);
if
(
param
->
thd
->
is_fatal_error
)
if
(
param
->
thd
->
is_fatal_error
||
param
->
alloced_sel_args
>
SEL_ARG
::
MAX_SEL_ARGS
)
DBUG_RETURN
(
0
);
// out of memory
DBUG_RETURN
(
0
);
// out of memory
tree
=
tree_and
(
param
,
tree
,
new_tree
);
tree
=
tree_and
(
param
,
tree
,
new_tree
);
if
(
tree
&&
tree
->
type
==
SEL_TREE
::
IMPOSSIBLE
)
if
(
tree
&&
tree
->
type
==
SEL_TREE
::
IMPOSSIBLE
)
...
@@ -1524,7 +1621,7 @@ tree_and(PARAM *param,SEL_TREE *tree1,SEL_TREE *tree2)
...
@@ -1524,7 +1621,7 @@ tree_and(PARAM *param,SEL_TREE *tree1,SEL_TREE *tree2)
tree1
->
type
=
SEL_TREE
::
KEY_SMALLER
;
tree1
->
type
=
SEL_TREE
::
KEY_SMALLER
;
DBUG_RETURN
(
tree1
);
DBUG_RETURN
(
tree1
);
}
}
/* Join the trees key per key */
/* Join the trees key per key */
SEL_ARG
**
key1
,
**
key2
,
**
end
;
SEL_ARG
**
key1
,
**
key2
,
**
end
;
for
(
key1
=
tree1
->
keys
,
key2
=
tree2
->
keys
,
end
=
key1
+
param
->
keys
;
for
(
key1
=
tree1
->
keys
,
key2
=
tree2
->
keys
,
end
=
key1
+
param
->
keys
;
...
@@ -1537,7 +1634,7 @@ tree_and(PARAM *param,SEL_TREE *tree1,SEL_TREE *tree2)
...
@@ -1537,7 +1634,7 @@ tree_and(PARAM *param,SEL_TREE *tree1,SEL_TREE *tree2)
flag
|=
CLONE_KEY1_MAYBE
;
flag
|=
CLONE_KEY1_MAYBE
;
if
(
*
key2
&&
!
(
*
key2
)
->
simple_key
())
if
(
*
key2
&&
!
(
*
key2
)
->
simple_key
())
flag
|=
CLONE_KEY2_MAYBE
;
flag
|=
CLONE_KEY2_MAYBE
;
*
key1
=
key_and
(
*
key1
,
*
key2
,
flag
);
*
key1
=
key_and
(
param
,
*
key1
,
*
key2
,
flag
);
if
(
*
key1
&&
(
*
key1
)
->
type
==
SEL_ARG
::
IMPOSSIBLE
)
if
(
*
key1
&&
(
*
key1
)
->
type
==
SEL_ARG
::
IMPOSSIBLE
)
{
{
tree1
->
type
=
SEL_TREE
::
IMPOSSIBLE
;
tree1
->
type
=
SEL_TREE
::
IMPOSSIBLE
;
...
@@ -1574,7 +1671,7 @@ tree_or(PARAM *param,SEL_TREE *tree1,SEL_TREE *tree2)
...
@@ -1574,7 +1671,7 @@ tree_or(PARAM *param,SEL_TREE *tree1,SEL_TREE *tree2)
for
(
key1
=
tree1
->
keys
,
key2
=
tree2
->
keys
,
end
=
key1
+
param
->
keys
;
for
(
key1
=
tree1
->
keys
,
key2
=
tree2
->
keys
,
end
=
key1
+
param
->
keys
;
key1
!=
end
;
key1
++
,
key2
++
)
key1
!=
end
;
key1
++
,
key2
++
)
{
{
*
key1
=
key_or
(
*
key1
,
*
key2
);
*
key1
=
key_or
(
param
,
*
key1
,
*
key2
);
if
(
*
key1
)
if
(
*
key1
)
{
{
result
=
tree1
;
// Added to tree1
result
=
tree1
;
// Added to tree1
...
