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nexedi
MariaDB
Commits
a8456e68
Commit
a8456e68
authored
Dec 20, 2003
by
sergefp@mysql.com
Browse files
Options
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Plain Diff
Numerous small fixes to index_merge read time estimates code
parent
50f29b0e
Changes
7
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Showing
7 changed files
with
188 additions
and
108 deletions
+188
-108
include/my_global.h
include/my_global.h
+11
-0
mysql-test/r/index_merge.result
mysql-test/r/index_merge.result
+1
-1
sql/item_create.cc
sql/item_create.cc
+0
-4
sql/item_func.cc
sql/item_func.cc
+1
-1
sql/opt_range.cc
sql/opt_range.cc
+52
-37
sql/sql_class.h
sql/sql_class.h
+9
-1
sql/uniques.cc
sql/uniques.cc
+114
-64
No files found.
include/my_global.h
View file @
a8456e68
...
@@ -666,6 +666,17 @@ extern double my_atof(const char*);
...
@@ -666,6 +666,17 @@ extern double my_atof(const char*);
#define FLT_MAX ((float)3.40282346638528860e+38)
#define FLT_MAX ((float)3.40282346638528860e+38)
#endif
#endif
/* Define missing math constants. */
#ifndef M_PI
#define M_PI 3.14159265358979323846
#endif
#ifndef M_E
#define M_E 2.7182818284590452354
#endif
#ifndef M_LN2
#define M_LN2 0.69314718055994530942
#endif
/*
/*
Max size that must be added to a so that we know Size to make
Max size that must be added to a so that we know Size to make
adressable obj.
adressable obj.
...
...
mysql-test/r/index_merge.result
View file @
a8456e68
...
@@ -109,7 +109,7 @@ key1 key2 key3 key4 key5 key6 key7 key8
...
@@ -109,7 +109,7 @@ key1 key2 key3 key4 key5 key6 key7 key8
explain select * from t0 where
explain select * from t0 where
(key1 < 3 or key2 < 3) and (key3 < 4 or key4 < 4) and (key5 < 2 or key6 < 2);
(key1 < 3 or key2 < 3) and (key3 < 4 or key4 < 4) and (key5 < 2 or key6 < 2);
id select_type table type possible_keys key key_len ref rows Extra
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t0 index_merge i1,i2,i3,i4,i5,i6 i
5,i6 4,4 NULL 4
Using where
1 SIMPLE t0 index_merge i1,i2,i3,i4,i5,i6 i
1,i2 4,4 NULL 6
Using where
explain select * from t0 where
explain select * from t0 where
(key1 < 3 or key2 < 3) and (key3 < 100);
(key1 < 3 or key2 < 3) and (key3 < 100);
id select_type table type possible_keys key key_len ref rows Extra
id select_type table type possible_keys key key_len ref rows Extra
...
...
sql/item_create.cc
View file @
a8456e68
...
@@ -18,10 +18,6 @@
...
@@ -18,10 +18,6 @@
#include "mysql_priv.h"
#include "mysql_priv.h"
#ifndef M_PI
#define M_PI 3.14159265358979323846
#endif
Item
*
create_func_abs
(
Item
*
a
)
Item
*
create_func_abs
(
Item
*
a
)
{
{
return
new
Item_func_abs
(
a
);
return
new
Item_func_abs
(
a
);
...
...
sql/item_func.cc
View file @
a8456e68
...
@@ -750,7 +750,7 @@ double Item_func_log2::val()
...
@@ -750,7 +750,7 @@ double Item_func_log2::val()
double
value
=
args
[
0
]
->
val
();
double
value
=
args
[
0
]
->
val
();
if
((
null_value
=
(
args
[
0
]
->
null_value
||
value
<=
0.0
)))
if
((
null_value
=
(
args
[
0
]
->
null_value
||
value
<=
0.0
)))
return
0.0
;
return
0.0
;
return
log
(
value
)
/
log
(
2.0
)
;
return
log
(
value
)
/
M_LN2
;
}
}
double
Item_func_log10
::
val
()
double
Item_func_log10
::
val
()
...
