Commit 4c56ede4 authored by unknown's avatar unknown

Implementation of WL#1469 (Greedy algorithm to search for an optimal execution plan).


mysql-test/r/subselect.result:
  Table pre-sorting before optimization makes the optimizer select a different plan, this change fixes the plan.
sql/mysql_priv.h:
  Added new status variable last_query_cost that contains the cost of the last compiled query.
sql/mysqld.cc:
  * Added new system variable 'plan_search_depth' to control the exhaustiveness of the search for an optimal query plan.
  * Added new system variable 'heuristic' to control the use of query optimization heuristic.
  * Added new status variable 'last_query_cost' that contains the cost of the last compiled query.
sql/set_var.cc:
  * Added new system variable 'plan_search_depth' to control the exhaustiveness of the search for an optimal query plan.
  * Added new system variable 'heuristic' to control the use of query optimization heuristic.
sql/sql_class.h:
  * Added new system variable 'plan_search_depth' to control the exhaustiveness of the search for an optimal query plan.
  * Added new system variable 'heuristic' to control the use of query optimization heuristic.
sql/sql_select.cc:
  Added a combined greedy/exhaustive query optimization algorithm.
  * The greedy search algorithm is implemented in function 'greedy_search'.
  * The exhaustive search with controlled search depth is implemented in function 'find_best_limited_depth', a modification of 'find_best'.
  * The selection of the best access path and its cost computation is factored out from 'find_best' into function 'best_access_path'.
  * In addition:
    - added pre-sorting for the query tables before they get optimized
    - factored out the optimization of STRAIGHT_JOIN into a separate procedure
sql/sql_select.h:
  Added new field to st_position to support the greedy optimizer.
  Added a comment to class JOIN.
sql/sql_show.cc:
  Added a case to 'mysqld_show' to print double status variables.
sql/structs.h:
  Added a new type of status variables SHOW_DOUBLE
BitKeeper/etc/logging_ok:
  Logging to logging@openlogging.org accepted
parent 8468cde4
...@@ -141,6 +141,7 @@ tim@hundin.mysql.fi ...@@ -141,6 +141,7 @@ tim@hundin.mysql.fi
tim@threads.polyesthetic.msg tim@threads.polyesthetic.msg
tim@white.box tim@white.box
tim@work.mysql.com tim@work.mysql.com
timour@mysql.com
tom@basil-firewall.home.com tom@basil-firewall.home.com
tonu@hundin.mysql.fi tonu@hundin.mysql.fi
tonu@volk.internalnet tonu@volk.internalnet
......
drop table if exists t1,t2,t3,t4,t5,t6,t7;
create table t1 (
c11 integer,c12 integer,c13 integer,c14 integer,c15 integer,c16 integer,
primary key (c11)
);
create table t2 (
c21 integer,c22 integer,c23 integer,c24 integer,c25 integer,c26 integer,
);
create table t3 (
c31 integer,c32 integer,c33 integer,c34 integer,c35 integer,c36 integer,
primary key (c31)
);
create table t4 (
c41 integer,c42 integer,c43 integer,c44 integer,c45 integer,c46 integer
);
create table t5 (
c51 integer,c52 integer,c53 integer,c54 integer,c55 integer,c56 integer,
primary key (c51)
);
create table t6 (
c61 integer,c62 integer,c63 integer,c64 integer,c65 integer,c66 integer
);
create table t7 (
c71 integer,c72 integer,c73 integer,c74 integer,c75 integer,c76 integer,
primary key (c71)
);
insert into t1 values (1,2,3,4,5,6);
insert into t1 values (2,2,3,4,5,6);
insert into t1 values (3,2,3,4,5,6);
insert into t2 values (1,2,3,4,5,6);
insert into t2 values (2,2,3,4,5,6);
insert into t2 values (3,2,3,4,5,6);
insert into t2 values (4,2,3,4,5,6);
insert into t2 values (5,2,3,4,5,6);
insert into t2 values (6,2,3,4,5,6);
insert into t3 values (1,2,3,4,5,6);
insert into t3 values (2,2,3,4,5,6);
insert into t3 values (3,2,3,4,5,6);
insert into t3 values (4,2,3,4,5,6);
insert into t3 values (5,2,3,4,5,6);
insert into t3 values (6,2,3,4,5,6);
insert into t3 values (7,2,3,4,5,6);
insert into t3 values (8,2,3,4,5,6);
insert into t3 values (9,2,3,4,5,6);
insert into t4 values (1,2,3,4,5,6);
insert into t4 values (2,2,3,4,5,6);
insert into t4 values (3,2,3,4,5,6);
insert into t4 values (4,2,3,4,5,6);
insert into t4 values (5,2,3,4,5,6);
insert into t4 values (6,2,3,4,5,6);
insert into t4 values (7,2,3,4,5,6);
insert into t4 values (8,2,3,4,5,6);
insert into t4 values (9,2,3,4,5,6);
insert into t4 values (10,2,3,4,5,6);
insert into t4 values (11,2,3,4,5,6);
insert into t4 values (12,2,3,4,5,6);
insert into t5 values (1,2,3,4,5,6);
insert into t5 values (2,2,3,4,5,6);
insert into t5 values (3,2,3,4,5,6);
insert into t5 values (4,2,3,4,5,6);
insert into t5 values (5,2,3,4,5,6);
insert into t5 values (6,2,3,4,5,6);
insert into t5 values (7,2,3,4,5,6);
insert into t5 values (8,2,3,4,5,6);
insert into t5 values (9,2,3,4,5,6);
insert into t5 values (10,2,3,4,5,6);
insert into t5 values (11,2,3,4,5,6);
insert into t5 values (12,2,3,4,5,6);
insert into t5 values (13,2,3,4,5,6);
insert into t5 values (14,2,3,4,5,6);
insert into t5 values (15,2,3,4,5,6);
insert into t6 values (1,2,3,4,5,6);
insert into t6 values (2,2,3,4,5,6);
insert into t6 values (3,2,3,4,5,6);
insert into t6 values (4,2,3,4,5,6);
insert into t6 values (5,2,3,4,5,6);
insert into t6 values (6,2,3,4,5,6);
insert into t6 values (7,2,3,4,5,6);
insert into t6 values (8,2,3,4,5,6);
insert into t6 values (9,2,3,4,5,6);
insert into t6 values (10,2,3,4,5,6);
insert into t6 values (11,2,3,4,5,6);
insert into t6 values (12,2,3,4,5,6);
insert into t6 values (13,2,3,4,5,6);
insert into t6 values (14,2,3,4,5,6);
insert into t6 values (15,2,3,4,5,6);
insert into t6 values (16,2,3,4,5,6);
insert into t6 values (17,2,3,4,5,6);
insert into t6 values (18,2,3,4,5,6);
insert into t7 values (1,2,3,4,5,6);
insert into t7 values (2,2,3,4,5,6);
insert into t7 values (3,2,3,4,5,6);
insert into t7 values (4,2,3,4,5,6);
insert into t7 values (5,2,3,4,5,6);
insert into t7 values (6,2,3,4,5,6);
insert into t7 values (7,2,3,4,5,6);
insert into t7 values (8,2,3,4,5,6);
insert into t7 values (9,2,3,4,5,6);
insert into t7 values (10,2,3,4,5,6);
insert into t7 values (11,2,3,4,5,6);
insert into t7 values (12,2,3,4,5,6);
insert into t7 values (13,2,3,4,5,6);
insert into t7 values (14,2,3,4,5,6);
insert into t7 values (15,2,3,4,5,6);
insert into t7 values (16,2,3,4,5,6);
insert into t7 values (17,2,3,4,5,6);
insert into t7 values (18,2,3,4,5,6);
insert into t7 values (19,2,3,4,5,6);
insert into t7 values (20,2,3,4,5,6);
insert into t7 values (21,2,3,4,5,6);
select @@plan_search_depth;
@@plan_search_depth
62
select @@heuristic;
@@heuristic
1
set heuristic=0;
select @@heuristic;
@@heuristic
0
set plan_search_depth=0;
select @@plan_search_depth;
@@plan_search_depth
0
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c12 = t2.c21 and t2.c22 = t3.c31 and t3.c32 = t4.c41 and t4.c42 = t5.c51 and t5.c52 = t6.c61 and t6.c62 = t7.c71;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t1 ALL NULL NULL NULL NULL 3
1 SIMPLE t2 ALL NULL NULL NULL NULL 6 Using where
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t2.c22 1
1 SIMPLE t4 ALL NULL NULL NULL NULL 12 Using where
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t4.c42 1
1 SIMPLE t6 ALL NULL NULL NULL NULL 18 Using where
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t6.c62 1 Using index
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 821.838037
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c12 = t2.c21 and t2.c22 = t3.c31 and t3.c32 = t4.c41 and t4.c42 = t5.c51 and t5.c52 = t6.c61 and t6.c62 = t7.c71;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t6 ALL NULL NULL NULL NULL 18
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t6.c62 1 Using index
1 SIMPLE t4 ALL NULL NULL NULL NULL 12
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t4.c42 1 Using where
1 SIMPLE t2 ALL NULL NULL NULL NULL 6
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t2.c22 1 Using where
1 SIMPLE t1 ALL NULL NULL NULL NULL 3 Using where
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 821.838037
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t2 ALL NULL NULL NULL NULL 6
1 SIMPLE t4 ALL NULL NULL NULL NULL 12
1 SIMPLE t1 eq_ref PRIMARY PRIMARY 4 test.t2.c21 1 Using where
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t1.c12 1 Using index
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t1.c14 1 Using index
1 SIMPLE t6 ALL NULL NULL NULL NULL 18 Using where
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t1.c16 1 Using index
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 274.419727
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t6 ALL NULL NULL NULL NULL 18
1 SIMPLE t4 ALL NULL NULL NULL NULL 12
1 SIMPLE t2 ALL NULL NULL NULL NULL 6
1 SIMPLE t1 eq_ref PRIMARY PRIMARY 4 test.t2.c21 1 Using where
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t1.c12 1 Using index
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t1.c14 1 Using index
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t1.c16 1 Using index
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 274.419727
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71 and t2.c22 = t3.c32 and t2.c23 = t4.c42 and t2.c24 = t5.c52 and t2.c25 = t6.c62 and t2.c26 = t7.c72 and t3.c33 = t4.c43 and t3.c34 = t5.c53 and t3.c35 = t6.c63 and t3.c36 = t7.c73 and t4.c42 = t5.c54 and t4.c43 = t6.c64 and t4.c44 = t7.c74 and t5.c52 = t6.c65 and t5.c53 = t7.c75 and t6.c62 = t7.c76;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t2 ALL NULL NULL NULL NULL 6
1 SIMPLE t4 ALL NULL NULL NULL NULL 12 Using where
1 SIMPLE t1 eq_ref PRIMARY PRIMARY 4 test.t2.c21 1 Using where
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t1.c12 1 Using where
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t1.c14 1 Using where
1 SIMPLE t6 ALL NULL NULL NULL NULL 18 Using where
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t1.c16 1 Using where
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 274.419727
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71 and t2.c22 = t3.c32 and t2.c23 = t4.c42 and t2.c24 = t5.c52 and t2.c25 = t6.c62 and t2.c26 = t7.c72 and t3.c33 = t4.c43 and t3.c34 = t5.c53 and t3.c35 = t6.c63 and t3.c36 = t7.c73 and t4.c42 = t5.c54 and t4.c43 = t6.c64 and t4.c44 = t7.c74 and t5.c52 = t6.c65 and t5.c53 = t7.c75 and t6.c62 = t7.c76;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t6 ALL NULL NULL NULL NULL 18
1 SIMPLE t4 ALL NULL NULL NULL NULL 12 Using where
1 SIMPLE t2 ALL NULL NULL NULL NULL 6 Using where
1 SIMPLE t1 eq_ref PRIMARY PRIMARY 4 test.t2.c21 1 Using where
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t1.c12 1 Using where
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t1.c14 1 Using where
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t1.c16 1 Using where
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 274.419727
set plan_search_depth=1;
select @@plan_search_depth;
@@plan_search_depth
1
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c12 = t2.c21 and t2.c22 = t3.c31 and t3.c32 = t4.c41 and t4.c42 = t5.c51 and t5.c52 = t6.c61 and t6.c62 = t7.c71;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t1 ALL NULL NULL NULL NULL 3
1 SIMPLE t2 ALL NULL NULL NULL NULL 6 Using where
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t2.c22 1
1 SIMPLE t4 ALL NULL NULL NULL NULL 12 Using where
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t4.c42 1
1 SIMPLE t6 ALL NULL NULL NULL NULL 18 Using where
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t6.c62 1 Using index
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 821.838037
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c12 = t2.c21 and t2.c22 = t3.c31 and t3.c32 = t4.c41 and t4.c42 = t5.c51 and t5.c52 = t6.c61 and t6.c62 = t7.c71;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t1 ALL NULL NULL NULL NULL 3
1 SIMPLE t2 ALL NULL NULL NULL NULL 6 Using where
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t2.c22 1
1 SIMPLE t4 ALL NULL NULL NULL NULL 12 Using where
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t4.c42 1
1 SIMPLE t6 ALL NULL NULL NULL NULL 18 Using where
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t6.c62 1 Using index
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 821.838037
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t1 ALL PRIMARY NULL NULL NULL 3
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t1.c12 1 Using index
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t1.c14 1 Using index
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t1.c16 1 Using index
1 SIMPLE t2 ALL NULL NULL NULL NULL 6 Using where
1 SIMPLE t4 ALL NULL NULL NULL NULL 12 Using where
1 SIMPLE t6 ALL NULL NULL NULL NULL 18 Using where
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 794.838037
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t1 ALL PRIMARY NULL NULL NULL 3
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t1.c14 1 Using index
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t1.c12 1 Using index
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t1.c16 1 Using index
1 SIMPLE t2 ALL NULL NULL NULL NULL 6 Using where
1 SIMPLE t4 ALL NULL NULL NULL NULL 12 Using where
1 SIMPLE t6 ALL NULL NULL NULL NULL 18 Using where
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 794.838037
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71 and t2.c22 = t3.c32 and t2.c23 = t4.c42 and t2.c24 = t5.c52 and t2.c25 = t6.c62 and t2.c26 = t7.c72 and t3.c33 = t4.c43 and t3.c34 = t5.c53 and t3.c35 = t6.c63 and t3.c36 = t7.c73 and t4.c42 = t5.c54 and t4.c43 = t6.c64 and t4.c44 = t7.c74 and t5.c52 = t6.c65 and t5.c53 = t7.c75 and t6.c62 = t7.c76;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t1 ALL PRIMARY NULL NULL NULL 3
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t1.c12 1
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t1.c14 1 Using where
