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Kirill Smelkov
mariadb
Commits
280fda60
Commit
280fda60
authored
Apr 07, 2005
by
sergefp@mysql.com
Browse files
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Plain Diff
Merge spetrunia@bk-internal.mysql.com:/home/bk/mysql-5.0
into mysql.com:/home/psergey/mysql-5.0-bug8877-merge
parents
7de66207
3005323e
Changes
2
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2 changed files
with
155 additions
and
14 deletions
+155
-14
sql/sql_select.cc
sql/sql_select.cc
+145
-14
sql/sql_select.h
sql/sql_select.h
+10
-0
No files found.
sql/sql_select.cc
View file @
280fda60
...
...
@@ -2235,6 +2235,8 @@ make_join_statistics(JOIN *join, TABLE_LIST *tables, COND *conds,
if
(
s
->
dependent
&
table
->
map
)
s
->
dependent
|=
table
->
reginfo
.
join_tab
->
dependent
;
}
if
(
s
->
dependent
)
s
->
table
->
maybe_null
=
1
;
}
/* Catch illegal cross references for outer joins */
for
(
i
=
0
,
s
=
stat
;
i
<
table_count
;
i
++
,
s
++
)
...
...
@@ -2484,6 +2486,11 @@ typedef struct key_field_t { // Used when finding key fields
uint
level
;
uint
optimize
;
bool
eq_func
;
/*
If true, the condition this struct represents will not be satisfied
when val IS NULL.
*/
bool
null_rejecting
;
}
KEY_FIELD
;
/* Values in optimize */
...
...
@@ -2500,6 +2507,12 @@ typedef struct key_field_t { // Used when finding key fields
that are internally transformed to something like:
SELECT * FROM t1 WHERE t1.key=outer_ref_field or t1.key IS NULL
KEY_FIELD::null_rejecting is processed as follows:
result has null_rejecting=true if it is set for both ORed references.
for example:
(t2.key = t1.field OR t2.key = t1.field) -> null_rejecting=true
(t2.key = t1.field OR t2.key <=> t1.field) -> null_rejecting=false
*/
static
KEY_FIELD
*
...
...
@@ -2533,6 +2546,8 @@ merge_key_fields(KEY_FIELD *start,KEY_FIELD *new_fields,KEY_FIELD *end,
KEY_OPTIMIZE_EXISTS
)
|
((
old
->
optimize
|
new_fields
->
optimize
)
&
KEY_OPTIMIZE_REF_OR_NULL
));
old
->
null_rejecting
=
old
->
null_rejecting
&&
new_fields
->
null_rejecting
;
}
}
else
if
(
old
->
eq_func
&&
new_fields
->
eq_func
&&
...
...
@@ -2544,6 +2559,8 @@ merge_key_fields(KEY_FIELD *start,KEY_FIELD *new_fields,KEY_FIELD *end,
KEY_OPTIMIZE_EXISTS
)
|
((
old
->
optimize
|
new_fields
->
optimize
)
&
KEY_OPTIMIZE_REF_OR_NULL
));
old
->
null_rejecting
=
old
->
null_rejecting
&&
new_fields
->
null_rejecting
;
}
else
if
(
old
->
eq_func
&&
new_fields
->
eq_func
&&
(
old
->
val
->
is_null
()
||
new_fields
->
val
->
is_null
()))
...
...
@@ -2554,6 +2571,8 @@ merge_key_fields(KEY_FIELD *start,KEY_FIELD *new_fields,KEY_FIELD *end,
/* Remember the NOT NULL value */
if
(
old
->
val
->
is_null
())
old
->
val
=
new_fields
->
val
;
/* The referred expression can be NULL: */
old
->
null_rejecting
=
false
;
}
else
{
...
...
@@ -2609,7 +2628,7 @@ merge_key_fields(KEY_FIELD *start,KEY_FIELD *new_fields,KEY_FIELD *end,
*/
static
void
add_key_field
(
KEY_FIELD
**
key_fields
,
uint
and_level
,
COND
*
cond
,
add_key_field
(
KEY_FIELD
**
key_fields
,
uint
and_level
,
Item_func
*
cond
,
Field
*
field
,
bool
eq_func
,
Item
**
value
,
uint
num_values
,
table_map
usable_tables
)
{
...
...
@@ -2711,10 +2730,17 @@ add_key_field(KEY_FIELD **key_fields, uint and_level, COND *cond,
(
*
key_fields
)
->
val
=
*
value
;
(
*
key_fields
)
->
level
=
and_level
;
(
*
key_fields
)
->
optimize
=
exists_optimize
;
/*
If the condition has form "tbl.keypart = othertbl.field" and
othertbl.field can be NULL, there will be no matches if othertbl.field
has NULL value.
