# # Initialization --source include/default_optimizer_switch.inc --disable_warnings drop table if exists t1,t2,t3; drop view if exists v1,v2; --enable_warnings SET @save_optimizer_switch=@@optimizer_switch; SET optimizer_switch='outer_join_with_cache=off'; # # Test different join syntaxes # CREATE TABLE t1 (S1 INT); CREATE TABLE t2 (S1 INT); INSERT INTO t1 VALUES (1); INSERT INTO t2 VALUES (2); SELECT * FROM t1 JOIN t2; SELECT * FROM t1 INNER JOIN t2; SELECT * from t1 JOIN t2 USING (S1); SELECT * FROM t1 INNER JOIN t2 USING (S1); SELECT * from t1 CROSS JOIN t2; SELECT * from t1 LEFT JOIN t2 USING(S1); SELECT * from t1 LEFT JOIN t2 ON(t2.S1=2); SELECT * from t1 RIGHT JOIN t2 USING(S1); SELECT * from t1 RIGHT JOIN t2 ON(t1.S1=1); drop table t1,t2; # # This failed for lia Perminov # create table t1 (id int primary key); create table t2 (id int); insert into t1 values (75); insert into t1 values (79); insert into t1 values (78); insert into t1 values (77); replace into t1 values (76); replace into t1 values (76); insert into t1 values (104); insert into t1 values (103); insert into t1 values (102); insert into t1 values (101); insert into t1 values (105); insert into t1 values (106); insert into t1 values (107); insert into t2 values (107),(75),(1000); select t1.id, t2.id from t1, t2 where t2.id = t1.id; select t1.id, count(t2.id) from t1,t2 where t2.id = t1.id group by t1.id; select t1.id, count(t2.id) from t1,t2 where t2.id = t1.id group by t2.id; # # Test problems with impossible ON or WHERE # select t1.id,t2.id from t2 left join t1 on t1.id>=74 and t1.id<=0 where t2.id=75 and t1.id is null; explain select t1.id,t2.id from t2 left join t1 on t1.id>=74 and t1.id<=0 where t2.id=75 and t1.id is null; explain select t1.id, t2.id from t1, t2 where t2.id = t1.id and t1.id <0 and t1.id > 0; drop table t1,t2; # # problem with join # CREATE TABLE t1 ( id int(11) NOT NULL auto_increment, token varchar(100) DEFAULT '' NOT NULL, count int(11) DEFAULT '0' NOT NULL, qty int(11), phone char(1) DEFAULT '' NOT NULL, timestamp datetime DEFAULT '0000-00-00 00:00:00' NOT NULL, PRIMARY KEY (id), KEY token (token(15)), KEY timestamp (timestamp), UNIQUE token_2 (token(75),count,phone) ); INSERT INTO t1 VALUES (21,'e45703b64de71482360de8fec94c3ade',3,7800,'n','1999-12-23 17:22:21'); INSERT INTO t1 VALUES (22,'e45703b64de71482360de8fec94c3ade',4,5000,'y','1999-12-23 17:22:21'); INSERT INTO t1 VALUES (18,'346d1cb63c89285b2351f0ca4de40eda',3,13200,'b','1999-12-23 11:58:04'); INSERT INTO t1 VALUES (17,'ca6ddeb689e1b48a04146b1b5b6f936a',4,15000,'b','1999-12-23 11:36:53'); INSERT INTO t1 VALUES (16,'ca6ddeb689e1b48a04146b1b5b6f936a',3,13200,'b','1999-12-23 11:36:53'); INSERT INTO t1 VALUES (26,'a71250b7ed780f6ef3185bfffe027983',5,1500,'b','1999-12-27 09:44:24'); INSERT INTO t1 VALUES (24,'4d75906f3c37ecff478a1eb56637aa09',3,5400,'y','1999-12-23 17:29:12'); INSERT INTO t1 VALUES (25,'4d75906f3c37ecff478a1eb56637aa09',4,6500,'y','1999-12-23 17:29:12'); INSERT INTO t1 VALUES (27,'a71250b7ed780f6ef3185bfffe027983',3,6200,'b','1999-12-27 09:44:24'); INSERT INTO t1 VALUES (28,'a71250b7ed780f6ef3185bfffe027983',3,5400,'y','1999-12-27 