...
sql/opt_range.cc
View file @
a8456e68
...
@@ -296,6 +296,9 @@ typedef struct st_qsel_param {
...
@@ -296,6 +296,9 @@ typedef struct st_qsel_param {
char
min_key
[
MAX_KEY_LENGTH
+
MAX_FIELD_WIDTH
],
char
min_key
[
MAX_KEY_LENGTH
+
MAX_FIELD_WIDTH
],
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
uint
*
imerge_cost_buff
;
/* buffer for index_merge cost estimates */
uint
imerge_cost_buff_size
;
/* size of the buffer */
}
PARAM
;
}
PARAM
;
static
SEL_TREE
*
get_mm_parts
(
PARAM
*
param
,
Field
*
field
,
static
SEL_TREE
*
get_mm_parts
(
PARAM
*
param
,
Field
*
field
,
...
@@ -953,6 +956,7 @@ int SQL_SELECT::test_quick_select(THD *thd, key_map keys_to_use,
...
@@ -953,6 +956,7 @@ int SQL_SELECT::test_quick_select(THD *thd, key_map keys_to_use,
param
.
table
=
head
;
param
.
table
=
head
;
param
.
keys
=
0
;
param
.
keys
=
0
;
param
.
mem_root
=
&
alloc
;
param
.
mem_root
=
&
alloc
;
param
.
imerge_cost_buff_size
=
0
;
thd
->
no_errors
=
1
;
// Don't warn about NULL
thd
->
no_errors
=
1
;
// Don't warn about NULL
init_sql_alloc
(
&
alloc
,
thd
->
variables
.
range_alloc_block_size
,
0
);
init_sql_alloc
(
&
alloc
,
thd
->
variables
.
range_alloc_block_size
,
0
);
...
@@ -1011,7 +1015,7 @@ int SQL_SELECT::test_quick_select(THD *thd, key_map keys_to_use,
...
@@ -1011,7 +1015,7 @@ int SQL_SELECT::test_quick_select(THD *thd, key_map keys_to_use,
ha_rows
found_records
;
ha_rows
found_records
;
double
found_read_time
=
read_time
;
double
found_read_time
=
read_time
;
if
(
!
get_quick_select_params
(
tree
,
&
param
,
needed_reg
,
tru
e
,
if
(
!
get_quick_select_params
(
tree
,
&
param
,
needed_reg
,
fals
e
,
&
found_read_time
,
&
found_records
,
&
found_read_time
,
&
found_records
,
&
best_key
))
&
best_key
))
{
{
...
@@ -1254,31 +1258,30 @@ static int get_index_merge_params(PARAM *param, key_map& needed_reg,
...
@@ -1254,31 +1258,30 @@ static int get_index_merge_params(PARAM *param, key_map& needed_reg,
*/
*/
/*
/*
It may be possible to use different keys for index_merge scans,
It may be possible to use different keys for index_merge scans,
e.g. for
e.g. for
query like
query like
...WHERE (key1 < c2 AND key2 < c2) OR (key3 < c3 AND key4 < c4)
...WHERE (key1 < c2 AND key2 < c2) OR (key3 < c3 AND key4 < c4)
we have to make choice between key1 and key2 for one scan and
we have to make choice between key1 and key2 for one scan and
between
between key3,
key4 for another.
key3,
key4 for another.
We assume we'll get the best
way if we choose the best key read
We assume we'll get the best
if we choose the best key read inside each
inside each of the conjuncts. Comparison is done without 'using index'
.
of the conjuncts
.