@@ -1590,14 +1687,14 @@ tree_or(PARAM *param,SEL_TREE *tree1,SEL_TREE *tree2)
...
@@ -1590,14 +1687,14 @@ tree_or(PARAM *param,SEL_TREE *tree1,SEL_TREE *tree2)
/* And key trees where key1->part < key2 -> part */
/* And key trees where key1->part < key2 -> part */
static
SEL_ARG
*
static
SEL_ARG
*
and_all_keys
(
SEL_ARG
*
key1
,
SEL_ARG
*
key2
,
uint
clone_flag
)
and_all_keys
(
PARAM
*
param
,
SEL_ARG
*
key1
,
SEL_ARG
*
key2
,
uint
clone_flag
)
{
{
SEL_ARG
*
next
;
SEL_ARG
*
next
;
ulong
use_count
=
key1
->
use_count
;
ulong
use_count
=
key1
->
use_count
;
if
(
key1
->
elements
!=
1
)
if
(
key1
->
elements
!=
1
)
{
{
key2
->
use_count
+=
key1
->
elements
-
1
;
key2
->
use_count
+=
key1
->
elements
-
1
;
//psergey: why we don't count that key1 has n-k-p?
key2
->
increment_use_count
((
int
)
key1
->
elements
-
1
);
key2
->
increment_use_count
((
int
)
key1
->
elements
-
1
);
}
}
if
(
key1
->
type
==
SEL_ARG
::
MAYBE_KEY
)
if
(
key1
->
type
==
SEL_ARG
::
MAYBE_KEY
)
...
@@ -1609,7 +1706,7 @@ and_all_keys(SEL_ARG *key1,SEL_ARG *key2,uint clone_flag)
...
@@ -1609,7 +1706,7 @@ and_all_keys(SEL_ARG *key1,SEL_ARG *key2,uint clone_flag)
{
{
if
(
next
->
next_key_part
)
if
(
next
->
next_key_part
)
{
{
SEL_ARG
*
tmp
=
key_and
(
next
->
next_key_part
,
key2
,
clone_flag
);
SEL_ARG
*
tmp
=
key_and
(
param
,
next
->
next_key_part
,
key2
,
clone_flag
);
if
(
tmp
&&
tmp
->
type
==
SEL_ARG
::
IMPOSSIBLE
)
if
(
tmp
&&
tmp
->
type
==
SEL_ARG
::
IMPOSSIBLE
)
{
{
key1
=
key1
->
tree_delete
(
next
);
key1
=
key1
->
tree_delete
(
next
);
...
@@ -1618,6 +1715,8 @@ and_all_keys(SEL_ARG *key1,SEL_ARG *key2,uint clone_flag)
...
@@ -1618,6 +1715,8 @@ and_all_keys(SEL_ARG *key1,SEL_ARG *key2,uint clone_flag)
next
->
next_key_part
=
tmp
;
next
->
next_key_part
=
tmp
;
if
(
use_count
)
if
(
use_count
)
next
->
increment_use_count
(
use_count
);
next
->
increment_use_count
(
use_count
);
if
(
param
->
alloced_sel_args
>
SEL_ARG
::
MAX_SEL_ARGS
)
break
;
}
}
else
else
next
->
next_key_part
=
key2
;
next
->
next_key_part
=
key2
;
...
@@ -1644,7 +1743,7 @@ and_all_keys(SEL_ARG *key1,SEL_ARG *key2,uint clone_flag)
...
@@ -1644,7 +1743,7 @@ and_all_keys(SEL_ARG *key1,SEL_ARG *key2,uint clone_flag)
*/
*/
static
SEL_ARG
*
static
SEL_ARG
*
key_and
(
SEL_ARG
*
key1
,
SEL_ARG
*
key2
,
uint
clone_flag
)
key_and
(
PARAM
*
param
,
SEL_ARG
*
key1
,
SEL_ARG
*
key2
,
uint
clone_flag
)
{
{
if
(
!
key1
)
if
(
!
key1
)
return
key2
;
return
key2
;
...
