Skip to content
Projects
Groups
Snippets
Help
Loading...
Help
Support
Keyboard shortcuts
?
Submit feedback
Contribute to GitLab
Sign in / Register
Toggle navigation
M
mariadb
Project overview
Project overview
Details
Activity
Releases
Repository
Repository
Files
Commits
Branches
Tags
Contributors
Graph
Compare
Issues
0
Issues
0
List
Boards
Labels
Milestones
Merge Requests
0
Merge Requests
0
Analytics
Analytics
Repository
Value Stream
Wiki
Wiki
Snippets
Snippets
Members
Members
Collapse sidebar
Close sidebar
Activity
Graph
Create a new issue
Commits
Issue Boards
Open sidebar
Kirill Smelkov
mariadb
Commits
33ff3e37
Commit
33ff3e37
authored
Apr 06, 2006
by
ingo@mysql.com
Browse files
Options
Browse Files
Download
Plain Diff
Merge mysql.com:/home/mydev/mysql-5.1
into mysql.com:/home/mydev/mysql-5.1-aid
parents
5c689e33
44628436
Changes
10
Hide whitespace changes
Inline
Side-by-side
Showing
10 changed files
with
236 additions
and
51 deletions
+236
-51
mysql-test/r/partition_pruning.result
mysql-test/r/partition_pruning.result
+62
-0
mysql-test/r/sp.result
mysql-test/r/sp.result
+11
-0
mysql-test/t/partition_pruning.test
mysql-test/t/partition_pruning.test
+59
-0
mysql-test/t/sp.test
mysql-test/t/sp.test
+15
-0
sql/opt_range.cc
sql/opt_range.cc
+1
-3
sql/partition_info.h
sql/partition_info.h
+2
-2
sql/sql_delete.cc
sql/sql_delete.cc
+1
-2
sql/sql_parse.cc
sql/sql_parse.cc
+1
-1
sql/sql_partition.cc
sql/sql_partition.cc
+67
-42
sql/sql_partition.h
sql/sql_partition.h
+17
-1
No files found.
mysql-test/r/partition_pruning.result
View file @
33ff3e37
...
...
@@ -597,3 +597,65 @@ NULL
explain partitions select * from t1 where f_int1 is null;
id select_type table partitions type possible_keys key key_len ref rows Extra
1 SIMPLE t1 part4_p2sp0 system NULL NULL NULL NULL 1
drop table t1;
create table t1 (a int not null, b int not null)
partition by list(a)
subpartition by hash(b) subpartitions 4
(
partition p0 values in (1),
partition p1 values in (2),
partition p2 values in (3)
);
insert into t1 values (1,1),(1,2),(1,3),(1,4),
(2,1),(2,2),(2,3),(2,4);
explain partitions select * from t1 where a=1 AND (b=1 OR b=2);
id select_type table partitions type possible_keys key key_len ref rows Extra
1 SIMPLE t1 p0_p0sp1,p0_p0sp2 ALL NULL NULL NULL NULL 2 Using where
drop table t1;
create table t1 (a int, b int not null)
partition by list(a)
subpartition by hash(b) subpartitions 2
(
partition p0 values in (1),
partition p1 values in (2),
partition p2 values in (3),
partition pn values in (NULL)
);
insert into t1 values (1,1),(1,2),(1,3),(1,4),
(2,1),(2,2),(2,3),(2,4), (NULL,1);
explain partitions select * from t1 where a IS NULL AND (b=1 OR b=2);
id select_type table partitions type possible_keys key key_len ref rows Extra
1 SIMPLE t1 pn_p3sp0,pn_p3sp1 system NULL NULL NULL NULL 1
explain partitions select * from t1 where (a IS NULL or a < 1) AND (b=1 OR b=2);
id select_type table partitions type possible_keys key key_len ref rows Extra