*/
*/
for
(
SEL_TREE
**
ptree
=
imerge
->
trees
;
for
(
SEL_TREE
**
ptree
=
imerge
->
trees
;
ptree
!=
imerge
->
trees_next
;
ptree
!=
imerge
->
trees_next
;
ptree
++
)
ptree
++
)
{
{
SEL_ARG
**
tree_best_key
;
SEL_ARG
**
tree_best_key
;
uint
keynr
;
tree_read_time
=
*
read_time
;
tree_read_time
=
*
read_time
;
if
(
get_quick_select_params
(
*
ptree
,
param
,
needed_reg
,
false
,
if
(
get_quick_select_params
(
*
ptree
,
param
,
needed_reg
,
true
,
&
tree_read_time
,
&
tree_records
,
&
tree_read_time
,
&
tree_records
,
&
tree_best_key
))
&
tree_best_key
))
{
{
/*
/*
Non-'index only' range scan on a one in index_merge key is more
One of index scans in this index_merge is more expensive than entire
expensive than other available option. The entire index_merge will be
table read for another available option. The entire index_merge will
more expensive then, too. We continue here only to update SQL_SELECT
be more expensive then, too. We continue here only to update
members.
SQL_SELECT
members.
*/
*/
imerge_too_expensive
=
true
;
imerge_too_expensive
=
true
;
}
}
...
@@ -1286,23 +1289,18 @@ static int get_index_merge_params(PARAM *param, key_map& needed_reg,
...
@@ -1286,23 +1289,18 @@ static int get_index_merge_params(PARAM *param, key_map& needed_reg,
if
(
imerge_too_expensive
)
if
(
imerge_too_expensive
)
continue
;
continue
;
uint
keynr
=
param
->
real_keynr
[(
tree_best_key
-
(
*
ptree
)
->
keys
)];
imerge
->
best_keys
[
ptree
-
imerge
->
trees
]
=
tree_best_key
;
imerge
->
best_keys
[
ptree
-
imerge
->
trees
]
=
tree_best_key
;
keynr
=
param
->
real_keynr
[(
tree_best_key
-
(
*
ptree
)
->
keys
)];
imerge_cost
+=
tree_read_time
;
if
(
pk_is_clustered
&&
keynr
==
param
->
table
->
primary_key
)
if
(
pk_is_clustered
&&
keynr
==
param
->
table
->
primary_key
)
{
{
/* This is a Clustered PK scan, it will be done without 'index only' */
imerge_cost
+=
tree_read_time
;
have_cpk_scan
=
true
;
have_cpk_scan
=
true
;
cpk_records
=
tree_records
;
cpk_records
=
tree_records
;
}
}
else
else
{
/* Non-CPK scan, calculate time to do it using 'index only' */
imerge_cost
+=
get_index_only_read_time
(
param
,
tree_records
,
keynr
);
records_for_unique
+=
tree_records
;
records_for_unique
+=
tree_records
;
}
}
}
DBUG_PRINT
(
"info"
,(
"index_merge cost of index reads: %g"
,
imerge_cost
));
DBUG_PRINT
(
"info"
,(
"index_merge cost of index reads: %g"
,
imerge_cost
));
if
(
imerge_too_expensive
)
if
(
imerge_too_expensive
)
...
@@ -1359,14 +1357,23 @@ static int get_index_merge_params(PARAM *param, key_map& needed_reg,
...
@@ -1359,14 +1357,23 @@ static int get_index_merge_params(PARAM *param, key_map& needed_reg,
DBUG_PRINT
(
"info"
,(
"index_merge cost with rowid-to-row scan: %g"
,
imerge_cost
));
DBUG_PRINT
(
"info"
,(
"index_merge cost with rowid-to-row scan: %g"
,
imerge_cost
));
/* PHASE 3: Add Unique operations cost */
/* PHASE 3: Add Unique operations cost */
double
unique_cost
=
register
uint
unique_calc_buff_size
=
Unique
::
get_
use_cost
(
param
->
mem_root
,
records_for_unique
,
Unique
::
get_
cost_calc_buff_size
(
records_for_unique
,
param
->
table
->
file
->
ref_length
,
param
->
table
->
file
->
ref_length
,
param
->
thd
->
variables
.
sortbuff_size
);
param
->
thd
->
variables
.
sortbuff_size
);
if
(
unique_cost
<
0.0
)
if
(
param
->
imerge_cost_buff_size
<
unique_calc_buff_size
)
{
if
(
!