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t1.c16 1 Using where
1 SIMPLE t2 ALL NULL NULL NULL NULL 6 Using where
1 SIMPLE t4 ALL NULL NULL NULL NULL 12 Using where
1 SIMPLE t6 ALL NULL NULL NULL NULL 18 Using where
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 794.838037
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71 and t2.c22 = t3.c32 and t2.c23 = t4.c42 and t2.c24 = t5.c52 and t2.c25 = t6.c62 and t2.c26 = t7.c72 and t3.c33 = t4.c43 and t3.c34 = t5.c53 and t3.c35 = t6.c63 and t3.c36 = t7.c73 and t4.c42 = t5.c54 and t4.c43 = t6.c64 and t4.c44 = t7.c74 and t5.c52 = t6.c65 and t5.c53 = t7.c75 and t6.c62 = t7.c76;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t1 ALL PRIMARY NULL NULL NULL 3
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t1.c14 1
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t1.c12 1 Using where
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t1.c16 1 Using where
1 SIMPLE t2 ALL NULL NULL NULL NULL 6 Using where
1 SIMPLE t4 ALL NULL NULL NULL NULL 12 Using where
1 SIMPLE t6 ALL NULL NULL NULL NULL 18 Using where
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 794.838037
set plan_search_depth=62;
select @@plan_search_depth;
@@plan_search_depth
62
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c12 = t2.c21 and t2.c22 = t3.c31 and t3.c32 = t4.c41 and t4.c42 = t5.c51 and t5.c52 = t6.c61 and t6.c62 = t7.c71;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t1 ALL NULL NULL NULL NULL 3
1 SIMPLE t2 ALL NULL NULL NULL NULL 6 Using where
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t2.c22 1
1 SIMPLE t4 ALL NULL NULL NULL NULL 12 Using where
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t4.c42 1
1 SIMPLE t6 ALL NULL NULL NULL NULL 18 Using where
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t6.c62 1 Using index
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 821.838037
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c12 = t2.c21 and t2.c22 = t3.c31 and t3.c32 = t4.c41 and t4.c42 = t5.c51 and t5.c52 = t6.c61 and t6.c62 = t7.c71;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t6 ALL NULL NULL NULL NULL 18
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t6.c62 1 Using index
1 SIMPLE t4 ALL NULL NULL NULL NULL 12
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t4.c42 1 Using where
1 SIMPLE t2 ALL NULL NULL NULL NULL 6
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t2.c22 1 Using where
1 SIMPLE t1 ALL NULL NULL NULL NULL 3 Using where
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 821.838037
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t2 ALL NULL NULL NULL NULL 6
1 SIMPLE t4 ALL NULL NULL NULL NULL 12
1 SIMPLE t1 eq_ref PRIMARY PRIMARY 4 test.t2.c21 1 Using where
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t1.c12 1 Using index
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t1.c14 1 Using index
1 SIMPLE t6 ALL NULL NULL NULL NULL 18 Using where
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t1.c16 1 Using index
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 274.419727
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t6 ALL NULL NULL NULL NULL 18
1 SIMPLE t4 ALL NULL NULL NULL NULL 12
1 SIMPLE t2 ALL NULL NULL NULL NULL 6
1 SIMPLE t1 eq_ref PRIMARY PRIMARY 4 test.t2.c21 1 Using where
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t1.c12 1 Using index
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t1.c14 1 Using index
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t1.c16 1 Using index
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 274.419727
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71 and t2.c22 = t3.c32 and t2.c23 = t4.c42 and t2.c24 = t5.c52 and t2.c25 = t6.c62 and t2.c26 = t7.c72 and t3.c33 = t4.c43 and t3.c34 = t5.c53 and t3.c35 = t6.c63 and t3.c36 = t7.c73 and t4.c42 = t5.c54 and t4.c43 = t6.c64 and t4.c44 = t7.c74 and t5.c52 = t6.c65 and t5.c53 = t7.c75 and t6.c62 = t7.c76;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t2 ALL NULL NULL NULL NULL 6
1 SIMPLE t4 ALL NULL NULL NULL NULL 12 Using where
1 SIMPLE t1 eq_ref PRIMARY PRIMARY 4 test.t2.c21 1 Using where
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t1.c12 1 Using where
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t1.c14 1 Using where
1 SIMPLE t6 ALL NULL NULL NULL NULL 18 Using where
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t1.c16 1 Using where
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 274.419727
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71 and t2.c22 = t3.c32 and t2.c23 = t4.c42 and t2.c24 = t5.c52 and t2.c25 = t6.c62 and t2.c26 = t7.c72 and t3.c33 = t4.c43 and t3.c34 = t5.c53 and t3.c35 = t6.c63 and t3.c36 = t7.c73 and t4.c42 = t5.c54 and t4.c43 = t6.c64 and t4.c44 = t7.c74 and t5.c52 = t6.c65 and t5.c53 = t7.c75 and t6.c62 = t7.c76;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t6 ALL NULL NULL NULL NULL 18
1 SIMPLE t4 ALL NULL NULL NULL NULL 12 Using where
1 SIMPLE t2 ALL NULL NULL NULL NULL 6 Using where
1 SIMPLE t1 eq_ref PRIMARY PRIMARY 4 test.t2.c21 1 Using where
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t1.c12 1 Using where
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t1.c14 1 Using where
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t1.c16 1 Using where
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 274.419727
set plan_search_depth=63;
select @@plan_search_depth;
@@plan_search_depth
63
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c12 = t2.c21 and t2.c22 = t3.c31 and t3.c32 = t4.c41 and t4.c42 = t5.c51 and t5.c52 = t6.c61 and t6.c62 = t7.c71;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t1 ALL NULL NULL NULL NULL 3
1 SIMPLE t2 ALL NULL NULL NULL NULL 6 Using where
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t2.c22 1
1 SIMPLE t4 ALL NULL NULL NULL NULL 12 Using where
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t4.c42 1
1 SIMPLE t6 ALL NULL NULL NULL NULL 18 Using where
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t6.c62 1 Using index
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 821.838037
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c12 = t2.c21 and t2.c22 = t3.c31 and t3.c32 = t4.c41 and t4.c42 = t5.c51 and t5.c52 = t6.c61 and t6.c62 = t7.c71;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t6 ALL NULL NULL NULL NULL 18
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t6.c62 1 Using index
1 SIMPLE t4 ALL NULL NULL NULL NULL 12
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t4.c42 1 Using where
1 SIMPLE t2 ALL NULL NULL NULL NULL 6
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t2.c22 1 Using where
1 SIMPLE t1 ALL NULL NULL NULL NULL 3 Using where
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 821.838037
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t1 ALL PRIMARY NULL NULL NULL 3
1 SIMPLE t2 ALL NULL NULL NULL NULL 6 Using where
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t1.c12 1 Using index
1 SIMPLE t4 ALL NULL NULL NULL NULL 12 Using where
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t1.c14 1 Using index
1 SIMPLE t6 ALL NULL NULL NULL NULL 18 Using where
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t1.c16 1 Using index
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 794.838037
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t6 ALL NULL NULL NULL NULL 18
1 SIMPLE t4 ALL NULL NULL NULL NULL 12
1 SIMPLE t2 ALL NULL NULL NULL NULL 6
1 SIMPLE t1 eq_ref PRIMARY PRIMARY 4 test.t2.c21 1 Using where
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t1.c12 1 Using index
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t1.c14 1 Using index
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t1.c16 1 Using index
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 274.419727
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71 and t2.c22 = t3.c32 and t2.c23 = t4.c42 and t2.c24 = t5.c52 and t2.c25 = t6.c62 and t2.c26 = t7.c72 and t3.c33 = t4.c43 and t3.c34 = t5.c53 and t3.c35 = t6.c63 and t3.c36 = t7.c73 and t4.c42 = t5.c54 and t4.c43 = t6.c64 and t4.c44 = t7.c74 and t5.c52 = t6.c65 and t5.c53 = t7.c75 and t6.c62 = t7.c76;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t1 ALL PRIMARY NULL NULL NULL 3
1 SIMPLE t2 ALL NULL NULL NULL NULL 6 Using where
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t1.c12 1 Using where
1 SIMPLE t4 ALL NULL NULL NULL NULL 12 Using where
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t1.c14 1 Using where
1 SIMPLE t6 ALL NULL NULL NULL NULL 18 Using where
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t1.c16 1 Using where
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 794.838037
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71 and t2.c22 = t3.c32 and t2.c23 = t4.c42 and t2.c24 = t5.c52 and t2.c25 = t6.c62 and t2.c26 = t7.c72 and t3.c33 = t4.c43 and t3.c34 = t5.c53 and t3.c35 = t6.c63 and t3.c36 = t7.c73 and t4.c42 = t5.c54 and t4.c43 = t6.c64 and t4.c44 = t7.c74 and t5.c52 = t6.c65 and t5.c53 = t7.c75 and t6.c62 = t7.c76;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t6 ALL NULL NULL NULL NULL 18
1 SIMPLE t4 ALL NULL NULL NULL NULL 12 Using where
1 SIMPLE t2 ALL NULL NULL NULL NULL 6 Using where
1 SIMPLE t1 eq_ref PRIMARY PRIMARY 4 test.t2.c21 1 Using where
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t1.c12 1 Using where
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t1.c14 1 Using where
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t1.c16 1 Using where
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 274.419727
set heuristic=1;
select @@heuristic;
@@heuristic
1
set plan_search_depth=0;
select @@plan_search_depth;
@@plan_search_depth
0
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c12 = t2.c21 and t2.c22 = t3.c31 and t3.c32 = t4.c41 and t4.c42 = t5.c51 and t5.c52 = t6.c61 and t6.c62 = t7.c71;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t1 ALL NULL NULL NULL NULL 3
1 SIMPLE t2 ALL NULL NULL NULL NULL 6 Using where
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t2.c22 1
1 SIMPLE t4 ALL NULL NULL NULL NULL 12 Using where
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t4.c42 1
1 SIMPLE t6 ALL NULL NULL NULL NULL 18 Using where
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t6.c62 1 Using index
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 821.838037
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c12 = t2.c21 and t2.c22 = t3.c31 and t3.c32 = t4.c41 and t4.c42 = t5.c51 and t5.c52 = t6.c61 and t6.c62 = t7.c71;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t6 ALL NULL NULL NULL NULL 18
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t6.c62 1 Using index
1 SIMPLE t4 ALL NULL NULL NULL NULL 12
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t4.c42 1 Using where
1 SIMPLE t2 ALL NULL NULL NULL NULL 6
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t2.c22 1 Using where
1 SIMPLE t1 ALL NULL NULL NULL NULL 3 Using where
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 821.838037
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t1 ALL PRIMARY NULL NULL NULL 3
1 SIMPLE t2 ALL NULL NULL NULL NULL 6 Using where
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t1.c12 1 Using index
1 SIMPLE t4 ALL NULL NULL NULL NULL 12 Using where
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t1.c14 1 Using index
1 SIMPLE t6 ALL NULL NULL NULL NULL 18 Using where
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t1.c16 1 Using index
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 794.838037
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t6 ALL NULL NULL NULL NULL 18
1 SIMPLE t4 ALL NULL NULL NULL NULL 12
1 SIMPLE t2 ALL NULL NULL NULL NULL 6
1 SIMPLE t1 eq_ref PRIMARY PRIMARY 4 test.t2.c21 1 Using where
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t1.c12 1 Using index
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t1.c14 1 Using index
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t1.c16 1 Using index
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 274.419727
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71 and t2.c22 = t3.c32 and t2.c23 = t4.c42 and t2.c24 = t5.c52 and t2.c25 = t6.c62 and t2.c26 = t7.c72 and t3.c33 = t4.c43 and t3.c34 = t5.c53 and t3.c35 = t6.c63 and t3.c36 = t7.c73 and t4.c42 = t5.c54 and t4.c43 = t6.c64 and t4.c44 = t7.c74 and t5.c52 = t6.c65 and t5.c53 = t7.c75 and t6.c62 = t7.c76;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t1 ALL PRIMARY NULL NULL NULL 3
1 SIMPLE t2 ALL NULL NULL NULL NULL 6 Using where
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t1.c12 1 Using where
1 SIMPLE t4 ALL NULL NULL NULL NULL 12 Using where
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t1.c14 1 Using where
1 SIMPLE t6 ALL NULL NULL NULL NULL 18 Using where
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t1.c16 1 Using where
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 794.838037
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71 and t2.c22 = t3.c32 and t2.c23 = t4.c42 and t2.c24 = t5.c52 and t2.c25 = t6.c62 and t2.c26 = t7.c72 and t3.c33 = t4.c43 and t3.c34 = t5.c53 and t3.c35 = t6.c63 and t3.c36 = t7.c73 and t4.c42 = t5.c54 and t4.c43 = t6.c64 and t4.c44 = t7.c74 and t5.c52 = t6.c65 and t5.c53 = t7.c75 and t6.c62 = t7.c76;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t6 ALL NULL NULL NULL NULL 18
1 SIMPLE t4 ALL NULL NULL NULL NULL 12 Using where
1 SIMPLE t2 ALL NULL NULL NULL NULL 6 Using where
1 SIMPLE t1 eq_ref PRIMARY PRIMARY 4 test.t2.c21 1 Using where
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t1.c12 1 Using where
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t1.c14 1 Using where
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t1.c16 1 Using where
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 274.419727