@@ -1660,9 +1759,9 @@ key_and(SEL_ARG *key1, SEL_ARG *key2, uint clone_flag)
...
@@ -1660,9 +1759,9 @@ key_and(SEL_ARG *key1, SEL_ARG *key2, uint clone_flag)
// key1->part < key2->part
// key1->part < key2->part
key1
->
use_count
--
;
key1
->
use_count
--
;
if
(
key1
->
use_count
>
0
)
if
(
key1
->
use_count
>
0
)
if
(
!
(
key1
=
key1
->
clone_tree
()))
if
(
!
(
key1
=
key1
->
clone_tree
(
param
)))
return
0
;
// OOM
return
0
;
// OOM
return
and_all_keys
(
key1
,
key2
,
clone_flag
);
return
and_all_keys
(
param
,
key1
,
key2
,
clone_flag
);
}
}
if
(((
clone_flag
&
CLONE_KEY2_MAYBE
)
&&
if
(((
clone_flag
&
CLONE_KEY2_MAYBE
)
&&
...
@@ -1680,14 +1779,14 @@ key_and(SEL_ARG *key1, SEL_ARG *key2, uint clone_flag)
...
@@ -1680,14 +1779,14 @@ key_and(SEL_ARG *key1, SEL_ARG *key2, uint clone_flag)
if
(
key1
->
use_count
>
1
)
if
(
key1
->
use_count
>
1
)
{
{
key1
->
use_count
--
;
key1
->
use_count
--
;
if
(
!
(
key1
=
key1
->
clone_tree
()))
if
(
!
(
key1
=
key1
->
clone_tree
(
param
)))
return
0
;
// OOM
return
0
;
// OOM
key1
->
use_count
++
;
key1
->
use_count
++
;
}
}
if
(
key1
->
type
==
SEL_ARG
::
MAYBE_KEY
)
if
(
key1
->
type
==
SEL_ARG
::
MAYBE_KEY
)
{
// Both are maybe key
{
// Both are maybe key
key1
->
next_key_part
=
key_and
(
key1
->
next_key_part
,
key2
->
next_key_part
,
key1
->
next_key_part
=
key_and
(
param
,
key1
->
next_key_part
,
clone_flag
);
key2
->
next_key_part
,
clone_flag
);
if
(
key1
->
next_key_part
&&
if
(
key1
->
next_key_part
&&
key1
->
next_key_part
->
type
==
SEL_ARG
::
IMPOSSIBLE
)
key1
->
next_key_part
->
type
==
SEL_ARG
::
IMPOSSIBLE
)
return
key1
;
return
key1
;
...
@@ -1698,7 +1797,7 @@ key_and(SEL_ARG *key1, SEL_ARG *key2, uint clone_flag)
...
@@ -1698,7 +1797,7 @@ key_and(SEL_ARG *key1, SEL_ARG *key2, uint clone_flag)
if
(
key2
->
next_key_part
)
if
(
key2
->
next_key_part
)
{
{
key1
->
use_count
--
;
// Incremented in and_all_keys
key1
->
use_count
--
;
// Incremented in and_all_keys
return
and_all_keys
(
key1
,
key2
,
clone_flag
);
return
and_all_keys
(
param
,
key1
,
key2
,
clone_flag
);
}
}
key2
->
use_count
--
;
// Key2 doesn't have a tree
key2
->
use_count
--
;
// Key2 doesn't have a tree
}
}
...
@@ -1727,7 +1826,8 @@ key_and(SEL_ARG *key1, SEL_ARG *key2, uint clone_flag)
...