(
param
->
imerge_cost_buff
=
(
uint
*
)
alloc_root
(
param
->
mem_root
,
unique_calc_buff_size
)))
DBUG_RETURN
(
1
);
DBUG_RETURN
(
1
);
param
->
imerge_cost_buff_size
=
unique_calc_buff_size
;
}
imerge_cost
+=
Unique
::
get_use_cost
(
param
->
imerge_cost_buff
,
records_for_unique
,
param
->
table
->
file
->
ref_length
,
param
->
thd
->
variables
.
sortbuff_size
);
imerge_cost
+=
unique_cost
;
DBUG_PRINT
(
"info"
,(
"index_merge total cost: %g"
,
imerge_cost
));
DBUG_PRINT
(
"info"
,(
"index_merge total cost: %g"
,
imerge_cost
));
if
(
imerge_cost
<
*
read_time
)
if
(
imerge_cost
<
*
read_time
)
{
{
...
@@ -1415,8 +1422,8 @@ inline double get_index_only_read_time(PARAM* param, ha_rows records,
...
@@ -1415,8 +1422,8 @@ inline double get_index_only_read_time(PARAM* param, ha_rows records,
tree in make range select for this SEL_TREE
tree in make range select for this SEL_TREE
param in parameters from test_quick_select
param in parameters from test_quick_select
needed_reg in/out other table data needed by this quick_select
needed_reg in/out other table data needed by this quick_select
index_read_
can_be_used if false, assume that 'index only' option is not
index_read_
must_be_used if true, assume 'index only' option will be set
available.
(except for clustered PK indexes)
read_time out read time estimate
read_time out read time estimate
records out # of records estimate
records out # of records estimate
key_to_read out SEL_ARG to be used for creating quick select
key_to_read out SEL_ARG to be used for creating quick select
...
@@ -1424,16 +1431,17 @@ inline double get_index_only_read_time(PARAM* param, ha_rows records,
...
@@ -1424,16 +1431,17 @@ inline double get_index_only_read_time(PARAM* param, ha_rows records,
static
int
get_quick_select_params
(
SEL_TREE
*
tree
,
PARAM
*
param
,
static
int
get_quick_select_params
(
SEL_TREE
*
tree
,
PARAM
*
param
,
key_map
&
needed_reg
,
key_map
&
needed_reg
,
bool
index_read_
can
_be_used
,
bool
index_read_
must
_be_used
,
double
*
read_time
,
ha_rows
*
records
,
double
*
read_time
,
ha_rows
*
records
,
SEL_ARG
***
key_to_read
)
SEL_ARG
***
key_to_read
)
{
{
int
idx
;
int
idx
;
int
result
=
1
;
int
result
=
1
;
bool
pk_is_clustered
=
param
->
table
->
file
->
primary_key_is_clustered
();
/*
/*
Note that there may be trees that have type SEL_TREE::KEY but contain
Note that there may be trees that have type SEL_TREE::KEY but contain
no
no key reads at all. For example, tree for expression "key1 is not null"
key reads at all, e.g. tree for expression "key1 is not null" where key1
where key1
is defined as "not null".
is defined as "not null".
*/
*/
SEL_ARG
**
key
,
**
end
;
SEL_ARG
**
key
,
**
end
;
...
@@ -1450,22 +1458,29 @@ static int get_quick_select_params(SEL_TREE *tree, PARAM *param,
...