set plan_search_depth=1;
select @@plan_search_depth;
@@plan_search_depth
1
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c12 = t2.c21 and t2.c22 = t3.c31 and t3.c32 = t4.c41 and t4.c42 = t5.c51 and t5.c52 = t6.c61 and t6.c62 = t7.c71;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t1 ALL NULL NULL NULL NULL 3
1 SIMPLE t2 ALL NULL NULL NULL NULL 6 Using where
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t2.c22 1
1 SIMPLE t4 ALL NULL NULL NULL NULL 12 Using where
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t4.c42 1
1 SIMPLE t6 ALL NULL NULL NULL NULL 18 Using where
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t6.c62 1 Using index
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 821.838037
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c12 = t2.c21 and t2.c22 = t3.c31 and t3.c32 = t4.c41 and t4.c42 = t5.c51 and t5.c52 = t6.c61 and t6.c62 = t7.c71;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t1 ALL NULL NULL NULL NULL 3
1 SIMPLE t2 ALL NULL NULL NULL NULL 6 Using where
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t2.c22 1
1 SIMPLE t4 ALL NULL NULL NULL NULL 12 Using where
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t4.c42 1
1 SIMPLE t6 ALL NULL NULL NULL NULL 18 Using where
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t6.c62 1 Using index
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 821.838037
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t1 ALL PRIMARY NULL NULL NULL 3
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t1.c12 1 Using index
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t1.c14 1 Using index
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t1.c16 1 Using index
1 SIMPLE t2 ALL NULL NULL NULL NULL 6 Using where
1 SIMPLE t4 ALL NULL NULL NULL NULL 12 Using where
1 SIMPLE t6 ALL NULL NULL NULL NULL 18 Using where
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 794.838037
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t1 ALL PRIMARY NULL NULL NULL 3
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t1.c14 1 Using index
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t1.c12 1 Using index
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t1.c16 1 Using index
1 SIMPLE t2 ALL NULL NULL NULL NULL 6 Using where
1 SIMPLE t4 ALL NULL NULL NULL NULL 12 Using where
1 SIMPLE t6 ALL NULL NULL NULL NULL 18 Using where
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 794.838037
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71 and t2.c22 = t3.c32 and t2.c23 = t4.c42 and t2.c24 = t5.c52 and t2.c25 = t6.c62 and t2.c26 = t7.c72 and t3.c33 = t4.c43 and t3.c34 = t5.c53 and t3.c35 = t6.c63 and t3.c36 = t7.c73 and t4.c42 = t5.c54 and t4.c43 = t6.c64 and t4.c44 = t7.c74 and t5.c52 = t6.c65 and t5.c53 = t7.c75 and t6.c62 = t7.c76;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t1 ALL PRIMARY NULL NULL NULL 3
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t1.c12 1
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t1.c14 1 Using where
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t1.c16 1 Using where
1 SIMPLE t2 ALL NULL NULL NULL NULL 6 Using where
1 SIMPLE t4 ALL NULL NULL NULL NULL 12 Using where
1 SIMPLE t6 ALL NULL NULL NULL NULL 18 Using where
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 794.838037
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71 and t2.c22 = t3.c32 and t2.c23 = t4.c42 and t2.c24 = t5.c52 and t2.c25 = t6.c62 and t2.c26 = t7.c72 and t3.c33 = t4.c43 and t3.c34 = t5.c53 and t3.c35 = t6.c63 and t3.c36 = t7.c73 and t4.c42 = t5.c54 and t4.c43 = t6.c64 and t4.c44 = t7.c74 and t5.c52 = t6.c65 and t5.c53 = t7.c75 and t6.c62 = t7.c76;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t1 ALL PRIMARY NULL NULL NULL 3
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t1.c14 1
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t1.c12 1 Using where
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t1.c16 1 Using where
1 SIMPLE t2 ALL NULL NULL NULL NULL 6 Using where
1 SIMPLE t4 ALL NULL NULL NULL NULL 12 Using where
1 SIMPLE t6 ALL NULL NULL NULL NULL 18 Using where
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 794.838037
set plan_search_depth=62;
select @@plan_search_depth;
@@plan_search_depth
62
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c12 = t2.c21 and t2.c22 = t3.c31 and t3.c32 = t4.c41 and t4.c42 = t5.c51 and t5.c52 = t6.c61 and t6.c62 = t7.c71;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t1 ALL NULL NULL NULL NULL 3
1 SIMPLE t2 ALL NULL NULL NULL NULL 6 Using where
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t2.c22 1
1 SIMPLE t4 ALL NULL NULL NULL NULL 12 Using where
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t4.c42 1
1 SIMPLE t6 ALL NULL NULL NULL NULL 18 Using where
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t6.c62 1 Using index
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 821.838037
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c12 = t2.c21 and t2.c22 = t3.c31 and t3.c32 = t4.c41 and t4.c42 = t5.c51 and t5.c52 = t6.c61 and t6.c62 = t7.c71;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t6 ALL NULL NULL NULL NULL 18
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t6.c62 1 Using index
1 SIMPLE t4 ALL NULL NULL NULL NULL 12
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t4.c42 1 Using where
1 SIMPLE t2 ALL NULL NULL NULL NULL 6
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t2.c22 1 Using where
1 SIMPLE t1 ALL NULL NULL NULL NULL 3 Using where
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 821.838037
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t1 ALL PRIMARY NULL NULL NULL 3
1 SIMPLE t2 ALL NULL NULL NULL NULL 6 Using where
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t1.c12 1 Using index
1 SIMPLE t4 ALL NULL NULL NULL NULL 12 Using where
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t1.c14 1 Using index
1 SIMPLE t6 ALL NULL NULL NULL NULL 18 Using where
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t1.c16 1 Using index
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 794.838037
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t6 ALL NULL NULL NULL NULL 18
1 SIMPLE t4 ALL NULL NULL NULL NULL 12
1 SIMPLE t2 ALL NULL NULL NULL NULL 6
1 SIMPLE t1 eq_ref PRIMARY PRIMARY 4 test.t2.c21 1 Using where
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t1.c12 1 Using index
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t1.c14 1 Using index
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t1.c16 1 Using index
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 274.419727
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71 and t2.c22 = t3.c32 and t2.c23 = t4.c42 and t2.c24 = t5.c52 and t2.c25 = t6.c62 and t2.c26 = t7.c72 and t3.c33 = t4.c43 and t3.c34 = t5.c53 and t3.c35 = t6.c63 and t3.c36 = t7.c73 and t4.c42 = t5.c54 and t4.c43 = t6.c64 and t4.c44 = t7.c74 and t5.c52 = t6.c65 and t5.c53 = t7.c75 and t6.c62 = t7.c76;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t1 ALL PRIMARY NULL NULL NULL 3
1 SIMPLE t2 ALL NULL NULL NULL NULL 6 Using where
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t1.c12 1 Using where
1 SIMPLE t4 ALL NULL NULL NULL NULL 12 Using where
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t1.c14 1 Using where
1 SIMPLE t6 ALL NULL NULL NULL NULL 18 Using where
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t1.c16 1 Using where
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 794.838037
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71 and t2.c22 = t3.c32 and t2.c23 = t4.c42 and t2.c24 = t5.c52 and t2.c25 = t6.c62 and t2.c26 = t7.c72 and t3.c33 = t4.c43 and t3.c34 = t5.c53 and t3.c35 = t6.c63 and t3.c36 = t7.c73 and t4.c42 = t5.c54 and t4.c43 = t6.c64 and t4.c44 = t7.c74 and t5.c52 = t6.c65 and t5.c53 = t7.c75 and t6.c62 = t7.c76;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t6 ALL NULL NULL NULL NULL 18
1 SIMPLE t4 ALL NULL NULL NULL NULL 12 Using where
1 SIMPLE t2 ALL NULL NULL NULL NULL 6 Using where
1 SIMPLE t1 eq_ref PRIMARY PRIMARY 4 test.t2.c21 1 Using where
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t1.c12 1 Using where
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t1.c14 1 Using where
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t1.c16 1 Using where
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 274.419727
set plan_search_depth=63;
select @@plan_search_depth;
@@plan_search_depth
63
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c12 = t2.c21 and t2.c22 = t3.c31 and t3.c32 = t4.c41 and t4.c42 = t5.c51 and t5.c52 = t6.c61 and t6.c62 = t7.c71;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t1 ALL NULL NULL NULL NULL 3
1 SIMPLE t2 ALL NULL NULL NULL NULL 6 Using where
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t2.c22 1
1 SIMPLE t4 ALL NULL NULL NULL NULL 12 Using where
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t4.c42 1
1 SIMPLE t6 ALL NULL NULL NULL NULL 18 Using where
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t6.c62 1 Using index
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 821.838037
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c12 = t2.c21 and t2.c22 = t3.c31 and t3.c32 = t4.c41 and t4.c42 = t5.c51 and t5.c52 = t6.c61 and t6.c62 = t7.c71;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t6 ALL NULL NULL NULL NULL 18
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t6.c62 1 Using index
1 SIMPLE t4 ALL NULL NULL NULL NULL 12
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t4.c42 1 Using where
1 SIMPLE t2 ALL NULL NULL NULL NULL 6
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t2.c22 1 Using where
1 SIMPLE t1 ALL NULL NULL NULL NULL 3 Using where
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 821.838037
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t1 ALL PRIMARY NULL NULL NULL 3
1 SIMPLE t2 ALL NULL NULL NULL NULL 6 Using where
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t1.c12 1 Using index
1 SIMPLE t4 ALL NULL NULL NULL NULL 12 Using where
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t1.c14 1 Using index
1 SIMPLE t6 ALL NULL NULL NULL NULL 18 Using where
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t1.c16 1 Using index
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 794.838037
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t6 ALL NULL NULL NULL NULL 18
1 SIMPLE t4 ALL NULL NULL NULL NULL 12
1 SIMPLE t2 ALL NULL NULL NULL NULL 6
1 SIMPLE t1 eq_ref PRIMARY PRIMARY 4 test.t2.c21 1 Using where
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t1.c12 1 Using index
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t1.c14 1 Using index
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t1.c16 1 Using index
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 274.419727
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71 and t2.c22 = t3.c32 and t2.c23 = t4.c42 and t2.c24 = t5.c52 and t2.c25 = t6.c62 and t2.c26 = t7.c72 and t3.c33 = t4.c43 and t3.c34 = t5.c53 and t3.c35 = t6.c63 and t3.c36 = t7.c73 and t4.c42 = t5.c54 and t4.c43 = t6.c64 and t4.c44 = t7.c74 and t5.c52 = t6.c65 and t5.c53 = t7.c75 and t6.c62 = t7.c76;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t1 ALL PRIMARY NULL NULL NULL 3
1 SIMPLE t2 ALL NULL NULL NULL NULL 6 Using where
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t1.c12 1 Using where
1 SIMPLE t4 ALL NULL NULL NULL NULL 12 Using where
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t1.c14 1 Using where
1 SIMPLE t6 ALL NULL NULL NULL NULL 18 Using where
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t1.c16 1 Using where
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 794.838037
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71 and t2.c22 = t3.c32 and t2.c23 = t4.c42 and t2.c24 = t5.c52 and t2.c25 = t6.c62 and t2.c26 = t7.c72 and t3.c33 = t4.c43 and t3.c34 = t5.c53 and t3.c35 = t6.c63 and t3.c36 = t7.c73 and t4.c42 = t5.c54 and t4.c43 = t6.c64 and t4.c44 = t7.c74 and t5.c52 = t6.c65 and t5.c53 = t7.c75 and t6.c62 = t7.c76;
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t6 ALL NULL NULL NULL NULL 18
1 SIMPLE t4 ALL NULL NULL NULL NULL 12 Using where
1 SIMPLE t2 ALL NULL NULL NULL NULL 6 Using where
1 SIMPLE t1 eq_ref PRIMARY PRIMARY 4 test.t2.c21 1 Using where
1 SIMPLE t3 eq_ref PRIMARY PRIMARY 4 test.t1.c12 1 Using where
1 SIMPLE t5 eq_ref PRIMARY PRIMARY 4 test.t1.c14 1 Using where
1 SIMPLE t7 eq_ref PRIMARY PRIMARY 4 test.t1.c16 1 Using where
show status like 'Last_query_cost';
Variable_name Value
Last_query_cost 274.419727
drop table t1,t2,t3,t4,t5,t6,t7;
...@@ -1348,8 +1348,8 @@ a ...@@ -1348,8 +1348,8 @@ a
explain extended select * from t2 where t2.a in (select t1.a from t1,t3 where t1.b=t3.a); explain extended select * from t2 where t2.a in (select t1.a from t1,t3 where t1.b=t3.a);
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 PRIMARY t2 index NULL a 5 NULL 4 Using where; Using index 1 PRIMARY t2 index NULL a 5 NULL 4 Using where; Using index
2 DEPENDENT SUBQUERY t1 ref a a 5 func 1001 Using where; Using index 2 DEPENDENT SUBQUERY t3 index a a 5 NULL 3 Using index
2 DEPENDENT SUBQUERY t3 index a a 5 NULL 3 Using where; Using index 2 DEPENDENT SUBQUERY t1 ref a a 10 func,test.t3.a 1000 Using where; Using index
Warnings: Warnings:
Note 1003 select high_priority test.t2.a AS `a` from test.t2 where <in_optimizer>(test.t2.a,<exists>(select 1 AS `Not_used` from test.t1 join test.t3 where ((test.t1.b = test.t3.a) and (<cache>(test.t2.a) = test.t1.a)) limit 1)) Note 1003 select high_priority test.t2.a AS `a` from test.t2 where <in_optimizer>(test.t2.a,<exists>(select 1 AS `Not_used` from test.t1 join test.t3 where ((test.t1.b = test.t3.a) and (<cache>(test.t2.a) = test.t1.a)) limit 1))
insert into t1 values (3,31); insert into t1 values (3,31);
......