1 SIMPLE t1 pn_p3sp0,pn_p3sp1 system NULL NULL NULL NULL 1
explain partitions select * from t1 where (a IS NULL or a < 2) AND (b=1 OR b=2);
id select_type table partitions type possible_keys key key_len ref rows Extra
1 SIMPLE t1 p0_p0sp0,p0_p0sp1,pn_p3sp0,pn_p3sp1 ALL NULL NULL NULL NULL 5 Using where
explain partitions select * from t1 where (a IS NULL or a <= 1) AND (b=1 OR b=2);
id select_type table partitions type possible_keys key key_len ref rows Extra
1 SIMPLE t1 p0_p0sp0,p0_p0sp1,pn_p3sp0,pn_p3sp1 ALL NULL NULL NULL NULL 5 Using where
drop table t1;
create table t1 ( a int) partition by list (MOD(a, 10))
( partition p0 values in (0), partition p1 values in (1),
partition p2 values in (2), partition p3 values in (3),
partition p4 values in (4), partition p5 values in (5),
partition p6 values in (6), partition pn values in (NULL)
);
insert into t1 values (NULL), (0),(1),(2),(3),(4),(5),(6);
explain partitions select * from t1 where a is null or a < 2;
id select_type table partitions type possible_keys key key_len ref rows Extra
1 SIMPLE t1 p0,p1,p2,p3,p4,p5,p6,pn ALL NULL NULL NULL NULL 8 Using where
drop table t1;
create table t1 (s1 int) partition by list (s1)
(partition p1 values in (0),
partition p2 values in (1),
partition p3 values in (null));
insert into t1 values (0),(1),(null);
select count(*) from t1 where s1 < 0 or s1 is null;
count(*)
1
explain partitions select count(*) from t1 where s1 < 0 or s1 is null;
id select_type table partitions type possible_keys key key_len ref rows Extra
1 SIMPLE t1 p3 system NULL NULL NULL NULL 1
drop table t1;
mysql-test/r/sp.result
View file @
33ff3e37
...
...
@@ -4821,6 +4821,17 @@ begin
declare x int;
select id from t1 order by x;
end|
drop procedure if exists bug14945|
create table t3 (id int not null auto_increment primary key)|
create procedure bug14945() deterministic truncate t3|
insert into t3 values (null)|
call bug14945()|
insert into t3 values (null)|
select * from t3|
id
1
drop table t3|
drop procedure bug14945|
create procedure bug16474_2(x int)
select id from t1 order by x|
call bug16474_1()|
...
...
mysql-test/t/partition_pruning.test
View file @
33ff3e37
...
...
@@ -492,6 +492,65 @@ insert into t1 set f_int1 = null;
select
*
from
t1
where
f_int1
is
null
;
explain
partitions
select
*
from
t1
where
f_int1
is
null
;
drop
table
t1
;
#
# BUG#18558
#
create
table
t1
(
a
int
not
null
,
b
int
not
null
)
partition
by
list
(
a
)
subpartition
by
hash
(
b
)
subpartitions
4
(
partition
p0
values
in
(
1
),
partition
p1
values
in
(
2
),
partition
p2
values
in
(
3
)
);
insert
into
t1
values
(
1
,
1
),(
1
,
2
),(
1
,
3
),(
1
,
4
),
(
2
,
1
),(
2
,
2
),(
2
,
3
),(
2
,
4
);
explain
partitions
select
*
from
t1
where
a
=
1
AND
(
b
=
1
OR
b
=
2
);
drop
table
t1
;
create
table
t1
(
a
int
,
b
int
not
null
)
partition
by
list
(
a
)
subpartition
by
hash
(
b
)
subpartitions
2
(
partition
p0
values
in
(
1
),
partition
p1
values
in
(
2
),
partition
p2