*/
(
*
key_fields
)
->
null_rejecting
=
(
cond
->
functype
()
==
Item_func
::
EQ_FUNC
)
&&
((
*
value
)
->
type
()
==
Item
::
FIELD_ITEM
)
&&
((
Item_field
*
)
*
value
)
->
field
->
maybe_null
();
(
*
key_fields
)
++
;
}
/*
Add possible keys to array of possible keys originated from a simple predicate
...
...
@@ -2739,7 +2765,7 @@ add_key_field(KEY_FIELD **key_fields, uint and_level, COND *cond,
static
void
add_key_equal_fields
(
KEY_FIELD
**
key_fields
,
uint
and_level
,
COND
*
cond
,
Item_field
*
field_item
,
Item_func
*
cond
,
Item_field
*
field_item
,
bool
eq_func
,
Item
**
val
,
uint
num_values
,
table_map
usable_tables
)
{
...
...
@@ -2767,7 +2793,7 @@ add_key_equal_fields(KEY_FIELD **key_fields, uint and_level,
}
static
void
add_key_fields
(
JOIN_TAB
*
stat
,
KEY_FIELD
**
key_fields
,
uint
*
and_level
,
add_key_fields
(
KEY_FIELD
**
key_fields
,
uint
*
and_level
,
COND
*
cond
,
table_map
usable_tables
)
{
if
(
cond
->
type
()
==
Item_func
::
COND_ITEM
)
...
...
@@ -2779,20 +2805,20 @@ add_key_fields(JOIN_TAB *stat,KEY_FIELD **key_fields,uint *and_level,
{
Item
*
item
;
while
((
item
=
li
++
))
add_key_fields
(
stat
,
key_fields
,
and_level
,
item
,
usable_tables
);
add_key_fields
(
key_fields
,
and_level
,
item
,
usable_tables
);
for
(;
org_key_fields
!=
*
key_fields
;
org_key_fields
++
)
org_key_fields
->
level
=
*
and_level
;
}
else
{
(
*
and_level
)
++
;
add_key_fields
(
stat
,
key_fields
,
and_level
,
li
++
,
usable_tables
);
add_key_fields
(
key_fields
,
and_level
,
li
++
,
usable_tables
);
Item
*
item
;
while
((
item
=
li
++
))
{
KEY_FIELD
*
start_key_fields
=
*
key_fields
;
(
*
and_level
)
++
;
add_key_fields
(
stat
,
key_fields
,
and_level
,
item
,
usable_tables
);
add_key_fields
(
key_fields
,
and_level
,
item
,
usable_tables
);
*
key_fields
=
merge_key_fields
(
org_key_fields
,
start_key_fields
,
*
key_fields
,
++
(
*
and_level
));
}
...
...
@@ -2880,7 +2906,7 @@ add_key_fields(JOIN_TAB *stat,KEY_FIELD **key_fields,uint *and_level,
*/
while
((
item
=
it
++
))
{
add_key_field
(
key_fields
,
*
and_level
,
cond
,
item
->
field
,
add_key_field
(
key_fields
,
*
and_level
,
cond
_func
,
item
->
field
,
TRUE
,
&
const_item
,
1
,
usable_tables
);
}
}
...
...
@@ -2900,7 +2926,7 @@ add_key_fields(JOIN_TAB *stat,KEY_FIELD **key_fields,uint *and_level,
{
if
(
!
field
->
eq
(
item
->
field
))
{
add_key_field
(
key_fields
,
*
and_level
,
cond
,
field
,
add_key_field
(
key_fields
,
*
and_level
,
cond
_func
,
field
,
TRUE
,
(
Item
**
)
&
item
,
1
,
usable_tables
);
}
}
...
...
@@ -2952,6 +2978,7 @@ add_key_part(DYNAMIC_ARRAY *keyuse_array,KEY_FIELD *key_field)
keyuse
.
keypart_map
=
(
key_part_map
)
1
<<
part
;
keyuse
.
used_tables
=
key_field
->
val
->
used_tables
();
keyuse
.
optimize
=
key_field
->
optimize
&
KEY_OPTIMIZE_REF_OR_NULL
;
keyuse
.
null_rejecting
=
key_field
->
null_rejecting
;
VOID
(
insert_dynamic
(
keyuse_array
,(
gptr
)
&
keyuse
));
}
}
...