#
# A simple test of the greedy query optimization algorithm and the switches that
# control the optimizationprocess.
#
#
# Schema
#
--disable_warnings
drop table if exists t1,t2,t3,t4,t5,t6,t7;
--enable_warnings
create table t1 (
c11 integer,c12 integer,c13 integer,c14 integer,c15 integer,c16 integer,
primary key (c11)
);
create table t2 (
c21 integer,c22 integer,c23 integer,c24 integer,c25 integer,c26 integer,
);
create table t3 (
c31 integer,c32 integer,c33 integer,c34 integer,c35 integer,c36 integer,
primary key (c31)
);
create table t4 (
c41 integer,c42 integer,c43 integer,c44 integer,c45 integer,c46 integer
);
create table t5 (
c51 integer,c52 integer,c53 integer,c54 integer,c55 integer,c56 integer,
primary key (c51)
);
create table t6 (
c61 integer,c62 integer,c63 integer,c64 integer,c65 integer,c66 integer
);
create table t7 (
c71 integer,c72 integer,c73 integer,c74 integer,c75 integer,c76 integer,
primary key (c71)
);
#
# Data
# cardinality(Ti) = cardinality(T(i-1)) + 3
#
insert into t1 values (1,2,3,4,5,6);
insert into t1 values (2,2,3,4,5,6);
insert into t1 values (3,2,3,4,5,6);
insert into t2 values (1,2,3,4,5,6);
insert into t2 values (2,2,3,4,5,6);
insert into t2 values (3,2,3,4,5,6);
insert into t2 values (4,2,3,4,5,6);
insert into t2 values (5,2,3,4,5,6);
insert into t2 values (6,2,3,4,5,6);
insert into t3 values (1,2,3,4,5,6);
insert into t3 values (2,2,3,4,5,6);
insert into t3 values (3,2,3,4,5,6);
insert into t3 values (4,2,3,4,5,6);
insert into t3 values (5,2,3,4,5,6);
insert into t3 values (6,2,3,4,5,6);
insert into t3 values (7,2,3,4,5,6);
insert into t3 values (8,2,3,4,5,6);
insert into t3 values (9,2,3,4,5,6);
insert into t4 values (1,2,3,4,5,6);
insert into t4 values (2,2,3,4,5,6);
insert into t4 values (3,2,3,4,5,6);
insert into t4 values (4,2,3,4,5,6);
insert into t4 values (5,2,3,4,5,6);
insert into t4 values (6,2,3,4,5,6);
insert into t4 values (7,2,3,4,5,6);
insert into t4 values (8,2,3,4,5,6);
insert into t4 values (9,2,3,4,5,6);
insert into t4 values (10,2,3,4,5,6);
insert into t4 values (11,2,3,4,5,6);
insert into t4 values (12,2,3,4,5,6);
insert into t5 values (1,2,3,4,5,6);
insert into t5 values (2,2,3,4,5,6);
insert into t5 values (3,2,3,4,5,6);
insert into t5 values (4,2,3,4,5,6);
insert into t5 values (5,2,3,4,5,6);
insert into t5 values (6,2,3,4,5,6);
insert into t5 values (7,2,3,4,5,6);
insert into t5 values (8,2,3,4,5,6);
insert into t5 values (9,2,3,4,5,6);
insert into t5 values (10,2,3,4,5,6);
insert into t5 values (11,2,3,4,5,6);
insert into t5 values (12,2,3,4,5,6);
insert into t5 values (13,2,3,4,5,6);
insert into t5 values (14,2,3,4,5,6);
insert into t5 values (15,2,3,4,5,6);
insert into t6 values (1,2,3,4,5,6);
insert into t6 values (2,2,3,4,5,6);
insert into t6 values (3,2,3,4,5,6);
insert into t6 values (4,2,3,4,5,6);
insert into t6 values (5,2,3,4,5,6);
insert into t6 values (6,2,3,4,5,6);
insert into t6 values (7,2,3,4,5,6);
insert into t6 values (8,2,3,4,5,6);
insert into t6 values (9,2,3,4,5,6);
insert into t6 values (10,2,3,4,5,6);
insert into t6 values (11,2,3,4,5,6);
insert into t6 values (12,2,3,4,5,6);
insert into t6 values (13,2,3,4,5,6);
insert into t6 values (14,2,3,4,5,6);
insert into t6 values (15,2,3,4,5,6);
insert into t6 values (16,2,3,4,5,6);
insert into t6 values (17,2,3,4,5,6);
insert into t6 values (18,2,3,4,5,6);
insert into t7 values (1,2,3,4,5,6);
insert into t7 values (2,2,3,4,5,6);
insert into t7 values (3,2,3,4,5,6);
insert into t7 values (4,2,3,4,5,6);
insert into t7 values (5,2,3,4,5,6);
insert into t7 values (6,2,3,4,5,6);
insert into t7 values (7,2,3,4,5,6);
insert into t7 values (8,2,3,4,5,6);
insert into t7 values (9,2,3,4,5,6);
insert into t7 values (10,2,3,4,5,6);
insert into t7 values (11,2,3,4,5,6);
insert into t7 values (12,2,3,4,5,6);
insert into t7 values (13,2,3,4,5,6);
insert into t7 values (14,2,3,4,5,6);
insert into t7 values (15,2,3,4,5,6);
insert into t7 values (16,2,3,4,5,6);
insert into t7 values (17,2,3,4,5,6);
insert into t7 values (18,2,3,4,5,6);
insert into t7 values (19,2,3,4,5,6);
insert into t7 values (20,2,3,4,5,6);
insert into t7 values (21,2,3,4,5,6);
#
# The actual test begins here
#
# first check the default values for the optimizer paramters
select @@plan_search_depth;
select @@heuristic;
-- These are all possible values for the parameters that control the optimizer
-- (total 8 combinations):
--
-- set plan_search_depth=0; -- automatic
-- set plan_search_depth=1; -- min
-- set plan_search_depth=62; -- max - default
-- set plan_search_depth=63; -- old
-- select @@plan_search_depth;
--
-- set heuristic=0 -- exhaustive;
-- set heuristic=1 -- heuristic; -- default
-- select @@heuristic;
#
# Compile some simple queries with all combinations of the query
# optimizer parameters.
#
set heuristic=0;
select @@heuristic;
set plan_search_depth=0;
select @@plan_search_depth;
-- 6-table join, chain
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c12 = t2.c21 and t2.c22 = t3.c31 and t3.c32 = t4.c41 and t4.c42 = t5.c51 and t5.c52 = t6.c61 and t6.c62 = t7.c71;
show status like 'Last_query_cost';
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c12 = t2.c21 and t2.c22 = t3.c31 and t3.c32 = t4.c41 and t4.c42 = t5.c51 and t5.c52 = t6.c61 and t6.c62 = t7.c71;
show status like 'Last_query_cost';
-- 6-table join, star
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71;
show status like 'Last_query_cost';
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71;
show status like 'Last_query_cost';
-- 6-table join, clique
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71 and t2.c22 = t3.c32 and t2.c23 = t4.c42 and t2.c24 = t5.c52 and t2.c25 = t6.c62 and t2.c26 = t7.c72 and t3.c33 = t4.c43 and t3.c34 = t5.c53 and t3.c35 = t6.c63 and t3.c36 = t7.c73 and t4.c42 = t5.c54 and t4.c43 = t6.c64 and t4.c44 = t7.c74 and t5.c52 = t6.c65 and t5.c53 = t7.c75 and t6.c62 = t7.c76;
show status like 'Last_query_cost';
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71 and t2.c22 = t3.c32 and t2.c23 = t4.c42 and t2.c24 = t5.c52 and t2.c25 = t6.c62 and t2.c26 = t7.c72 and t3.c33 = t4.c43 and t3.c34 = t5.c53 and t3.c35 = t6.c63 and t3.c36 = t7.c73 and t4.c42 = t5.c54 and t4.c43 = t6.c64 and t4.c44 = t7.c74 and t5.c52 = t6.c65 and t5.c53 = t7.c75 and t6.c62 = t7.c76;
show status like 'Last_query_cost';
set plan_search_depth=1;
select @@plan_search_depth;
-- 6-table join, chain
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c12 = t2.c21 and t2.c22 = t3.c31 and t3.c32 = t4.c41 and t4.c42 = t5.c51 and t5.c52 = t6.c61 and t6.c62 = t7.c71;
show status like 'Last_query_cost';
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c12 = t2.c21 and t2.c22 = t3.c31 and t3.c32 = t4.c41 and t4.c42 = t5.c51 and t5.c52 = t6.c61 and t6.c62 = t7.c71;
show status like 'Last_query_cost';
-- 6-table join, star
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71;
show status like 'Last_query_cost';
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71;
show status like 'Last_query_cost';
-- 6-table join, clique
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71 and t2.c22 = t3.c32 and t2.c23 = t4.c42 and t2.c24 = t5.c52 and t2.c25 = t6.c62 and t2.c26 = t7.c72 and t3.c33 = t4.c43 and t3.c34 = t5.c53 and t3.c35 = t6.c63 and t3.c36 = t7.c73 and t4.c42 = t5.c54 and t4.c43 = t6.c64 and t4.c44 = t7.c74 and t5.c52 = t6.c65 and t5.c53 = t7.c75 and t6.c62 = t7.c76;
show status like 'Last_query_cost';
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71 and t2.c22 = t3.c32 and t2.c23 = t4.c42 and t2.c24 = t5.c52 and t2.c25 = t6.c62 and t2.c26 = t7.c72 and t3.c33 = t4.c43 and t3.c34 = t5.c53 and t3.c35 = t6.c63 and t3.c36 = t7.c73 and t4.c42 = t5.c54 and t4.c43 = t6.c64 and t4.c44 = t7.c74 and t5.c52 = t6.c65 and t5.c53 = t7.c75 and t6.c62 = t7.c76;
show status like 'Last_query_cost';
set plan_search_depth=62;
select @@plan_search_depth;
-- 6-table join, chain
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c12 = t2.c21 and t2.c22 = t3.c31 and t3.c32 = t4.c41 and t4.c42 = t5.c51 and t5.c52 = t6.c61 and t6.c62 = t7.c71;
show status like 'Last_query_cost';
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c12 = t2.c21 and t2.c22 = t3.c31 and t3.c32 = t4.c41 and t4.c42 = t5.c51 and t5.c52 = t6.c61 and t6.c62 = t7.c71;
show status like 'Last_query_cost';
-- 6-table join, star
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71;
show status like 'Last_query_cost';
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71;
show status like 'Last_query_cost';
-- 6-table join, clique
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71 and t2.c22 = t3.c32 and t2.c23 = t4.c42 and t2.c24 = t5.c52 and t2.c25 = t6.c62 and t2.c26 = t7.c72 and t3.c33 = t4.c43 and t3.c34 = t5.c53 and t3.c35 = t6.c63 and t3.c36 = t7.c73 and t4.c42 = t5.c54 and t4.c43 = t6.c64 and t4.c44 = t7.c74 and t5.c52 = t6.c65 and t5.c53 = t7.c75 and t6.c62 = t7.c76;
show status like 'Last_query_cost';