@@ -1450,22 +1458,29 @@ static int get_quick_select_params(SEL_TREE *tree, PARAM *param,
(
*
key
)
->
maybe_flag
)
(
*
key
)
->
maybe_flag
)
needed_reg
.
set_bit
(
keynr
);
needed_reg
.
set_bit
(
keynr
);
bool
read_index_only
=
index_read_
can_be_used
?
bool
read_index_only
=
index_read_
must_be_used
?
true
:
param
->
table
->
used_keys
.
is_set
(
keynr
)
:
false
;
(
bool
)
param
->
table
->
used_keys
.
is_set
(
keynr
)
;
found_records
=
check_quick_select
(
param
,
idx
,
*
key
);
found_records
=
check_quick_select
(
param
,
idx
,
*
key
);
if
(
found_records
!=
HA_POS_ERROR
&&
found_records
>
2
&&
if
(
found_records
!=
HA_POS_ERROR
&&
found_records
>
2
&&
read_index_only
&&
read_index_only
&&
(
param
->
table
->
file
->
index_flags
(
keynr
)
&
HA_KEY_READ_ONLY
))
(
param
->
table
->
file
->
index_flags
(
keynr
)
&
HA_KEY_READ_ONLY
)
&&
!
(
pk_is_clustered
&&
keynr
==
param
->
table
->
primary_key
))
{
{
/* We can resolve this by only reading through this key. */
/* We can resolve this by only reading through this key. */
found_read_time
=
get_index_only_read_time
(
param
,
found_records
,
keynr
);
found_read_time
=
get_index_only_read_time
(
param
,
found_records
,
keynr
);
}
}
else
else
{
/*
cost(read_through_index) = cost(disk_io) + cost(row_in_range_checks)
The row_in_range check is in QUICK_RANGE_SELECT::cmp_next function.
*/
found_read_time
=
(
param
->
table
->
file
->
read_time
(
keynr
,
found_read_time
=
(
param
->
table
->
file
->
read_time
(
keynr
,
param
->
range_count
,
param
->
range_count
,
found_records
)
+
found_records
)
+
(
double
)
found_records
/
TIME_FOR_COMPARE
);
(
double
)
found_records
/
TIME_FOR_COMPARE
);
}
if
(
*
read_time
>
found_read_time
&&
found_records
!=
HA_POS_ERROR
)
if
(
*
read_time
>
found_read_time
&&
found_records
!=
HA_POS_ERROR
)
{
{
*
read_time
=
found_read_time
;
*
read_time
=
found_read_time
;
...
...
sql/sql_class.h
View file @
a8456e68
...
@@ -1233,8 +1233,16 @@ class Unique :public Sql_alloc
...
@@ -1233,8 +1233,16 @@ class Unique :public Sql_alloc
}
}
bool
get
(
TABLE
*
table
);
bool
get
(
TABLE
*
table
);
static
double
get_use_cost
(
MEM_ROOT
*
alloc
,
uint
nkeys
,
uint
key_size
,
static
double
get_use_cost
(
uint
*
buffer
,
uint
nkeys
,
uint
key_size
,
ulong
max_in_memory_size
);
ulong
max_in_memory_size
);
inline
static
int
get_cost_calc_buff_size
(
ulong
nkeys
,
uint
key_size
,
ulong
max_in_memory_size
)
{
register
ulong
max_elems_in_tree
=
(
1
+
max_in_memory_size
/
ALIGN_SIZE
(
sizeof
(
TREE_ELEMENT
)
+
key_size
));
return
sizeof
(
uint
)
*
(
1
+
nkeys
/
max_elems_in_tree
);
}
friend
int
unique_write_to_file
(
gptr
key
,
element_count
count
,
Unique
*
unique
);
friend
int
unique_write_to_file
(
gptr
key
,
element_count
count
,
Unique
*
unique
);
friend
int
unique_write_to_ptrs
(
gptr
key
,
element_count
count
,
Unique
*
unique
);
friend
int
unique_write_to_ptrs
(
gptr
key
,
element_count
count
,
Unique
*
unique
);
};
};
...
...
sql/uniques.cc
View file @
a8456e68
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