09:44:36'); INSERT INTO t1 VALUES (29,'a71250b7ed780f6ef3185bfffe027983',4,17700,'b','1999-12-27 09:45:05'); CREATE TABLE t2 ( id int(11) NOT NULL auto_increment, category int(11) DEFAULT '0' NOT NULL, county int(11) DEFAULT '0' NOT NULL, state int(11) DEFAULT '0' NOT NULL, phones int(11) DEFAULT '0' NOT NULL, nophones int(11) DEFAULT '0' NOT NULL, PRIMARY KEY (id), KEY category (category,county,state) ); INSERT INTO t2 VALUES (3,2,11,12,5400,7800); INSERT INTO t2 VALUES (4,2,25,12,6500,11200); INSERT INTO t2 VALUES (5,1,37,6,10000,12000); select a.id, b.category as catid, b.state as stateid, b.county as countyid from t1 a, t2 b ignore index (primary) where (a.token ='a71250b7ed780f6ef3185bfffe027983') and (a.count = b.id); select a.id, b.category as catid, b.state as stateid, b.county as countyid from t1 a, t2 b where (a.token = 'a71250b7ed780f6ef3185bfffe027983') and (a.count = b.id) order by a.id; drop table t1, t2; # # Test of join of many tables. create table t1 (a int primary key); insert into t1 values(1),(2); select t1.a from t1 as t1 left join t1 as t2 using (a) left join t1 as t3 using (a) left join t1 as t4 using (a) left join t1 as t5 using (a) left join t1 as t6 using (a) left join t1 as t7 using (a) left join t1 as t8 using (a) left join t1 as t9 using (a) left join t1 as t10 using (a) left join t1 as t11 using (a) left join t1 as t12 using (a) left join t1 as t13 using (a) left join t1 as t14 using (a) left join t1 as t15 using (a) left join t1 as t16 using (a) left join t1 as t17 using (a) left join t1 as t18 using (a) left join t1 as t19 using (a) left join t1 as t20 using (a) left join t1 as t21 using (a) left join t1 as t22 using (a) left join t1 as t23 using (a) left join t1 as t24 using (a) left join t1 as t25 using (a) left join t1 as t26 using (a) left join t1 as t27 using (a) left join t1 as t28 using (a) left join t1 as t29 using (a) left join t1 as t30 using (a) left join t1 as t31 using (a); --replace_result "31 tables" "XX tables" "61 tables" "XX tables" --error 1116 select t1.a from t1 as t1 left join t1 as t2 using (a) left join t1 as t3 using (a) left join t1 as t4 using (a) left join t1 as t5 using (a) left join t1 as t6 using (a) left join t1 as t7 using (a) left join t1 as t8 using (a) left join t1 as t9 using (a) left join t1 as t10 using (a) left join t1 as t11 using (a) left join t1 as t12 using (a) left join t1 as t13 using (a) left join t1 as t14 using (a) left join t1 as t15 using (a) left join t1 as t16 using (a) left join t1 as t17 using (a) left join t1 as t18 using (a) left join t1 as t19 using (a) left join t1 as t20 using (a) left join t1 as t21 using (a) left join t1 as t22 using (a) left join t1 as t23 using (a) left join t1 as t24 using (a) left join t1 as t25 using (a) left join t1 as t26 using (a) left join t1 as t27 using (a) left join t1 as t28 using (a) left join t1 as t29 using (a) left join t1 as t30 using (a) left join t1 as t31 using (a) left join t1 as t32 using (a) left join t1 as t33 using (a) left join t1 as t34 using (a) left join t1 as t35 using (a) left join t1 as t36 using (a) left join t1 as t37 using (a) left join t1 as t38 using (a) left join t1 as t39 using (a) left join t1 as t40 using (a) left join t1 as t41 using (a) left join t1 as t42 using (a) left join t1 as t43 using (a) left join t1 as t44 using (a) left join t1 as t45 using (a) left join t1 as t46 using (a) left join t1 as t47 using (a) left join t1 as t48 using (a) left join t1 as t49 using (a) left join t1 as t50 using (a) left join t1 as t51 using (a) left join t1 as t52 using (a) left join t1 as t53 using (a) left join t1 as t54 using (a) left join t1 as t55 using (a) left join t1 as t56 using (a) left join t1 as t57 using (a) left join t1 as t58 using (a) left join t1 as t59 using (a) left join t1 as t60 using (a) left join t1 as t61 using (a) left join t1 as t62 using (a) left join t1 as t63 using (a) left join t1 as t64 using (a) left join t1 as t65 using (a); select a from t1 as t1 left join t1 as t2 using (a) left join t1 as t3 using (a) left join t1 as t4 using (a) left join t1 as t5 using (a) left join t1 as t6 using (a) left join t1 as t7 using (a) left join t1 as t8 using (a) left join t1 as t9 using (a) left join t1 as t10 using (a) left join t1 as t11 using (a) left join t1 as t12 using (a) left join t1 as t13 using (a) left join t1 as t14 using (a) left join t1 as t15 using (a) left join t1 as t16 using (a) left join t1 as t17 using (a) left join t1 as t18 using (a) left join t1 as t19 using (a) left join t1 as t20 using (a) left join t1 as t21 using (a) left join t1 as t22 using (a) left join t1 as t23 using (a) left join t1 as t24 using (a) left join t1 as t25 using (a) left join t1 as t26 using (a) left join t1 as t27 using (a) left join t1 as t28 using (a) left join t1 as t29 using (a) left join t1 as t30 using (a) left join t1 as t31 using (a); --replace_result "31 tables" "XX tables" "61 tables" "XX tables" --error 1116 select a from t1 as t1 left join t1 as t2 using (a) left join t1 as t3 using (a) left join t1 as t4 using (a) left join t1 as t5 using (a) left join t1 as t6 using (a) left join t1 as t7 using (a) left join t1 as t8 using (a) left join t1 as t9 using (a) left join t1 as t10 using (a) left join t1 as t11 using (a) left join t1 as t12 using (a) left join t1 as t13 using (a) left join t1 as t14 using (a) left join t1 as t15 using (a) left join t1 as t16 using (a) left join t1 as t17 using (a) left join t1 as t18 using (a) left join t1 as t19 using (a) left join t1 as t20 using (a) left join t1 as t21 using (a) left join t1 as t22 using (a) left join t1 as t23 using (a) left join t1 as t24 using (a) left join t1 as t25 using (a) left join t1 as t26 using (a) left join t1 as t27 using (a) left join t1 as t28 using (a) left join t1 as t29 using (a) left join t1 as t30 using (a) left join t1 as t31 using (a) left join t1 as t32 using (a) left join t1 as t33 using (a) left join t1 as t34 using (a) left join t1 as t35 using (a) left join t1 as t36 using (a) left join t1 as t37 using (a) left join t1 as t38 using (a) left join t1 as t39 using (a) left join t1 as t40 using (a) left join t1 as t41 using (a) left join t1 as t42 using (a) left join t1 as