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71 and t2.c22 = t3.c32 and t2.c23 = t4.c42 and t2.c24 = t5.c52 and t2.c25 = t6.c62 and t2.c26 = t7.c72 and t3.c33 = t4.c43 and t3.c34 = t5.c53 and t3.c35 = t6.c63 and t3.c36 = t7.c73 and t4.c42 = t5.c54 and t4.c43 = t6.c64 and t4.c44 = t7.c74 and t5.c52 = t6.c65 and t5.c53 = t7.c75 and t6.c62 = t7.c76;
show status like 'Last_query_cost';
set plan_search_depth=63;
select @@plan_search_depth;
-- 6-table join, chain
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c12 = t2.c21 and t2.c22 = t3.c31 and t3.c32 = t4.c41 and t4.c42 = t5.c51 and t5.c52 = t6.c61 and t6.c62 = t7.c71;
show status like 'Last_query_cost';
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c12 = t2.c21 and t2.c22 = t3.c31 and t3.c32 = t4.c41 and t4.c42 = t5.c51 and t5.c52 = t6.c61 and t6.c62 = t7.c71;
show status like 'Last_query_cost';
-- 6-table join, star
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71;
show status like 'Last_query_cost';
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71;
show status like 'Last_query_cost';
-- 6-table join, clique
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71 and t2.c22 = t3.c32 and t2.c23 = t4.c42 and t2.c24 = t5.c52 and t2.c25 = t6.c62 and t2.c26 = t7.c72 and t3.c33 = t4.c43 and t3.c34 = t5.c53 and t3.c35 = t6.c63 and t3.c36 = t7.c73 and t4.c42 = t5.c54 and t4.c43 = t6.c64 and t4.c44 = t7.c74 and t5.c52 = t6.c65 and t5.c53 = t7.c75 and t6.c62 = t7.c76;
show status like 'Last_query_cost';
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71 and t2.c22 = t3.c32 and t2.c23 = t4.c42 and t2.c24 = t5.c52 and t2.c25 = t6.c62 and t2.c26 = t7.c72 and t3.c33 = t4.c43 and t3.c34 = t5.c53 and t3.c35 = t6.c63 and t3.c36 = t7.c73 and t4.c42 = t5.c54 and t4.c43 = t6.c64 and t4.c44 = t7.c74 and t5.c52 = t6.c65 and t5.c53 = t7.c75 and t6.c62 = t7.c76;
show status like 'Last_query_cost';
set heuristic=1;
select @@heuristic;
set plan_search_depth=0;
select @@plan_search_depth;
-- 6-table join, chain
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c12 = t2.c21 and t2.c22 = t3.c31 and t3.c32 = t4.c41 and t4.c42 = t5.c51 and t5.c52 = t6.c61 and t6.c62 = t7.c71;
show status like 'Last_query_cost';
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c12 = t2.c21 and t2.c22 = t3.c31 and t3.c32 = t4.c41 and t4.c42 = t5.c51 and t5.c52 = t6.c61 and t6.c62 = t7.c71;
show status like 'Last_query_cost';
-- 6-table join, star
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71;
show status like 'Last_query_cost';
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71;
show status like 'Last_query_cost';
-- 6-table join, clique
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71 and t2.c22 = t3.c32 and t2.c23 = t4.c42 and t2.c24 = t5.c52 and t2.c25 = t6.c62 and t2.c26 = t7.c72 and t3.c33 = t4.c43 and t3.c34 = t5.c53 and t3.c35 = t6.c63 and t3.c36 = t7.c73 and t4.c42 = t5.c54 and t4.c43 = t6.c64 and t4.c44 = t7.c74 and t5.c52 = t6.c65 and t5.c53 = t7.c75 and t6.c62 = t7.c76;
show status like 'Last_query_cost';
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71 and t2.c22 = t3.c32 and t2.c23 = t4.c42 and t2.c24 = t5.c52 and t2.c25 = t6.c62 and t2.c26 = t7.c72 and t3.c33 = t4.c43 and t3.c34 = t5.c53 and t3.c35 = t6.c63 and t3.c36 = t7.c73 and t4.c42 = t5.c54 and t4.c43 = t6.c64 and t4.c44 = t7.c74 and t5.c52 = t6.c65 and t5.c53 = t7.c75 and t6.c62 = t7.c76;
show status like 'Last_query_cost';
set plan_search_depth=1;
select @@plan_search_depth;
-- 6-table join, chain
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c12 = t2.c21 and t2.c22 = t3.c31 and t3.c32 = t4.c41 and t4.c42 = t5.c51 and t5.c52 = t6.c61 and t6.c62 = t7.c71;
show status like 'Last_query_cost';
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c12 = t2.c21 and t2.c22 = t3.c31 and t3.c32 = t4.c41 and t4.c42 = t5.c51 and t5.c52 = t6.c61 and t6.c62 = t7.c71;
show status like 'Last_query_cost';
-- 6-table join, star
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71;
show status like 'Last_query_cost';
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71;
show status like 'Last_query_cost';
-- 6-table join, clique
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71 and t2.c22 = t3.c32 and t2.c23 = t4.c42 and t2.c24 = t5.c52 and t2.c25 = t6.c62 and t2.c26 = t7.c72 and t3.c33 = t4.c43 and t3.c34 = t5.c53 and t3.c35 = t6.c63 and t3.c36 = t7.c73 and t4.c42 = t5.c54 and t4.c43 = t6.c64 and t4.c44 = t7.c74 and t5.c52 = t6.c65 and t5.c53 = t7.c75 and t6.c62 = t7.c76;
show status like 'Last_query_cost';
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71 and t2.c22 = t3.c32 and t2.c23 = t4.c42 and t2.c24 = t5.c52 and t2.c25 = t6.c62 and t2.c26 = t7.c72 and t3.c33 = t4.c43 and t3.c34 = t5.c53 and t3.c35 = t6.c63 and t3.c36 = t7.c73 and t4.c42 = t5.c54 and t4.c43 = t6.c64 and t4.c44 = t7.c74 and t5.c52 = t6.c65 and t5.c53 = t7.c75 and t6.c62 = t7.c76;
show status like 'Last_query_cost';
set plan_search_depth=62;
select @@plan_search_depth;
-- 6-table join, chain
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c12 = t2.c21 and t2.c22 = t3.c31 and t3.c32 = t4.c41 and t4.c42 = t5.c51 and t5.c52 = t6.c61 and t6.c62 = t7.c71;
show status like 'Last_query_cost';
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c12 = t2.c21 and t2.c22 = t3.c31 and t3.c32 = t4.c41 and t4.c42 = t5.c51 and t5.c52 = t6.c61 and t6.c62 = t7.c71;
show status like 'Last_query_cost';
-- 6-table join, star
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71;
show status like 'Last_query_cost';
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71;
show status like 'Last_query_cost';
-- 6-table join, clique
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71 and t2.c22 = t3.c32 and t2.c23 = t4.c42 and t2.c24 = t5.c52 and t2.c25 = t6.c62 and t2.c26 = t7.c72 and t3.c33 = t4.c43 and t3.c34 = t5.c53 and t3.c35 = t6.c63 and t3.c36 = t7.c73 and t4.c42 = t5.c54 and t4.c43 = t6.c64 and t4.c44 = t7.c74 and t5.c52 = t6.c65 and t5.c53 = t7.c75 and t6.c62 = t7.c76;
show status like 'Last_query_cost';
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71 and t2.c22 = t3.c32 and t2.c23 = t4.c42 and t2.c24 = t5.c52 and t2.c25 = t6.c62 and t2.c26 = t7.c72 and t3.c33 = t4.c43 and t3.c34 = t5.c53 and t3.c35 = t6.c63 and t3.c36 = t7.c73 and t4.c42 = t5.c54 and t4.c43 = t6.c64 and t4.c44 = t7.c74 and t5.c52 = t6.c65 and t5.c53 = t7.c75 and t6.c62 = t7.c76;
show status like 'Last_query_cost';
set plan_search_depth=63;
select @@plan_search_depth;
-- 6-table join, chain
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c12 = t2.c21 and t2.c22 = t3.c31 and t3.c32 = t4.c41 and t4.c42 = t5.c51 and t5.c52 = t6.c61 and t6.c62 = t7.c71;
show status like 'Last_query_cost';
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c12 = t2.c21 and t2.c22 = t3.c31 and t3.c32 = t4.c41 and t4.c42 = t5.c51 and t5.c52 = t6.c61 and t6.c62 = t7.c71;
show status like 'Last_query_cost';
-- 6-table join, star
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71;
show status like 'Last_query_cost';
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71;
show status like 'Last_query_cost';
-- 6-table join, clique
explain select t1.c11 from t1, t2, t3, t4, t5, t6, t7 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71 and t2.c22 = t3.c32 and t2.c23 = t4.c42 and t2.c24 = t5.c52 and t2.c25 = t6.c62 and t2.c26 = t7.c72 and t3.c33 = t4.c43 and t3.c34 = t5.c53 and t3.c35 = t6.c63 and t3.c36 = t7.c73 and t4.c42 = t5.c54 and t4.c43 = t6.c64 and t4.c44 = t7.c74 and t5.c52 = t6.c65 and t5.c53 = t7.c75 and t6.c62 = t7.c76;
show status like 'Last_query_cost';
explain select t1.c11 from t7, t6, t5, t4, t3, t2, t1 where t1.c11 = t2.c21 and t1.c12 = t3.c31 and t1.c13 = t4.c41 and t1.c14 = t5.c51 and t1.c15 = t6.c61 and t1.c16 = t7.c71 and t2.c22 = t3.c32 and t2.c23 = t4.c42 and t2.c24 = t5.c52 and t2.c25 = t6.c62 and t2.c26 = t7.c72 and t3.c33 = t4.c43 and t3.c34 = t5.c53 and t3.c35 = t6.c63 and t3.c36 = t7.c73 and t4.c42 = t5.c54 and t4.c43 = t6.c64 and t4.c44 = t7.c74 and t5.c52 = t6.c65 and t5.c53 = t7.c75 and t6.c62 = t7.c76;
show status like 'Last_query_cost';
drop table t1,t2,t3,t4,t5,t6,t7;
...@@ -836,6 +836,7 @@ extern char glob_hostname[FN_REFLEN], mysql_home[FN_REFLEN]; ...@@ -836,6 +836,7 @@ extern char glob_hostname[FN_REFLEN], mysql_home[FN_REFLEN];
extern char pidfile_name[FN_REFLEN], time_zone[30], *opt_init_file; extern char pidfile_name[FN_REFLEN], time_zone[30], *opt_init_file;
extern char log_error_file[FN_REFLEN]; extern char log_error_file[FN_REFLEN];
extern double log_10[32]; extern double log_10[32];
extern double last_query_cost;
extern ulonglong keybuff_size; extern ulonglong keybuff_size;
extern ulong refresh_version,flush_version, thread_id,query_id,opened_tables; extern ulong refresh_version,flush_version, thread_id,query_id,opened_tables;
extern ulong created_tmp_tables, created_tmp_disk_tables; extern ulong created_tmp_tables, created_tmp_disk_tables;
......