values
in
(
3
),
partition
pn
values
in
(
NULL
)
);
insert
into
t1
values
(
1
,
1
),(
1
,
2
),(
1
,
3
),(
1
,
4
),
(
2
,
1
),(
2
,
2
),(
2
,
3
),(
2
,
4
),
(
NULL
,
1
);
explain
partitions
select
*
from
t1
where
a
IS
NULL
AND
(
b
=
1
OR
b
=
2
);
explain
partitions
select
*
from
t1
where
(
a
IS
NULL
or
a
<
1
)
AND
(
b
=
1
OR
b
=
2
);
explain
partitions
select
*
from
t1
where
(
a
IS
NULL
or
a
<
2
)
AND
(
b
=
1
OR
b
=
2
);
explain
partitions
select
*
from
t1
where
(
a
IS
NULL
or
a
<=
1
)
AND
(
b
=
1
OR
b
=
2
);
drop
table
t1
;
create
table
t1
(
a
int
)
partition
by
list
(
MOD
(
a
,
10
))
(
partition
p0
values
in
(
0
),
partition
p1
values
in
(
1
),
partition
p2
values
in
(
2
),
partition
p3
values
in
(
3
),
partition
p4
values
in
(
4
),
partition
p5
values
in
(
5
),
partition
p6
values
in
(
6
),
partition
pn
values
in
(
NULL
)
);
insert
into
t1
values
(
NULL
),
(
0
),(
1
),(
2
),(
3
),(
4
),(
5
),(
6
);
explain
partitions
select
*
from
t1
where
a
is
null
or
a
<
2
;
drop
table
t1
;
# Testcase from BUG#18751
create
table
t1
(
s1
int
)
partition
by
list
(
s1
)
(
partition
p1
values
in
(
0
),
partition
p2
values
in
(
1
),
partition
p3
values
in
(
null
));
insert
into
t1
values
(
0
),(
1
),(
null
);
select
count
(
*
)
from
t1
where
s1
<
0
or
s1
is
null
;
explain
partitions
select
count
(
*
)
from
t1
where
s1
<
0
or
s1
is
null
;
drop
table
t1
;
# No tests for NULLs in RANGE(monotonic_expr()) - they depend on BUG#15447
# being fixed.
mysql-test/t/sp.test
View file @
33ff3e37
...
...
@@ -5672,6 +5672,21 @@ begin
select
id
from
t1
order
by
x
;
end
|
#
# BUG#14945: Truncate table doesn't reset the auto_increment counter
#
--
disable_warnings
drop
procedure
if
exists
bug14945
|
--
enable_warnings
create
table
t3
(
id
int
not
null
auto_increment
primary
key
)
|
create
procedure
bug14945
()
deterministic
truncate
t3
|
insert
into
t3
values
(
null
)
|
call
bug14945
()
|
insert
into
t3
values
(
null
)
|
select
*
from
t3
|
drop
table
t3
|
drop
procedure
bug14945
|
# This does NOT order by column index; variable is an expression.
create
procedure
bug16474_2
(
x
int
)
select
id
from
t1
order
by
x
|
...
...
sql/opt_range.cc
View file @
33ff3e37
...
...
@@ -2296,8 +2296,6 @@ bool prune_partitions(THD *thd, TABLE *table, Item *pprune_cond)
RANGE_OPT_PARAM
*
range_par
=
&
prune_param
.
range_param
;
prune_param
.
part_info
=
part_info
;
prune_param
.
part_iter
.
has_null_value
=
FALSE
;
init_sql_alloc
(
&
alloc
,
thd
->
variables
.
range_alloc_block_size
,
0
);
range_par
->
mem_root
=
&
alloc
;
range_par
->
old_root
=
thd
->
mem_root
;
...
...
@@ -2730,7 +2728,7 @@ int find_used_partitions(PART_PRUNE_PARAM *ppar, SEL_ARG *key_tree)
key_tree
->
min_flag
|
key_tree
->
max_flag
,
&
ppar
->
part_iter
);
if
(
!
res
)
goto
go_right
;
/* res=0 --> no satisfying partitions */
goto
go_right
;
/* res=
=
0 --> no satisfying partitions */
if
(
res
==
-
1
)
{
//get a full range iterator
...
...
sql/partition_info.h
View file @
33ff3e37
...
...