...
@@ -3045,8 +3072,22 @@ sort_keyuse(KEYUSE *a,KEYUSE *b)
/*
Update keyuse array with all possible keys we can use to fetch rows
join_tab is a array in tablenr_order
stat is a reference array in 'prefered' order.
SYNOPSIS
update_ref_and_keys()
thd
keyuse OUT Put here ordered array of KEYUSE structures
join_tab Array in tablenr_order
tables Number of tables in join
cond WHERE condition (note that the function analyzes
join_tab[i]->on_expr too)
normal_tables tables not inner w.r.t some outer join (ones for which
we can make ref access based the WHERE clause)
select_lex current SELECT
RETURN
0 - OK
1 - Out of memory.
*/
static
bool
...
...
@@ -3071,7 +3112,7 @@ update_ref_and_keys(THD *thd, DYNAMIC_ARRAY *keyuse,JOIN_TAB *join_tab,
return
TRUE
;
if
(
cond
)
{
add_key_fields
(
join_tab
,
&
end
,
&
and_level
,
cond
,
normal_tables
);
add_key_fields
(
&
end
,
&
and_level
,
cond
,
normal_tables
);
for
(;
field
!=
end
;
field
++
)
{
add_key_part
(
keyuse
,
field
);
...
...
@@ -3094,7 +3135,7 @@ update_ref_and_keys(THD *thd, DYNAMIC_ARRAY *keyuse,JOIN_TAB *join_tab,
*/
if
(
*
join_tab
[
i
].
on_expr_ref
)
{
add_key_fields
(
join_tab
,
&
end
,
&
and_level
,
*
join_tab
[
i
].
on_expr_ref
,
add_key_fields
(
&
end
,
&
and_level
,
*
join_tab
[
i
].
on_expr_ref
,
join_tab
[
i
].
table
->
map
);
}
else
...
...
@@ -3105,7 +3146,7 @@ update_ref_and_keys(THD *thd, DYNAMIC_ARRAY *keyuse,JOIN_TAB *join_tab,
{
NESTED_JOIN
*
nested_join
=
embedding
->
nested_join
;
if
(
nested_join
->
join_list
.
head
()
==
tab
)
add_key_fields
(
join_tab
,
&
end
,
&
and_level
,
embedding
->
on_expr
,
add_key_fields
(
&
end
,
&
and_level
,
embedding
->
on_expr
,
nested_join
->
used_tables
);
}
}
...
...
@@ -4879,6 +4920,7 @@ static bool create_ref_for_key(JOIN *join, JOIN_TAB *j, KEYUSE *org_keyuse,
}
j
->
ref
.
key_buff2
=
j
->
ref
.
key_buff
+
ALIGN_SIZE
(
length
);
j
->
ref
.
key_err
=
1
;
j
->
ref
.
null_rejecting
=
0
;
keyuse
=
org_keyuse
;
store_key
**
ref_key
=
j
->
ref
.
key_copy
;
...
...
@@ -4903,6 +4945,8 @@ static bool create_ref_for_key(JOIN *join, JOIN_TAB *j, KEYUSE *org_keyuse,
uint
maybe_null
=
test
(
keyinfo
->
key_part
[
i
].
null_bit
);
j
->
ref
.
items
[
i
]
=
keyuse
->
val
;
// Save for cond removal
if
(
keyuse
->
null_rejecting
)
j
->
ref
.
null_rejecting
|=
1
<<
i
;
keyuse_uses_no_tables
=
keyuse_uses_no_tables
&&
!
keyuse
->
used_tables
;
if
(
!
keyuse
->
used_tables
&&
!
(
join
->
select_options
&
SELECT_DESCRIBE
))
...
...
@@ -5061,6 +5105,91 @@ make_simple_join(JOIN *join,TABLE *tmp_table)
}
inline
void
add_cond_and_fix
(
Item
**
e1
,
Item
*
e2
)
{
if
(
*
e1
)
{
Item
*
res
;
if
((
res
=
new
Item_cond_and
(
*
e1
,
e2
)))
{
*
e1
=
res
;
res
->
quick_fix_field
();
}
}
else
*
e1
=
e2
;
}
/*
Add to join_tab->select_cond[i] "table.field IS NOT NULL" conditions we've
inferred from ref/eq_ref access performed.
SYNOPSIS
add_not_null_conds()
join Join to process
NOTES
This function is a part of "Early NULL-values filtering for ref access"
optimization.