...@@ -311,6 +311,7 @@ ulong my_bind_addr; /* the address we bind to */ ...@@ -311,6 +311,7 @@ ulong my_bind_addr; /* the address we bind to */
volatile ulong cached_thread_count= 0; volatile ulong cached_thread_count= 0;
double log_10[32]; /* 10 potences */ double log_10[32]; /* 10 potences */
double last_query_cost= -1; /* -1 denotes that no query was compiled yet */
time_t start_time; time_t start_time;
...@@ -3706,7 +3707,9 @@ enum options_mysqld ...@@ -3706,7 +3707,9 @@ enum options_mysqld
OPT_DATE_FORMAT, OPT_DATE_FORMAT,
OPT_TIME_FORMAT, OPT_TIME_FORMAT,
OPT_DATETIME_FORMAT, OPT_DATETIME_FORMAT,
OPT_LOG_QUERIES_NOT_USING_INDEXES OPT_LOG_QUERIES_NOT_USING_INDEXES,
OPT_PLAN_SEARCH_DEPTH,
OPT_HEURISTIC
}; };
...@@ -4308,6 +4311,11 @@ log and this option does nothing anymore.", ...@@ -4308,6 +4311,11 @@ log and this option does nothing anymore.",
"Use stopwords from this file instead of built-in list.", "Use stopwords from this file instead of built-in list.",
(gptr*) &ft_stopword_file, (gptr*) &ft_stopword_file, 0, GET_STR, (gptr*) &ft_stopword_file, (gptr*) &ft_stopword_file, 0, GET_STR,
REQUIRED_ARG, 0, 0, 0, 0, 0, 0}, REQUIRED_ARG, 0, 0, 0, 0, 0, 0},
{"heuristic", OPT_HEURISTIC,
"Controls the heuristic(s) applied during query optimization to prune less-promising partial plans from the optimizer search space. Meaning: 0 - do not apply any heuristic, thus perform exhaustive search; 1 - prune plans based on rows and read time.",
(gptr*) &global_system_variables.heuristic,
(gptr*) &max_system_variables.heuristic,
0, GET_ULONG, OPT_ARG, 1, 0, 1, 0, 1, 0},
#ifdef HAVE_INNOBASE_DB #ifdef HAVE_INNOBASE_DB
{"innodb_mirrored_log_groups", OPT_INNODB_MIRRORED_LOG_GROUPS, {"innodb_mirrored_log_groups", OPT_INNODB_MIRRORED_LOG_GROUPS,
"Number of identical copies of log groups we keep for the database. Currently this should be set to 1.", "Number of identical copies of log groups we keep for the database. Currently this should be set to 1.",
...@@ -4542,6 +4550,11 @@ The minimum value for this variable is 4096.", ...@@ -4542,6 +4550,11 @@ The minimum value for this variable is 4096.",
"If this is not 0, then mysqld will use this value to reserve file descriptors to use with setrlimit(). If this value is 0 then mysqld will reserve max_connections*5 or max_connections + table_cache*2 (whichever is larger) number of files.", "If this is not 0, then mysqld will use this value to reserve file descriptors to use with setrlimit(). If this value is 0 then mysqld will reserve max_connections*5 or max_connections + table_cache*2 (whichever is larger) number of files.",
(gptr*) &open_files_limit, (gptr*) &open_files_limit, 0, GET_ULONG, (gptr*) &open_files_limit, (gptr*) &open_files_limit, 0, GET_ULONG,
REQUIRED_ARG, 0, 0, 65535, 0, 1, 0}, REQUIRED_ARG, 0, 0, 65535, 0, 1, 0},
{"plan_search_depth", OPT_PLAN_SEARCH_DEPTH,
"Maximum depth of search performed by the query optimizer. Values larger than the number of relations in a query result in better query plans, but take longer to compile a query. Smaller values than the number of tables in a relation result in faster optimization, but may produce very bad query plans. If set to 0, the system will automatically pick a reasonable value; if set to MAX_TABLES+2, the optimizer will switch to the original find_best (used for testing/comparison).",
(gptr*) &global_system_variables.plan_search_depth,
(gptr*) &max_system_variables.plan_search_depth,
0, GET_ULONG, OPT_ARG, MAX_TABLES+1, 0, MAX_TABLES+2, 0, 1, 0},
{"preload_buffer_size", OPT_PRELOAD_BUFFER_SIZE, {"preload_buffer_size", OPT_PRELOAD_BUFFER_SIZE,
"The size of the buffer that is allocated when preloading indexes", "The size of the buffer that is allocated when preloading indexes",
(gptr*) &global_system_variables.preload_buff_size, (gptr*) &global_system_variables.preload_buff_size,
...@@ -4887,6 +4900,7 @@ struct show_var_st status_vars[]= { ...@@ -4887,6 +4900,7 @@ struct show_var_st status_vars[]= {
{"Threads_connected", (char*) &thread_count, SHOW_INT_CONST}, {"Threads_connected", (char*) &thread_count, SHOW_INT_CONST},
{"Threads_running", (char*) &thread_running, SHOW_INT_CONST}, {"Threads_running", (char*) &thread_running, SHOW_INT_CONST},
{"Uptime", (char*) 0, SHOW_STARTTIME}, {"Uptime", (char*) 0, SHOW_STARTTIME},
{"Last_query_cost", (char*) &last_query_cost, SHOW_DOUBLE},
{NullS, NullS, SHOW_LONG} {NullS, NullS, SHOW_LONG}
}; };
......
...@@ -149,6 +149,7 @@ sys_var_long_ptr sys_expire_logs_days("expire_logs_days", ...@@ -149,6 +149,7 @@ sys_var_long_ptr sys_expire_logs_days("expire_logs_days",
&expire_logs_days); &expire_logs_days);
sys_var_bool_ptr sys_flush("flush", &myisam_flush); sys_var_bool_ptr sys_flush("flush", &myisam_flush);
sys_var_long_ptr sys_flush_time("flush_time", &flush_time); sys_var_long_ptr sys_flush_time("flush_time", &flush_time);
sys_var_thd_ulong sys_heuristic("heuristic", &SV::heuristic);
sys_var_thd_ulong sys_interactive_timeout("interactive_timeout", sys_var_thd_ulong sys_interactive_timeout("interactive_timeout",
&SV::net_interactive_timeout); &SV::net_interactive_timeout);
sys_var_thd_ulong sys_join_buffer_size("join_buffer_size", sys_var_thd_ulong sys_join_buffer_size("join_buffer_size",
...@@ -241,6 +242,8 @@ sys_var_thd_ulong sys_net_retry_count("net_retry_count", ...@@ -241,6 +242,8 @@ sys_var_thd_ulong sys_net_retry_count("net_retry_count",
fix_net_retry_count); fix_net_retry_count);
sys_var_thd_bool sys_new_mode("new", &SV::new_mode); sys_var_thd_bool sys_new_mode("new", &SV::new_mode);
sys_var_thd_bool sys_old_passwords("old_passwords", &SV::old_passwords); sys_var_thd_bool sys_old_passwords("old_passwords", &SV::old_passwords);
sys_var_thd_ulong sys_plan_search_depth("plan_search_depth",
&SV::plan_search_depth);
sys_var_thd_ulong sys_preload_buff_size("preload_buffer_size", sys_var_thd_ulong sys_preload_buff_size("preload_buffer_size",
&SV::preload_buff_size); &SV::preload_buff_size);
sys_var_thd_ulong sys_read_buff_size("read_buffer_size", sys_var_thd_ulong sys_read_buff_size("read_buffer_size",
...@@ -447,6 +450,7 @@ sys_var *sys_variables[]= ...@@ -447,6 +450,7 @@ sys_var *sys_variables[]=
&sys_flush_time, &sys_flush_time,
&sys_foreign_key_checks, &sys_foreign_key_checks,
&sys_group_concat_max_len, &sys_group_concat_max_len,
&sys_heuristic,
&sys_identity, &sys_identity,
&sys_init_connect, &sys_init_connect,
&sys_init_slave, &sys_init_slave,
...@@ -492,6 +496,7 @@ sys_var *sys_variables[]= ...@@ -492,6 +496,7 @@ sys_var *sys_variables[]=
&sys_net_write_timeout, &sys_net_write_timeout,
&sys_new_mode, &sys_new_mode,
&sys_old_passwords, &sys_old_passwords,
&sys_plan_search_depth,
&sys_preload_buff_size, &sys_preload_buff_size,
&sys_pseudo_thread_id, &sys_pseudo_thread_id,
&sys_query_alloc_block_size, &sys_query_alloc_block_size,
...@@ -760,6 +765,8 @@ struct show_var_st init_vars[]= { ...@@ -760,6 +765,8 @@ struct show_var_st init_vars[]= {
{"version_compile_machine", (char*) MACHINE_TYPE, SHOW_CHAR}, {"version_compile_machine", (char*) MACHINE_TYPE, SHOW_CHAR},
{"version_compile_os", (char*) SYSTEM_TYPE, SHOW_CHAR}, {"version_compile_os", (char*) SYSTEM_TYPE, SHOW_CHAR},
{sys_net_wait_timeout.name, (char*) &sys_net_wait_timeout, SHOW_SYS}, {sys_net_wait_timeout.name, (char*) &sys_net_wait_timeout, SHOW_SYS},
{sys_heuristic.name, (char*) &sys_heuristic, SHOW_SYS},
{sys_plan_search_depth.name,(char*) &sys_plan_search_depth, SHOW_SYS},
{NullS, NullS, SHOW_LONG} {NullS, NullS, SHOW_LONG}
}; };
......
...@@ -390,6 +390,8 @@ struct system_variables ...@@ -390,6 +390,8 @@ struct system_variables
ulong table_type; ulong table_type;
ulong tmp_table_size; ulong tmp_table_size;
ulong tx_isolation; ulong tx_isolation;
ulong heuristic;
ulong plan_search_depth;
/* Determines which non-standard SQL behaviour should be enabled */ /* Determines which non-standard SQL behaviour should be enabled */
ulong sql_mode; ulong sql_mode;
ulong default_week_format; ulong default_week_format;
......
...@@ -49,6 +49,24 @@ static void set_position(JOIN *join,uint index,JOIN_TAB *table,KEYUSE *key); ...@@ -49,6 +49,24 @@ static void set_position(JOIN *join,uint index,JOIN_TAB *table,KEYUSE *key);
static bool create_ref_for_key(JOIN *join, JOIN_TAB *j, KEYUSE *org_keyuse, static bool create_ref_for_key(JOIN *join, JOIN_TAB *j, KEYUSE *org_keyuse,
table_map used_tables); table_map used_tables);
static void find_best_combination(JOIN *join,table_map rest_tables); static void find_best_combination(JOIN *join,table_map rest_tables);
static void best_access_path(JOIN *join, JOIN_TAB *s, THD *thd,
table_map rest_tables, uint idx,
double record_count, double read_time);
static void optimize_straight_join(JOIN *join, table_map rest_tables);
static void greedy_search(JOIN *join, table_map rest_tables,
uint depth, uint heuristic);
static void find_best_limited_depth(JOIN *join, table_map rest_tables, uint idx,
double record_count, double read_time,
uint depth, uint heuristic);
static uint determine_search_depth(JOIN* join);
static int join_tab_cmp(const void* ptr1, const void* ptr2);
static void print_plan(JOIN* join, double read_time, double record_count,
uint idx, const char *info);
/*
TODO: 'find_best' is here only temporarily until 'greedy_search' is
tested and approved.
*/
static void find_best(JOIN *join,table_map rest_tables,uint index, static void find_best(JOIN *join,table_map rest_tables,uint index,
double record_count,double read_time); double record_count,double read_time);
static uint cache_record_length(JOIN *join,uint index); static uint cache_record_length(JOIN *join,uint index);
...@@ -2621,16 +2639,869 @@ set_position(JOIN *join,uint idx,JOIN_TAB *table,KEYUSE *key) ...@@ -2621,16 +2639,869 @@ set_position(JOIN *join,uint idx,JOIN_TAB *table,KEYUSE *key)
} }
/*
Find the best access path (e.g. indexes) from table 's' to the tables in the
partial QEP 'join', and compute the cost of the new QEP that includes 's'.
SYNOPSIS
best_access_path()
join Valid partial QEP.
s Table access plan from join->best_ref being added to join.
rest_tables A bit-map where a bit is set for each table accessed in 'join'.
idx Index into 'join->positions' that points to the next undecided
table access plan in 'join->positions' ('s' in this case).
Thus: (idx == join->tables - card(rest_tables) - 1)
record_count The number of records acessed by the partial QEP 'join'.
read_time Time needed to execute 'join'.
MODIFIES
join->positions The best access path from 's' to 'join' and the
corresponding cost are stored in 'join->positions'.
*/
static void static void
find_best_combination(JOIN *join, table_map rest_tables) best_access_path(JOIN *join, // in/out
JOIN_TAB *s, // in
THD *thd, // in
table_map rest_tables, // in
uint idx, // in
double record_count, // in
double read_time) // in
{
KEYUSE *best_key= 0;
uint best_max_key_part= 0;
my_bool found_constraint= 0;
double best= DBL_MAX;
double best_time= DBL_MAX;
double records= DBL_MAX;
double tmp;
ha_rows rec;
DBUG_ENTER("best_access_path");
if (s->keyuse)
{ /* Use key if possible */
TABLE *table= s->table;
KEYUSE *keyuse,*start_key=0;
double best_records= DBL_MAX;
uint max_key_part=0;
/* Test how we can use keys */
rec= s->records/MATCHING_ROWS_IN_OTHER_TABLE; // Assumed records/key
for (keyuse=s->keyuse ; keyuse->table == table ;)
{
key_part_map found_part= 0;
table_map found_ref= 0;
uint found_ref_or_null= 0;
uint key= keyuse->key;
KEY *keyinfo= table->key_info+key;
bool ft_key= (keyuse->keypart == FT_KEYPART);
/* Calculate how many key segments of the current key we can use */
start_key= keyuse;
do
{ /* for each keypart */
uint keypart= keyuse->keypart;
uint found_part_ref_or_null= KEY_OPTIMIZE_REF_OR_NULL;
do
{
if (!(rest_tables & keyuse->used_tables) &&
!(found_ref_or_null & keyuse->optimize))
{
found_part|= keyuse->keypart_map;
found_ref|= keyuse->used_tables;
if (rec > keyuse->ref_table_rows)
rec= keyuse->ref_table_rows;
found_part_ref_or_null&= keyuse->optimize;
}
keyuse++;
found_ref_or_null|= found_part_ref_or_null;
} while (keyuse->table == table && keyuse->key == key &&
keyuse->keypart == keypart);
} while (keyuse->table == table && keyuse->key == key);
/*
Assume that that each key matches a proportional part of table.