@@ -267,7 +267,7 @@ uint32 get_next_partition_id_range(struct st_partition_iter* part_iter);
static
inline
void
init_single_partition_iterator
(
uint32
part_id
,
PARTITION_ITERATOR
*
part_iter
)
{
part_iter
->
part_nums
.
start
=
part_id
;
part_iter
->
part_nums
.
start
=
part_i
ter
->
part_nums
.
cur
=
part_i
d
;
part_iter
->
part_nums
.
end
=
part_id
+
1
;
part_iter
->
get_next
=
get_next_partition_id_range
;
}
...
...
@@ -277,7 +277,7 @@ static inline
void
init_all_partitions_iterator
(
partition_info
*
part_info
,
PARTITION_ITERATOR
*
part_iter
)
{
part_iter
->
part_nums
.
start
=
0
;
part_iter
->
part_nums
.
start
=
part_iter
->
part_nums
.
cur
=
0
;
part_iter
->
part_nums
.
end
=
part_info
->
no_parts
;
part_iter
->
get_next
=
get_next_partition_id_range
;
}
sql/sql_delete.cc
View file @
33ff3e37
...
...
@@ -916,8 +916,7 @@ bool mysql_truncate(THD *thd, TABLE_LIST *table_list, bool dont_send_ok)
DBUG_RETURN
(
TRUE
);
}
if
(
!
ha_check_storage_engine_flag
(
ha_resolve_by_legacy_type
(
thd
,
table_type
),
HTON_CAN_RECREATE
)
||
thd
->
lex
->
sphead
)
HTON_CAN_RECREATE
))
goto
trunc_by_del
;
if
(
lock_and_wait_for_table_name
(
thd
,
table_list
))
...
...
sql/sql_parse.cc
View file @
33ff3e37
...
...
@@ -3387,7 +3387,7 @@ end_with_restore_list:
Don't allow this within a transaction because we want to use
re-generate table
*/
if
(
(
thd
->
locked_tables
&&
!
lex
->
sphead
)
||
thd
->
active_transaction
())
if
(
thd
->
locked_tables
||
thd
->
active_transaction
())
{
my_message
(
ER_LOCK_OR_ACTIVE_TRANSACTION
,
ER
(
ER_LOCK_OR_ACTIVE_TRANSACTION
),
MYF
(
0
));
...
...
sql/sql_partition.cc
View file @
33ff3e37
...
...
@@ -5269,7 +5269,7 @@ static void set_up_range_analysis_info(partition_info *part_info)
}
/*
Check get_part_iter_for_interval_via_walking() can be used for
Check
if
get_part_iter_for_interval_via_walking() can be used for
partitioning
*/
if
(
part_info
->
no_part_fields
==
1
)
...
...
@@ -5291,7 +5291,7 @@ static void set_up_range_analysis_info(partition_info *part_info)
setup_subparts:
/*
Check get_part_iter_for_interval_via_walking() can be used for
Check
if
get_part_iter_for_interval_via_walking() can be used for
subpartitioning
*/
if
(
part_info
->
no_subpart_fields
==
1
)
...
...
@@ -5374,40 +5374,47 @@ int get_part_iter_for_interval_via_mapping(partition_info *part_info,
max_endpoint_val
=
part_info
->
no_list_values
;
part_iter
->
get_next
=
get_next_partition_id_list
;
part_iter
->
part_info
=
part_info
;
part_iter
->
ret_null_part
=
part_iter
->
ret_null_part_orig
=
FALSE
;
}
else
DBUG_ASSERT
(
0
);
if
(
field
->
real_maybe_null
()
&&
part_info
->
has_null_value
)
/*
Find minimum: Do special handling if the interval has left bound in form
" NULL <= X ":
*/
if
(
field
->
real_maybe_null
()
&&
part_info
->
has_null_value
&&
!