t43 using (a) left join t1 as t44 using (a) left join t1 as t45 using (a) left join t1 as t46 using (a) left join t1 as t47 using (a) left join t1 as t48 using (a) left join t1 as t49 using (a) left join t1 as t50 using (a) left join t1 as t51 using (a) left join t1 as t52 using (a) left join t1 as t53 using (a) left join t1 as t54 using (a) left join t1 as t55 using (a) left join t1 as t56 using (a) left join t1 as t57 using (a) left join t1 as t58 using (a) left join t1 as t59 using (a) left join t1 as t60 using (a) left join t1 as t61 using (a) left join t1 as t62 using (a) left join t1 as t63 using (a) left join t1 as t64 using (a) left join t1 as t65 using (a); drop table t1; # # Simple join test. This failed in 3.23.42, there should have been # no matches, still three matches were found. # CREATE TABLE t1 ( a int(11) NOT NULL, b int(11) NOT NULL, PRIMARY KEY (a,b) ) ENGINE=MyISAM; INSERT INTO t1 VALUES (1,1),(1,2),(1,3),(1,4),(1,5),(1,6),(1,7),(2,3); CREATE TABLE t2 ( a int(11) default NULL ) ENGINE=MyISAM; INSERT INTO t2 VALUES (2),(3); SELECT t1.a,t2.a,b FROM t1,t2 WHERE t1.a=t2.a AND (t1.a=1 OR t1.a=2) AND b>=1 AND b<=3; DROP TABLE t1, t2; # # TEST LEFT JOIN with DATE columns # CREATE TABLE t1 (d DATE NOT NULL); CREATE TABLE t2 (d DATE NOT NULL); INSERT INTO t1 (d) VALUES ('2001-08-01'),('0000-00-00'); SELECT * FROM t1 LEFT JOIN t2 USING (d) WHERE t2.d IS NULL; SELECT * FROM t1 LEFT JOIN t2 USING (d) WHERE d IS NULL; SELECT * from t1 WHERE t1.d IS NULL; SELECT * FROM t1 WHERE 1/0 IS NULL; DROP TABLE t1,t2; # # Problem with reference from const tables # CREATE TABLE t1 ( Document_ID varchar(50) NOT NULL default '', Contractor_ID varchar(6) NOT NULL default '', Language_ID char(3) NOT NULL default '', Expiration_Date datetime default NULL, Publishing_Date datetime default NULL, Title text, Column_ID varchar(50) NOT NULL default '', PRIMARY KEY (Language_ID,Document_ID,Contractor_ID) ); INSERT INTO t1 VALUES ('xep80','1','ger','2001-12-31 20:00:00','2001-11-12 10:58:00','Kartenbestellung - jetzt auch online','anle'),('','999998','',NULL,NULL,NULL,''); CREATE TABLE t2 ( Contractor_ID char(6) NOT NULL default '', Language_ID char(3) NOT NULL default '', Document_ID char(50) NOT NULL default '', CanRead char(1) default NULL, Customer_ID int(11) NOT NULL default '0', PRIMARY KEY (Contractor_ID,Language_ID,Document_ID,Customer_ID) ); INSERT INTO t2 VALUES ('5','ger','xep80','1',999999),('1','ger','xep80','1',999999); CREATE TABLE t3 ( Language_ID char(3) NOT NULL default '', Column_ID char(50) NOT NULL default '', Contractor_ID char(6) NOT NULL default '', CanRead char(1) default NULL, Active char(1) default NULL, PRIMARY KEY (Language_ID,Column_ID,Contractor_ID) ); INSERT INTO t3 VALUES ('ger','home','1','1','1'),('ger','Test','1','0','0'),('ger','derclu','1','0','0'),('ger','clubne','1','0','0'),('ger','philos','1','0','0'),('ger','clubko','1','0','0'),('ger','clubim','1','1','1'),('ger','progra','1','0','0'),('ger','progvo','1','0','0'),('ger','progsp','1','0','0'),('ger','progau','1','0','0'),('ger','progku','1','0','0'),('ger','progss','1','0','0'),('ger','nachl','1','0','0'),('ger','mitgli','1','0','0'),('ger','mitsu','1','0','0'),('ger','mitbus','1','0','0'),('ger','ergmar','1','1','1'),('ger','home','4','1','1'),('ger','derclu','4','1','1'),('ger','clubne','4','0','0'),('ger','philos','4','1','1'),('ger','clubko','4','1','1'),('ger','clubim','4','1','1'),('ger','progra','4','1','1'),('ger','progvo','4','1','1'),('ger','progsp','4','1','1'),('ger','progau','4','0','0'),('ger','progku','4','1','1'),('ger','progss','4','1','1'),('ger','nachl','4','1','1'),('ger','mitgli','4','0','0'),('ger','mitsu','4','0','0'),('ger','mitbus','4','0','0'),('ger','ergmar','4','1','1'),('ger','progra2','1','0','0'),('ger','archiv','4','1','1'),('ger','anmeld','4','1','1'),('ger','thema','4','1','1'),('ger','edito','4','1','1'),('ger','madis','4','1','1'),('ger','enma','4','1','1'),('ger','madis','1','1','1'),('ger','enma','1','1','1'),('ger','vorsch','4','0','0'),('ger','veranst','4','0','0'),('ger','anle','4','1','1'),('ger','redak','4','1','1'),('ger','nele','4','1','1'),('ger','aukt','4','1','1'),('ger','callcenter','4','1','1'),('ger','anle','1','0','0'); delete from t1 where Contractor_ID='999998'; insert into t1 (Contractor_ID) Values ('999998'); SELECT DISTINCT COUNT(t1.Title) FROM t1, t2, t3 WHERE t1.Document_ID='xep80' AND t1.Contractor_ID='1' AND t1.Language_ID='ger' AND '2001-12-21 23:14:24' >= Publishing_Date AND '2001-12-21 23:14:24' <= Expiration_Date AND t1.Document_ID = t2.Document_ID AND t1.Language_ID = t2.Language_ID AND t1.Contractor_ID = t2.Contractor_ID AND ( t2.Customer_ID = '4' OR t2.Customer_ID = '999999' OR t2.Customer_ID = '1' )AND t2.CanRead = '1' AND t1.Column_ID=t3.Column_ID AND t1.Language_ID=t3.Language_ID AND ( t3.Contractor_ID = '4' OR t3.Contractor_ID = '999999' OR t3.Contractor_ID = '1') AND t3.CanRead='1' AND t3.Active='1'; SELECT DISTINCT COUNT(t1.Title) FROM t1, t2, t3 WHERE t1.Document_ID='xep80' AND t1.Contractor_ID='1' AND t1.Language_ID='ger' AND '2001-12-21 23:14:24' >= Publishing_Date AND '2001-12-21 23:14:24' <= Expiration_Date AND t1.Document_ID = t2.Document_ID AND t1.Language_ID = t2.Language_ID AND t1.Contractor_ID = t2.Contractor_ID AND ( t2.Customer_ID = '4' OR t2.Customer_ID = '999999' OR t2.Customer_ID = '1' )AND t2.CanRead = '1' AND t1.Column_ID=t3.Column_ID AND t1.Language_ID=t3.Language_ID AND ( t3.Contractor_ID = '4' OR t3.Contractor_ID = '999999' OR t3.Contractor_ID = '1') AND t3.CanRead='1' AND t3.Active='1'; drop table t1,t2,t3; # # Bug when doing full join and NULL fields. # CREATE TABLE t1 ( t1_id int(11) default NULL, t2_id int(11) default NULL, type enum('Cost','Percent') default NULL, cost_unit enum('Cost','Unit') default NULL, min_value double default NULL, max_value double default NULL, t3_id int(11) default NULL, item_id int(11) default NULL ) ENGINE=MyISAM; INSERT INTO t1 VALUES (12,5,'Percent','Cost',-1,0,-1,-1),(14,4,'Percent','Cost',-1,0,-1,-1),(18,5,'Percent','Cost',-1,0,-1,-1),(19,4,'Percent','Cost',-1,0,-1,-1),(20,5,'Percent','Cost',100,-1,22,291),(21,5,'Percent','Cost',100,-1,18,291),(22,1,'Percent','Cost',100,-1,6,291),(23,1,'Percent','Cost',100,-1,21,291),(24,1,'Percent','Cost',100,-1,9,291),(25,1,'Percent','Cost',100,-1,4,291),(26,1,'Percent','Cost',100,-1,20,291),(27,4,'Percent','Cost',100,-1,7,202),(28,1,'Percent','Cost',50,-1,-1,137),(29,2,'Percent','Cost',100,-1,4,354),(30,2,'Percent','Cost',100,-1,9,137),(93,2,'Cost','Cost',-1,10000000,-1,-1); CREATE