*/
if (!found_part && !ft_key)
continue; // Nothing usable found
if (rec < MATCHING_ROWS_IN_OTHER_TABLE)
rec= MATCHING_ROWS_IN_OTHER_TABLE; // Fix for small tables
/*
ft-keys require special treatment
*/
if (ft_key)
{
/*
Really, there should be records=0.0 (yes!)
but 1.0 would be probably safer
*/
tmp= prev_record_reads(join, found_ref);
records= 1.0;
}
else
{
found_constraint= 1;
/*
Check if we found full key
*/
if (found_part == PREV_BITS(uint,keyinfo->key_parts) &&
!found_ref_or_null)
{ /* use eq key */
max_key_part= (uint) ~0;
if ((keyinfo->flags & (HA_NOSAME | HA_NULL_PART_KEY)) == HA_NOSAME)
{
tmp = prev_record_reads(join, found_ref);
records=1.0;
}
else
{
if (!found_ref)
{ // We found a const key
if (table->quick_keys.is_set(key))
records= (double) table->quick_rows[key];
else
{
/* quick_range couldn't use key! */
records= (double) s->records/rec;
}
}
else
{
if (!(records=keyinfo->rec_per_key[keyinfo->key_parts-1]))
{ // Prefere longer keys
records=
((double) s->records / (double) rec *
(1.0 +
((double) (table->max_key_length-keyinfo->key_length) /
(double) table->max_key_length)));
if (records < 2.0)
records=2.0; // Can't be as good as a unique
}
}
/* Limit the number of matched rows */
tmp = records;
set_if_smaller(tmp, (double) thd->variables.max_seeks_for_key);
if (table->used_keys.is_set(key))
{
/* we can use only index tree */
uint keys_per_block= table->file->block_size/2/
(keyinfo->key_length+table->file->ref_length)+1;
tmp = record_count*(tmp+keys_per_block-1)/keys_per_block;
}
else
tmp = record_count*min(tmp,s->worst_seeks);
}
}
else
{
/*
Use as much key-parts as possible and a uniq key is better
than a not unique key
Set tmp to (previous record count) * (records / combination)
*/
if ((found_part & 1) &&
(!(table->file->index_flags(key) & HA_ONLY_WHOLE_INDEX) ||
found_part == PREV_BITS(uint,keyinfo->key_parts)))
{
max_key_part=max_part_bit(found_part);
/*
Check if quick_range could determinate how many rows we
will match
*/
if (table->quick_keys.is_set(key) &&
table->quick_key_parts[key] <= max_key_part)
tmp = records = (double) table->quick_rows[key];
else
{
/* Check if we have statistic about the distribution */
if ((records = keyinfo->rec_per_key[max_key_part-1]))
tmp = records;
else
{
/*
Assume that the first key part matches 1% of the file
and that the hole key matches 10 (duplicates) or 1
(unique) records.
Assume also that more key matches proportionally more
records
This gives the formula:
records = (x * (b-a) + a*c-b)/(c-1)
b = records matched by whole key
a = records matched by first key part (10% of all records?)
c = number of key parts in key
x = used key parts (1 <= x <= c)
*/
double rec_per_key;
if (!(rec_per_key=(double)
keyinfo->rec_per_key[keyinfo->key_parts-1]))
rec_per_key=(double) s->records/rec+1;
if (!s->records)
tmp = 0;
else if (rec_per_key/(double) s->records >= 0.01)
tmp = rec_per_key;
else
{
double a=s->records*0.01;
tmp = (max_key_part * (rec_per_key - a) +
a*keyinfo->key_parts - rec_per_key)/
(keyinfo->key_parts-1);
set_if_bigger(tmp,1.0);
}
records = (ulong) tmp;
}
if (found_ref_or_null)
{
/* We need to do two key searches to find key */
tmp *= 2.0;
records *= 2.0;
}
}
/* Limit the number of matched rows */
set_if_smaller(tmp, (double) thd->variables.max_seeks_for_key);
if (table->used_keys.is_set(key))
{
/* we can use only index tree */
uint keys_per_block= table->file->block_size/2/
(keyinfo->key_length+table->file->ref_length)+1;
tmp = record_count*(tmp+keys_per_block-1)/keys_per_block;
}
else
tmp = record_count*min(tmp,s->worst_seeks);
}
else
tmp = best_time; // Do nothing
}
} /* not ft_key */
if (tmp < best_time - records/(double) TIME_FOR_COMPARE)
{
best_time= tmp + records/(double) TIME_FOR_COMPARE;
best= tmp;
best_records= records;
best_key= start_key;
best_max_key_part= max_key_part;
}
}
records= best_records;
}
/*
Don't test table scan if it can't be better.
Prefer key lookup if we would use the same key for scanning.
Don't do a table scan on InnoDB tables, if we can read the used
parts of the row from any of the used index.
This is because table scans uses index and we would not win
anything by using a table scan.
*/
if ((records >= s->found_records || best > s->read_time) &&
!(s->quick && best_key && s->quick->index == best_key->key &&
best_max_key_part >= s->table->quick_key_parts[best_key->key]) &&
!((s->table->file->table_flags() & HA_TABLE_SCAN_ON_INDEX) &&
! s->table->used_keys.is_clear_all() && best_key) &&
!(s->table->force_index && best_key))
{ // Check full join
ha_rows rnd_records= s->found_records;
/*
If there is a restriction on the table, assume that 25% of the
rows can be skipped on next part.
This is to force tables that this table depends on before this
table
*/
if (found_constraint)
rnd_records-= rnd_records/4;
/*
Range optimizer never proposes a RANGE if it isn't better
than FULL: so if RANGE is present, it's always preferred to FULL.
Here we estimate its cost.
*/
if (s->quick)
{
/*
For each record we:
- read record range through 'quick'
- skip rows which does not satisfy WHERE constraints
*/
tmp= record_count *
(s->quick->read_time +
(s->found_records - rnd_records)/(double) TIME_FOR_COMPARE);
}
else
{
/* Estimate cost of reading table. */
tmp= s->table->file->scan_time();
if (s->on_expr) // Can't use join cache
{
/*
For each record we have to:
- read the whole table record
- skip rows which does not satisfy join condition
*/
tmp= record_count *
(tmp +
(s->records - rnd_records)/(double) TIME_FOR_COMPARE);
}
else
{
/* We read the table as many times as join buffer becomes full. */
tmp*= (1.0 + floor((double) cache_record_length(join,idx) *
record_count /
(double) thd->variables.join_buff_size));
/*
We don't make full cartesian product between rows in the scanned
table and existing records because we skip all rows from the
scanned table, which does not satisfy join condition when
we read the table (see flush_cached_records for details). Here we
take into account cost to read and skip these records.
*/
tmp+= (s->records - rnd_records)/(double) TIME_FOR_COMPARE;
}
}
/*
We estimate the cost of evaluating WHERE clause for found records
as record_count * rnd_records / TIME_FOR_COMPARE. This cost plus
tmp give us total cost of using TABLE SCAN
*/
if (best == DBL_MAX ||
(tmp + record_count/(double) TIME_FOR_COMPARE*rnd_records <
best + record_count/(double) TIME_FOR_COMPARE*records))
{
/*
If the table has a range (s->quick is set) make_join_select()
will ensure that this will be used
*/
best= tmp;
records= rows2double(rnd_records);
best_key= 0;
}
}
/* Update the cost information for the current partial plan */
join->positions[idx].records_read= records;
join->positions[idx].read_time= best;
join->positions[idx].key= best_key;
join->positions[idx].table= s;
if (!best_key &&
idx == join->const_tables &&
s->table == join->sort_by_table &&
join->unit->select_limit_cnt >= records)
join->sort_by_table= (TABLE*) 1; // Must use temporary table
DBUG_VOID_RETURN;
}
/*
Entry point to the MySQL optimizer. Selects a query optimzation method,
sets-up initial parameters and calls the actual optimization procedure.
SYNOPSIS
join An unoptimized QEP.
rest_tables A bit-map where a bit is set for each table accessed in 'join'.
MODIFIES
join->best_positions Stores the final optimal plan.
join->best_read Stores the corresponding cost of the optimal plan.
Depending on the optimization algorithm used, may modify other memebers
of 'join'.
*/
static void
find_best_combination(JOIN *join /*in/out*/, table_map rest_tables /*in*/)
{ {
uint search_depth= join->thd->variables.plan_search_depth;
uint heuristic= join->thd->variables.heuristic;
DBUG_ENTER("find_best_combination"); DBUG_ENTER("find_best_combination");
join->best_read=DBL_MAX;
find_best(join,rest_tables, join->const_tables,1.0,0.0); if (join->select_options & SELECT_STRAIGHT_JOIN)
{
optimize_straight_join(join, rest_tables);
}
else
{
/*
Heuristic: pre-sort all access plans with respect to the number of records
accessed.
qsort(join->best_ref + join->const_tables, join->tables - join->const_tables,
sizeof(JOIN_TAB*), join_tab_cmp);
*/
if (search_depth == MAX_TABLES+2)
{ /*
TODO: 'MAX_TABLES+2' denotes the old implementation of find_best before
the greedy version. Will be removed when greedy_search is approved.
*/
join->best_read= DBL_MAX;
find_best(join,rest_tables, join->const_tables, 1.0, 0.0);
}
else
{
if (search_depth == 0)
/* Automatically determine a reasonable value for 'search_depth' */
search_depth= determine_search_depth(join);
greedy_search(join, rest_tables, search_depth, heuristic);
}
}
/* Store the cost of this query into a user variable */
last_query_cost= join->best_read;
DBUG_VOID_RETURN; DBUG_VOID_RETURN;
} }
/*
Compare two JOIN_TAB objects based on the number of records accessed
so that they can be sorted by qsort.
RETURN
1 if first is bigger
-1 if second is bigger
0 if equal
*/
static int
join_tab_cmp(const void* ptr1, const void* ptr2)
{
JOIN_TAB *jt1= *(JOIN_TAB**) ptr1;
JOIN_TAB *jt2= *(JOIN_TAB**) ptr2;
if (jt1->found_records > jt2->found_records)
return 1;
else if (jt1->found_records < jt2->found_records)
return -1;
else
return 0;
}
/*
Heuristic procedure to automatically guess the degree of exhaustiveness of the
'greedy_search' procedure. The goal of this procedure is to predict the
optimization time and to select a search depth big enough to result in a
near-otimal QEP, that doesn't take too long to find.
SYNOPSIS
determine_search_depth()
join An unoptimized or partially optimized QEP.
NOTES
This is an extremely simplistic implementation that serves as a stub for a
more advanced analysis of the join. Ideally the search depth should be
determined by learning from old compilations, because it will depend on the
CPU power (and other factors).
RETURN
A positive integer that specifies the search depth (and thus the
exhaustiveness) of the depth-first search algorithm used by 'greedy_search'.
*/
static uint
determine_search_depth(JOIN *join /*in*/)
{
uint table_count= join->tables - join->const_tables;
uint search_depth;
/* TODO: this value should be determined dynamically, based on statistics: */
uint max_tables_for_exhaustive_opt= 7;
if (table_count <= max_tables_for_exhaustive_opt)
search_depth= table_count+1; // use exhaustive for small number of tables
else
/*
TODO: this value could be determined by some mapping of the form:
depth : table_count -> [max_tables_for_exhaustive_opt..MAX_EXHAUSTIVE]
*/
search_depth= max_tables_for_exhaustive_opt; // use greedy search
return search_depth;
}
/*
Find the best access paths for each query relation and their costs without
reordering the table access plans in a join.
This function can be applied to:
- queries with STRAIGHT_JOIN
- internally to compute the cost of an arbitrary QEP, thus 'optimize_straight_join'
can be used at any stage of the query optimization process to finalize a QEP as
it is.
*/
static void
optimize_straight_join(JOIN *join /*in/out*/, table_map rest_tables /*in*/)
{
JOIN_TAB *s;
uint idx= join->const_tables;
double record_count= 1.0;
double read_time= 0.0;
for (JOIN_TAB **pos= join->best_ref + idx ; (s= *pos) ; pos++)
{
/* Find the best access method from 's' to the current partial plan */
best_access_path(join, s, join->thd, rest_tables, idx, record_count, read_time);
/* compute the cost of the new plan extended with 's' */
record_count*= join->positions[idx].records_read;
read_time+= join->positions[idx].read_time;
rest_tables&= ~(s->table->map);
++idx;
}
read_time+= record_count / (double) TIME_FOR_COMPARE;
if (join->sort_by_table &&
join->sort_by_table != join->positions[join->const_tables].table->table)
read_time+= record_count; // We have to make a temp table
memcpy((gptr) join->best_positions, (gptr) join->positions,
sizeof(POSITION)*idx);
join->best_read= read_time;
}
/*
Find a good (possibly optimal) query evaluation plan (QEP) for the table
access plans stored in 'join->best_ref'.
SYNOPSIS
join An unoptimized QEP.
rest_tables A bitmap where a bit is set for each corresponding table number.
search_depth Controlls the depth of the search. The higher the value, the
longer optimizaton time and possibly the better the resulting
plan. The lower the value, the fewer alternative plans are
estimated, but the more likely to get a bad QEP.
(0 < search_depth)
heuristic Specifies the pruning heuristics that should be applied during
optimization. Values: 0 = EXHAUSTIVE, 1 = PRUNE_BY_TIME_OR_ROWS.
DESCRIPTION
The search procedure uses a hybrid greedy/exhaustive search with controlled
exhaustiveness. The search is performed in N = card(rest_tables) steps.
Each step uses a procedure to estimate how promising is each of the
unoptimized tables, selects the most promising table, and extends the
current partial QEP with that table.
Currently this estimate is performed by calling 'find_best_limited_depth'
to evaluate all extensions of the current QEP with size 'search_depth'.
The most 'promising' table is the one with least expensive extension.
There are two extreme cases:
1. When (card(rest_tables) < search_depth), the estimate finds the best
complete continuation of the partial QEP. This continuation can be
used directly as a result of the search.
2. When (search_depth == 1) the 'find_best_limited_depth' consideres the
extension of the current QEP with each of the remaining unoptimized
tables.