(
flags
&
(
NO_MIN_RANGE
|
NEAR_MIN
))
&&
*
min_value
)
{
if
(
*
min_value
)
part_iter
->
ret_null_part
=
part_iter
->
ret_null_part_orig
=
TRUE
;
part_iter
->
part_nums
.
start
=
part_iter
->
part_nums
.
cur
=
0
;
if
(
*
max_value
&&
!
(
flags
&
NO_MAX_RANGE
))
{
if
(
*
max_value
&&
!
(
flags
&
(
NO_MIN_RANGE
|
NO_MAX_RANGE
)))
{
init_single_partition_iterator
(
part_info
->
has_null_part_id
,
part_iter
);
return
1
;
}
if
(
!
(
flags
&
NEAR_MIN
))
part_iter
->
has_null_value
=
TRUE
;
/* The right bound is X <= NULL, i.e. it is a "X IS NULL" interval */
part_iter
->
part_nums
.
end
=
0
;
return
1
;
}
}
/* Find minimum */
if
(
flags
&
NO_MIN_RANGE
)
part_iter
->
part_nums
.
start
=
0
;
else
{
/*
Store the interval edge in the record buffer, and call the
function that maps the edge in table-field space to an edge
in ordered-set-of-partitions (for RANGE partitioning) or
index-in-ordered-array-of-list-constants (for LIST) space.
*/
store_key_image_to_rec
(
field
,
min_value
,
field_len
);
bool
include_endp
=
part_info
->
range_analysis_include_bounds
||
!
test
(
flags
&
NEAR_MIN
);
part_iter
->
part_nums
.
start
=
get_endpoint
(
part_info
,
1
,
include_endp
);
if
(
part_iter
->
part_nums
.
start
==
max_endpoint_val
)
return
0
;
/* No partitions */
if
(
flags
&
NO_MIN_RANGE
)
part_iter
->
part_nums
.
start
=
part_iter
->
part_nums
.
cur
=
0
;
else
{
/*
Store the interval edge in the record buffer, and call the
function that maps the edge in table-field space to an edge
in ordered-set-of-partitions (for RANGE partitioning) or
index-in-ordered-array-of-list-constants (for LIST) space.
*/
store_key_image_to_rec
(
field
,
min_value
,
field_len
);
bool
include_endp
=
part_info
->
range_analysis_include_bounds
||
!
test
(
flags
&
NEAR_MIN
);
part_iter
->
part_nums
.
start
=
get_endpoint
(
part_info
,
1
,
include_endp
);
part_iter
->
part_nums
.
cur
=
part_iter
->
part_nums
.
start
;
if
(
part_iter
->
part_nums
.
start
==
max_endpoint_val
)
return
0
;
/* No partitions */
}
}
/* Find maximum, do the same as above but for right interval bound */
...
...
@@ -5419,7 +5426,8 @@ int get_part_iter_for_interval_via_mapping(partition_info *part_info,
bool
include_endp
=
part_info
->
range_analysis_include_bounds
||
!
test
(
flags
&
NEAR_MAX
);
part_iter
->
part_nums
.
end
=
get_endpoint
(
part_info
,
0
,
include_endp
);
if
(
part_iter
->
part_nums
.
start
==
part_iter
->
part_nums
.
end
)
if
(
part_iter
->
part_nums
.
start
==
part_iter
->
part_nums
.
end
&&
!
part_iter
->
ret_null_part
)
return
0
;
/* No partitions */
}
return
1
;
/* Ok, iterator initialized */
...
...
@@ -5534,8 +5542,13 @@ int get_part_iter_for_interval_via_walking(partition_info *part_info,
return
0
;
/* No partitions match */
}
if
(
flags
&
(
NO_MIN_RANGE
|
NO_MAX_RANGE
))
if
((
field
->
real_maybe_null
()
&&
((
!
(
flags
&
NO_MIN_RANGE
)
&&
*
min_value
)
||
// NULL <? X
(
!