Example of this optimization:
For query SELECT * FROM t1,t2 WHERE t2.key=t1.field
and plan " any-access(t1), ref(t2.key=t1.field) "
add "t1.field IS NOT NULL" to t1's table condition.
Description of the optimization:
We look through equalities choosen to perform ref/eq_ref access,
pick equalities that have form "tbl.part_of_key = othertbl.field"
(where othertbl is a non-const table and othertbl.field may be NULL)
and add them to conditions on correspoding tables (othertbl in this
example).
This optimization doesn't affect the choices that ref, range, or join
optimizer make. This was intentional because this was added after 4.1
was GA.
Implementation overview
1. update_ref_and_keys() accumulates info about null-rejecting
predicates in in KEY_FIELD::null_rejecting
1.1 add_key_part saves these to KEYUSE.
2. create_ref_for_key copies them to TABLE_REF.
3. add_not_null_conds adds "x IS NOT NULL" to join_tab->select_cond of
appropiate JOIN_TAB members.
*/
static
void
add_not_null_conds
(
JOIN
*
join
)
{
DBUG_ENTER
(
"add_not_null_conds"
);
for
(
uint
i
=
join
->
const_tables
;
i
<
join
->
tables
;
i
++
)
{
JOIN_TAB
*
tab
=
join
->
join_tab
+
i
;
if
((
tab
->
type
==
JT_REF
||
tab
->
type
==
JT_REF_OR_NULL
)
&&
!
tab
->
table
->
maybe_null
)
{
for
(
uint
keypart
=
0
;
keypart
<
tab
->
ref
.
key_parts
;
keypart
++
)
{
if
(
tab
->
ref
.
null_rejecting
&
(
1
<<
keypart
))
{
Item
*
item
=
tab
->
ref
.
items
[
keypart
];
DBUG_ASSERT
(
item
->
type
()
==
Item
::
FIELD_ITEM
);
Item_field
*
not_null_item
=
(
Item_field
*
)
item
;
JOIN_TAB
*
referred_tab
=
not_null_item
->
field
->
table
->
reginfo
.
join_tab
;
Item_func_isnotnull
*
notnull
;
if
(
!
(
notnull
=
new
Item_func_isnotnull
(
not_null_item
)))
DBUG_VOID_RETURN
;
notnull
->
quick_fix_field
();
DBUG_EXECUTE
(
"where"
,
print_where
(
notnull
,
referred_tab
->
table
->
alias
););
add_cond_and_fix
(
&
referred_tab
->
select_cond
,
notnull
);
}
}
}
}
DBUG_VOID_RETURN
;
}
/*
Build a predicate guarded by match variables for embedding outer joins
...
...
@@ -5198,6 +5327,7 @@ make_join_select(JOIN *join,SQL_SELECT *select,COND *cond)
DBUG_ENTER
(
"make_join_select"
);
if
(
select
)
{
add_not_null_conds
(
join
);
table_map
used_tables
;
if
(
cond
)
/* Because of QUICK_GROUP_MIN_MAX_SELECT */
{
/* there may be a select without a cond. */
...
...
@@ -5331,6 +5461,7 @@ make_join_select(JOIN *join,SQL_SELECT *select,COND *cond)
tab
->
select_cond
=
sel
->
cond
=
NULL
;
sel
->
head
=
tab
->
table
;
DBUG_EXECUTE
(
"where"
,
print_where
(
tmp
,
tab
->
table
->
alias
););
if
(
tab
->
quick
)
{
/* Use quick key read if it's a constant and it's not used
...
...
sql/sql_select.h
View file @
280fda60
...
...
@@ -31,6 +31,11 @@ typedef struct keyuse_t {
uint
key
,
keypart
,
optimize
;
key_part_map
keypart_map
;
ha_rows
ref_table_rows
;
/*
If true, the comparison this value was created from will not be
satisfied if val has NULL 'value'.
*/
bool
null_rejecting
;
}
KEYUSE
;
class
store_key
;
...
...
@@ -45,6 +50,11 @@ typedef struct st_table_ref
byte
*
key_buff2
;
// key_buff+key_length
store_key
**
key_copy
;
//
Item
**
items
;
// val()'s for each keypart
/*
(null_rejecting & (1<<i)) means the condition is '=' and no matching
rows will be produced if items[i] IS NULL (see add_not_null_conds())
*/
key_part_map
null_rejecting
;
table_map
depend_map
;
// Table depends on these tables.
byte
*
null_ref_key
;
// null byte position in the key_buf.
// used for REF_OR_NULL optimization.
...
...
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