@@ -1727,7 +1826,8 @@ key_and(SEL_ARG *key1, SEL_ARG *key2, uint clone_flag)
}
}
else
if
(
get_range
(
&
e2
,
&
e1
,
key2
))
else
if
(
get_range
(
&
e2
,
&
e1
,
key2
))
continue
;
continue
;
SEL_ARG
*
next
=
key_and
(
e1
->
next_key_part
,
e2
->
next_key_part
,
clone_flag
);
SEL_ARG
*
next
=
key_and
(
param
,
e1
->
next_key_part
,
e2
->
next_key_part
,
clone_flag
);
e1
->
increment_use_count
(
1
);
e1
->
increment_use_count
(
1
);
e2
->
increment_use_count
(
1
);
e2
->
increment_use_count
(
1
);
if
(
!
next
||
next
->
type
!=
SEL_ARG
::
IMPOSSIBLE
)
if
(
!
next
||
next
->
type
!=
SEL_ARG
::
IMPOSSIBLE
)
...
@@ -1775,7 +1875,7 @@ get_range(SEL_ARG **e1,SEL_ARG **e2,SEL_ARG *root1)
...
@@ -1775,7 +1875,7 @@ get_range(SEL_ARG **e1,SEL_ARG **e2,SEL_ARG *root1)
static
SEL_ARG
*
static
SEL_ARG
*
key_or
(
SEL_ARG
*
key1
,
SEL_ARG
*
key2
)
key_or
(
PARAM
*
param
,
SEL_ARG
*
key1
,
SEL_ARG
*
key2
)
{
{
if
(
!
key1
)
if
(
!
key1
)
{
{
...
@@ -1823,7 +1923,7 @@ key_or(SEL_ARG *key1,SEL_ARG *key2)
...
@@ -1823,7 +1923,7 @@ key_or(SEL_ARG *key1,SEL_ARG *key2)
{
{
swap_variables
(
SEL_ARG
*
,
key1
,
key2
);
swap_variables
(
SEL_ARG
*
,
key1
,
key2
);
}
}
if
(
key1
->
use_count
>
0
||
!
(
key1
=
key1
->
clone_tree
()))
if
(
key1
->
use_count
>
0
||
!
(
key1
=
key1
->
clone_tree
(
param
)))
return
0
;
// OOM
return
0
;
// OOM
}
}
...
@@ -1967,7 +2067,7 @@ key_or(SEL_ARG *key1,SEL_ARG *key2)
...
@@ -1967,7 +2067,7 @@ key_or(SEL_ARG *key1,SEL_ARG *key2)
{
// tmp.min. <= x <= tmp.max
{
// tmp.min. <= x <= tmp.max
tmp
->
maybe_flag
|=
key
.
maybe_flag
;
tmp
->
maybe_flag
|=
key
.
maybe_flag
;
key
.
increment_use_count
(
key1
->
use_count
+
1
);
key
.
increment_use_count
(
key1
->
use_count
+
1
);
tmp
->
next_key_part
=
key_or
(
tmp
->
next_key_part
,
key
.
next_key_part
);
tmp
->
next_key_part
=
key_or
(
param
,
tmp
->
next_key_part
,
key
.
next_key_part
);
if
(
!
cmp
)
// Key2 is ready
if
(
!
cmp
)
// Key2 is ready
break
;
break
;
key
.
copy_max_to_min
(
tmp
);
key
.
copy_max_to_min
(
tmp
);
...
@@ -1998,7 +2098,7 @@ key_or(SEL_ARG *key1,SEL_ARG *key2)
...
@@ -1998,7 +2098,7 @@ key_or(SEL_ARG *key1,SEL_ARG *key2)
tmp
->
increment_use_count
(
key1
->
use_count
+
1
);
tmp
->
increment_use_count
(
key1
->
use_count
+
1
);
/* Increment key count as it may be used for next loop */
/* Increment key count as it may be used for next loop */
key
.
increment_use_count
(
1
);
key
.
increment_use_count
(
1
);
new_arg
->
next_key_part
=
key_or
(
tmp
->
next_key_part
,
key
.
next_key_part
);
new_arg
->
next_key_part
=
key_or
(
param
,
tmp
->
next_key_part
,
key
.
next_key_part
);
key1
=
key1
->
insert
(
new_arg
);
key1
=
key1
->
insert
(
new_arg
);
break
;
break
;
}
}
...
...
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