(
flags
&
NO_MAX_RANGE
)
&&
*
max_value
)))
||
// X <? NULL
(
flags
&
(
NO_MIN_RANGE
|
NO_MAX_RANGE
)))
// -inf at any bound
{
return
-
1
;
/* Can't handle this interval, have to use all partitions */
}
/* Get integers for left and right interval bound */
longlong
a
,
b
;
...
...
@@ -5553,7 +5566,7 @@ int get_part_iter_for_interval_via_walking(partition_info *part_info,
if
(
n_values
>
total_parts
||
n_values
>
MAX_RANGE_TO_WALK
)
return
-
1
;
part_iter
->
field_vals
.
start
=
a
;
part_iter
->
field_vals
.
start
=
part_iter
->
field_vals
.
cur
=
a
;
part_iter
->
field_vals
.
end
=
b
;
part_iter
->
part_info
=
part_info
;
part_iter
->
get_next
=
get_next_func
;
...
...
@@ -5565,12 +5578,13 @@ int get_part_iter_for_interval_via_walking(partition_info *part_info,
PARTITION_ITERATOR::get_next implementation: enumerate partitions in range
SYNOPSIS
get_next_partition_id_
list
()
get_next_partition_id_
range
()
part_iter Partition set iterator structure
DESCRIPTION
This is implementation of PARTITION_ITERATOR::get_next() that returns
[sub]partition ids in [min_partition_id, max_partition_id] range.
The function conforms to partition_iter_func type.
RETURN
partition id
...
...
@@ -5579,10 +5593,13 @@ int get_part_iter_for_interval_via_walking(partition_info *part_info,
uint32
get_next_partition_id_range
(
PARTITION_ITERATOR
*
part_iter
)
{
if
(
part_iter
->
part_nums
.
start
==
part_iter
->
part_nums
.
end
)
if
(
part_iter
->
part_nums
.
cur
==
part_iter
->
part_nums
.
end
)
{
part_iter
->
part_nums
.
cur
=
part_iter
->
part_nums
.
start
;
return
NOT_A_PARTITION_ID
;
}
else
return
part_iter
->
part_nums
.
start
++
;
return
part_iter
->
part_nums
.
cur
++
;
}
...
...
@@ -5597,6 +5614,7 @@ uint32 get_next_partition_id_range(PARTITION_ITERATOR* part_iter)
This implementation of PARTITION_ITERATOR::get_next() is special for
LIST partitioning: it enumerates partition ids in
part_info->list_array[i] where i runs over [min_idx, max_idx] interval.
The function conforms to partition_iter_func type.
RETURN
partition id
...
...
@@ -5605,18 +5623,20 @@ uint32 get_next_partition_id_range(PARTITION_ITERATOR* part_iter)
uint32
get_next_partition_id_list
(
PARTITION_ITERATOR
*
part_iter
)
{
if
(
part_iter
->
part_nums
.
start
==
part_iter
->
part_nums
.
end
)
if
(
part_iter
->
part_nums
.
cur
==
part_iter
->
part_nums
.
end
)
{
if
(
part_iter
->
has_null_value
)
if
(
part_iter
->
ret_null_part
)
{
part_iter
->
has_null_value
=
FALSE
;
part_iter
->
ret_null_part
=
FALSE
;
return
part_iter
->
part_info
->
has_null_part_id
;
}
part_iter
->
part_nums
.
cur
=
part_iter
->
part_nums
.
start
;
part_iter
->
ret_null_part
=
part_iter
->
ret_null_part_orig
;
return
NOT_A_PARTITION_ID
;
}
else
return
part_iter
->
part_info
->
list_array
[
part_iter
->
part_nums
.
start
++
].
partition_id
;
part_nums
.
cur
++
].
partition_id
;
}
...
...
@@ -5631,6 +5651,7 @@ uint32 get_next_partition_id_list(PARTITION_ITERATOR *part_iter)
This implementation of PARTITION_ITERATOR::get_next() returns ids of
partitions that contain records with partitioning field value within
[start_val, end_val] interval.
The function conforms to partition_iter_func type.
RETURN
partition id
...
...