All other cases are in-between these two extremes. Thus the parameter
'search_depth' controlls the exhaustiveness of the search.
MODIFIES
Intermediate and final results of the procedure are stored in 'join':
join->positions modified for every partial QEP that is explored
join->best_positions modified for the current best complete QEP
join->best_read modified for the current best complete QEP
join->best_ref might be partially reordered
The final optimal plan is stored in 'join->best_positions'. The
corresponding cost of the optimal plan is in 'join->best_read'.
*/
static void
greedy_search(JOIN *join, // in/out
table_map rest_tables, // in
uint search_depth, // in
uint heuristic) // in
{
double record_count= 1.0;
double read_time= 0.0;
uint idx= join->const_tables; // index into 'join->best_ref'
uint best_idx;
uint rest_size; // cardinality of rest_tables
POSITION best_pos;
JOIN_TAB *best_table; // the next plan node to be added to the curr QEP
DBUG_ENTER("greedy_search");
/* number of tables that remain to be optimized */
rest_size= my_count_bits(rest_tables);
do {
/* Find the extension of the current QEP with the lowest cost */
join->best_read= DBL_MAX;
find_best_limited_depth(join, rest_tables, idx, record_count, read_time,
search_depth, heuristic);
if (rest_size <= search_depth)
{
/*
'join->best_positions' contains a complete optimal extension of the
current partial QEP.
*/
DBUG_EXECUTE("opt", print_plan(join, read_time, record_count,
join->tables, "optimal"););
DBUG_VOID_RETURN;
}
/* select the first table in the optimal extension as most promising */
best_pos= join->best_positions[idx];
best_table= best_pos.table;
/*
Each subsequent loop of 'find_best_limited_depth' uses 'join->positions'
for cost estimates, therefore we have to update its value.
*/
join->positions[idx]= best_pos;
/* find the position of 'best_table' in 'join->best_ref' */
best_idx= idx;
JOIN_TAB *pos= join->best_ref[best_idx];
while (pos && best_table != pos)
pos= join->best_ref[++best_idx];
DBUG_ASSERT((pos != NULL)); // should always find 'best_table'
/* move 'best_table' at the first free position in the array of joins */
swap(JOIN_TAB*, join->best_ref[idx], join->best_ref[best_idx]);
/* compute the cost of the new plan extended with 'best_table' */
record_count*= join->positions[idx].records_read;
read_time+= join->positions[idx].read_time;
rest_tables&= ~(best_table->table->map);
--rest_size;
++idx;
DBUG_EXECUTE("opt",
print_plan(join, read_time, record_count, idx, "extended"););
} while (TRUE);
}
/*
Find an optimal ordering of the table access plans in 'join->best_ref' for
the tables contained in 'rest_tables'.
SYNOPSIS
join Valid partial QEP. When 'find_best_limited_depth' is called for
the first time, 'join->best_read' must be set to the largest
possible value (e.g. DBL_MAX).
rest_tables A bit-map where a bit is set for each table accessed in 'join'.
idx - length of the partial QEP 'join->positions',
- since a depth-first search is used, also corresponds to the
current depth of the search tree,
- also an index in the array 'join->best_ref'.
record_count The current best number of records.
(record_count >= 0)
read_time The current best execution time.
(read_time >= 0)
search_depth The maximum depth of the recursion and thus the size of the
found optimal plan.
(0 < search_depth <= join->tables+1)
heuristic Specifies the pruning heuristics that should be applied during
optimization. Values: 0 = EXHAUSTIVE, 1 = PRUNE_BY_TIME_OR_ROWS.
DESCRIPTION
The procedure uses a recursive depth-first search that may optionally use
pruning heuristics to reduce the search space. Each recursive step adds one
more table to the input partial QEP 'join'. The parameter 'search_depth'
provides control over the recursion depth, and thus the size of the
resulting optimal plan.
MODIFIES
Intermediate and final results of the procedure are stored in 'join':
join->positions modified for every partial QEP that is explored
join->best_positions modified for the current best complete QEP
join->best_read modified for the current best complete QEP
The final optimal plan is stored in 'join->best_positions'. The
corresponding cost of the optimal plan is in 'join->best_read'.
*/
static void
find_best_limited_depth(JOIN *join, // in/out
table_map rest_tables, // in
uint idx, // in
double record_count, // in
double read_time, // in
uint search_depth, // in
uint heuristic) // in
{
THD *thd= join->thd;
DBUG_ENTER("find_best_limited_depth");
/*
'join' is either the best partial QEP with 'search_depth' relations,
or the best complete QEP so far, whichever is smaller.
*/
if ((search_depth == 0) || !rest_tables)
{
read_time+= record_count / (double) TIME_FOR_COMPARE;
if (join->sort_by_table &&
join->sort_by_table != join->positions[join->const_tables].table->table)
read_time+= record_count; // We have to make a temp table
if ((search_depth == 0) || (read_time < join->best_read))
{
memcpy((gptr) join->best_positions, (gptr) join->positions,
sizeof(POSITION)*idx);
join->best_read= read_time;
}
DBUG_EXECUTE("opt",
print_plan(join, read_time, record_count, idx, "full_plan"););
DBUG_VOID_RETURN;
}
/*
'join' is a partial plan with lower cost than the best plan so far,
so continue expanding it further with the tables in 'rest_tables'.
*/
JOIN_TAB *s;
double best_record_count= DBL_MAX;
double best_read_time= DBL_MAX;
DBUG_EXECUTE("opt",
print_plan(join, read_time, record_count, idx, "part_plan"););
for (JOIN_TAB **pos= join->best_ref + idx ; (s= *pos) ; pos++)
{
table_map real_table_bit= s->table->map;
if ((rest_tables & real_table_bit) && !(rest_tables & s->dependent))
{
double current_record_count, current_read_time;
/* Find the best access method from 's' to the current partial plan */
best_access_path(join, s, thd, rest_tables, idx, record_count, read_time);
/* Compute the cost of extending the plan with 's' */
current_record_count= record_count * join->positions[idx].records_read;
current_read_time= read_time + join->positions[idx].read_time;
/* Expand only partial plans with lower cost than the best QEP so far */
if ((current_read_time +
current_record_count / (double) TIME_FOR_COMPARE) >= join->best_read)
{
DBUG_EXECUTE("opt", print_plan(join, read_time, record_count, idx,
"prune_by_cost"););
continue;
}
/*
Prune some less promising partial plans. This heuristic may miss
the optimal QEPs, thus it results in a non-exhaustive search.
*/
if (heuristic == 1)
{
if (best_record_count > current_record_count ||
best_read_time > current_read_time ||
idx == join->const_tables && // 's' is the first table in the QEP
s->table == join->sort_by_table)
{
if (best_record_count >= current_record_count &&
best_read_time >= current_read_time &&
/* TODO: What is the reasoning behind this condition? */
(!(s->key_dependent & rest_tables) ||
join->positions[idx].records_read < 2.0))
{
best_record_count= current_record_count;
best_read_time= current_read_time;
}
}
else
{
DBUG_EXECUTE("opt", print_plan(join, read_time, record_count, idx,
"prune_by_heuristic"););
continue;
}
}
/* Recursively expand the current partial plan */
swap(JOIN_TAB*, join->best_ref[idx], *pos);
find_best_limited_depth(join, rest_tables & ~real_table_bit, idx+1,
current_record_count, current_read_time,
search_depth-1, heuristic);
if (thd->killed)
DBUG_VOID_RETURN;
swap(JOIN_TAB*, join->best_ref[idx], *pos);
}
}
DBUG_VOID_RETURN;
}
/*
Print the current state of a 'join' that changes during query optimization.
Used to trace the 'find_best_xxx' optimizer functions.
TODO: move to sql_test.cc?
*/
void
print_plan(JOIN* join, double read_time, double record_count,
uint idx, const char *info)
{
uint i;
POSITION pos;
JOIN_TAB *join_table;
JOIN_TAB **plan_nodes;
TABLE* table;
DBUG_LOCK_FILE;
if (join->best_read == DBL_MAX)
{
fprintf(DBUG_FILE,"%s; idx:%u, best: DBL_MAX, current:%g\n",
info, idx, read_time);
}
else
{
fprintf(DBUG_FILE,"%s; idx: %u, best: %g, current: %g\n",
info, idx, join->best_read, read_time);
}
/* Print the tables in JOIN->positions */
fputs(" POSITIONS: ", DBUG_FILE);
for (i= 0; i < idx ; i++)
{
pos = join->positions[i];
table= pos.table->table;
if (table)
fputs(table->real_name, DBUG_FILE);
fputc(' ', DBUG_FILE);
}
fputc('\n', DBUG_FILE);
/*
Print the tables in JOIN->best_positions only if at least one complete plan
has been found. An indicator for this is the value of 'join->best_read'.
*/
fputs("BEST_POSITIONS: ", DBUG_FILE);
if (join->best_read < DBL_MAX)
{
for (i= 0; i < idx ; i++)
{
pos= join->best_positions[i];
table= pos.table->table;
if (table)
fputs(table->real_name, DBUG_FILE);
fputc(' ', DBUG_FILE);
}
}
fputc('\n', DBUG_FILE);
/* Print the tables in JOIN->best_ref */
fputs(" BEST_REF: ", DBUG_FILE);
for (plan_nodes= join->best_ref ; *plan_nodes ; plan_nodes++)
{
join_table= (*plan_nodes);
fputs(join_table->table->real_name, DBUG_FILE);
fprintf(DBUG_FILE, "(%u,%u,%u)",
join_table->found_records, join_table->records, join_table->read_time);
fputc(' ', DBUG_FILE);
}
fputc('\n', DBUG_FILE);
DBUG_UNLOCK_FILE;
}
/*
TODO: this function is here only temporarily until 'greedy_search' is
tested and accepted.
*/
static void static void
find_best(JOIN *join,table_map rest_tables,uint idx,double record_count, find_best(JOIN *join,table_map rest_tables,uint idx,double record_count,
double read_time) double read_time)
......
...@@ -116,6 +116,7 @@ typedef struct st_join_table { ...@@ -116,6 +116,7 @@ typedef struct st_join_table {
typedef struct st_position /* Used in find_best */ typedef struct st_position /* Used in find_best */
{ {
double records_read; double records_read;
double read_time;
JOIN_TAB *table; JOIN_TAB *table;
KEYUSE *key; KEYUSE *key;
} POSITION; } POSITION;
...@@ -133,8 +134,9 @@ typedef struct st_rollup ...@@ -133,8 +134,9 @@ typedef struct st_rollup
class JOIN :public Sql_alloc class JOIN :public Sql_alloc
{ {
public: public:
JOIN_TAB *join_tab,**best_ref,**map2table; JOIN_TAB *join_tab,**best_ref;
JOIN_TAB *join_tab_save; //saved join_tab for subquery reexecution JOIN_TAB **map2table; // mapping between table indexes and JOIN_TABs
JOIN_TAB *join_tab_save; // saved join_tab for subquery reexecution
TABLE **table,**all_tables,*sort_by_table; TABLE **table,**all_tables,*sort_by_table;
uint tables,const_tables; uint tables,const_tables;
uint send_group_parts; uint send_group_parts;
......
...@@ -1831,6 +1831,11 @@ int mysqld_show(THD *thd, const char *wild, show_var_st *variables, ...@@ -1831,6 +1831,11 @@ int mysqld_show(THD *thd, const char *wild, show_var_st *variables,
end= strend(pos); end= strend(pos);
break; break;
} }
case SHOW_DOUBLE:
{
end= buff + sprintf(buff, "%f", *(double*) value);
break;
}
#ifdef HAVE_OPENSSL #ifdef HAVE_OPENSSL
/* First group - functions relying on CTX */ /* First group - functions relying on CTX */
case SHOW_SSL_CTX_SESS_ACCEPT: case SHOW_SSL_CTX_SESS_ACCEPT:
......
...@@ -156,8 +156,8 @@ typedef struct st_known_date_time_format { ...@@ -156,8 +156,8 @@ typedef struct st_known_date_time_format {
enum SHOW_TYPE enum SHOW_TYPE
{ {
SHOW_UNDEF, SHOW_UNDEF,
SHOW_LONG, SHOW_LONGLONG, SHOW_INT, SHOW_CHAR, SHOW_CHAR_PTR, SHOW_BOOL, SHOW_LONG, SHOW_LONGLONG, SHOW_INT, SHOW_CHAR, SHOW_CHAR_PTR, SHOW_DOUBLE,
SHOW_MY_BOOL, SHOW_OPENTABLES, SHOW_STARTTIME, SHOW_QUESTION, SHOW_BOOL, SHOW_MY_BOOL, SHOW_OPENTABLES, SHOW_STARTTIME, SHOW_QUESTION,
SHOW_LONG_CONST, SHOW_INT_CONST, SHOW_HAVE, SHOW_SYS, SHOW_HA_ROWS, SHOW_LONG_CONST, SHOW_INT_CONST, SHOW_HAVE, SHOW_SYS, SHOW_HA_ROWS,
#ifdef HAVE_OPENSSL #ifdef HAVE_OPENSSL
SHOW_SSL_CTX_SESS_ACCEPT, SHOW_SSL_CTX_SESS_ACCEPT_GOOD, SHOW_SSL_CTX_SESS_ACCEPT, SHOW_SSL_CTX_SESS_ACCEPT_GOOD,
......
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