@@ -5641,11 +5662,10 @@ static uint32 get_next_partition_via_walking(PARTITION_ITERATOR *part_iter)
{
uint32
part_id
;
Field
*
field
=
part_iter
->
part_info
->
part_field_array
[
0
];
while
(
part_iter
->
field_vals
.
start
!=
part_iter
->
field_vals
.
end
)
while
(
part_iter
->
field_vals
.
cur
!=
part_iter
->
field_vals
.
end
)
{
field
->
store
(
part_iter
->
field_vals
.
start
,
FALSE
);
part_iter
->
field_vals
.
start
++
;
longlong
dummy
;
field
->
store
(
part_iter
->
field_vals
.
cur
++
,
FALSE
);
if
(
part_iter
->
part_info
->
is_sub_partitioned
()
&&
!
part_iter
->
part_info
->
get_part_partition_id
(
part_iter
->
part_info
,
&
part_id
,
&
dummy
)
||
...
...
@@ -5653,6 +5673,9 @@ static uint32 get_next_partition_via_walking(PARTITION_ITERATOR *part_iter)
&
part_id
,
&
dummy
))
return
part_id
;
}
//psergey-todo: return partition(part_func(NULL)) here...
part_iter
->
field_vals
.
cur
=
part_iter
->
field_vals
.
start
;
return
NOT_A_PARTITION_ID
;
}
...
...
@@ -5663,10 +5686,12 @@ static uint32 get_next_subpartition_via_walking(PARTITION_ITERATOR *part_iter)
{
uint32
part_id
;
Field
*
field
=
part_iter
->
part_info
->
subpart_field_array
[
0
];
if
(
part_iter
->
field_vals
.
start
==
part_iter
->
field_vals
.
end
)
if
(
part_iter
->
field_vals
.
cur
==
part_iter
->
field_vals
.
end
)
{
part_iter
->
field_vals
.
cur
=
part_iter
->
field_vals
.
start
;
return
NOT_A_PARTITION_ID
;
field
->
store
(
part_iter
->
field_vals
.
start
,
FALSE
);
part_iter
->
field_vals
.
start
++
;
}
field
->
store
(
part_iter
->
field_vals
.
cur
++
,
FALSE
)
;
return
part_iter
->
part_info
->
get_subpartition_id
(
part_iter
->
part_info
);
}
#endif
...
...
sql/sql_partition.h
View file @
33ff3e37
...
...
@@ -94,10 +94,20 @@ uint32 get_partition_id_range_for_endpoint(partition_info *part_info,
/*
A "Get next" function for partition iterator.
SYNOPSIS
partition_iter_func()
part_iter Partition iterator, you call only "iter.get_next(&iter)"
DESCRIPTION
Depending on whether partitions or sub-partitions are iterated, the
function returns next subpartition id/partition number. The sequence of
returned numbers is not ordered and may contain duplicates.
When the end of sequence is reached, NOT_A_PARTITION_ID is returned, and
the iterator resets itself (so next get_next() call will start to
enumerate the set all over again).
RETURN
NOT_A_PARTITION_ID if there are no more partitions.
[sub]partition_id of the next partition
...
...
@@ -124,16 +134,22 @@ typedef uint32 (*partition_iter_func)(st_partition_iter* part_iter);
typedef
struct
st_partition_iter
{
partition_iter_func
get_next
;
bool
has_null_value
;
/*
Valid for "Interval mapping" in LIST partitioning: if true, let the
iterator also produce id of the partition that contains NULL value.
*/
bool
ret_null_part
,
ret_null_part_orig
;
struct
st_part_num_range
{
uint32
start
;
uint32
cur
;
uint32
end
;
};
struct
st_field_value_range
{
longlong
start
;
longlong
cur
;
longlong
end
;
};
...
...
Write
Preview
Markdown
is supported
0%
Try again
or
attach a new file
Attach a file
Cancel
You are about to add
0
people
to the discussion. Proceed with caution.
Finish editing this message first!
Cancel
Please
register
or
sign in
to comment