TABLE t2 ( id int(10) unsigned NOT NULL auto_increment, name varchar(255) default NULL, PRIMARY KEY (id) ) ENGINE=MyISAM; INSERT INTO t2 VALUES (1,'s1'),(2,'s2'),(3,'s3'),(4,'s4'),(5,'s5'); select straight_join t1.*, t2.* from t2, t1 where t2.id=t1.t2_id limit 2; drop table t1,t2; # # Bug in range optimiser with MAYBE_KEY # CREATE TABLE t1 ( siteid varchar(25) NOT NULL default '', emp_id varchar(30) NOT NULL default '', rate_code varchar(10) default NULL, UNIQUE KEY site_emp (siteid,emp_id), KEY siteid (siteid) ) ENGINE=MyISAM; INSERT INTO t1 VALUES ('rivercats','psmith','cust'), ('rivercats','KWalker','cust'); CREATE TABLE t2 ( siteid varchar(25) NOT NULL default '', rate_code varchar(10) NOT NULL default '', base_rate float NOT NULL default '0', PRIMARY KEY (siteid,rate_code), FULLTEXT KEY rate_code (rate_code) ) ENGINE=MyISAM; INSERT INTO t2 VALUES ('rivercats','cust',20); SELECT emp.rate_code, lr.base_rate FROM t1 AS emp LEFT JOIN t2 AS lr USING (siteid, rate_code) WHERE emp.emp_id = 'psmith' AND lr.siteid = 'rivercats'; SELECT emp.rate_code, lr.base_rate FROM t1 AS emp LEFT JOIN t2 AS lr USING (siteid, rate_code) WHERE lr.siteid = 'rivercats' AND emp.emp_id = 'psmith'; SELECT rate_code, lr.base_rate FROM t1 AS emp LEFT JOIN t2 AS lr USING (siteid, rate_code) WHERE emp.emp_id = 'psmith' AND siteid = 'rivercats'; SELECT rate_code, lr.base_rate FROM t1 AS emp LEFT JOIN t2 AS lr USING (siteid, rate_code) WHERE siteid = 'rivercats' AND emp.emp_id = 'psmith'; drop table t1,t2; # # Problem with internal list handling when reducing WHERE # CREATE TABLE t1 (ID INTEGER NOT NULL PRIMARY KEY, Value1 VARCHAR(255)); CREATE TABLE t2 (ID INTEGER NOT NULL PRIMARY KEY, Value2 VARCHAR(255)); INSERT INTO t1 VALUES (1, 'A'); INSERT INTO t2 VALUES (1, 'B'); SELECT * FROM t1 NATURAL JOIN t2 WHERE 1 AND (Value1 = 'A' AND Value2 <> 'B'); SELECT * FROM t1 NATURAL JOIN t2 WHERE 1 AND Value1 = 'A' AND Value2 <> 'B'; SELECT * FROM t1 NATURAL JOIN t2 WHERE (Value1 = 'A' AND Value2 <> 'B') AND 1; drop table t1,t2; # # dummy natural join (no common columns) Bug #4807 # CREATE TABLE t1 (a int); CREATE TABLE t2 (b int); CREATE TABLE t3 (c int); SELECT * FROM t1 NATURAL JOIN t2 NATURAL JOIN t3; DROP TABLE t1, t2, t3; # # Test combination of join methods # create table t1 (i int); create table t2 (i int); create table t3 (i int); insert into t1 values(1),(2); insert into t2 values(2),(3); insert into t3 values (2),(4); select * from t1 natural left join t2; select * from t1 left join t2 on (t1.i=t2.i); select * from t1 natural left join t2 natural left join t3; select * from t1 left join t2 on (t1.i=t2.i) left join t3 on (t2.i=t3.i); select * from t3 natural right join t2; select * from t3 right join t2 on (t3.i=t2.i); select * from t3 natural right join t2 natural right join t1; select * from t3 right join t2 on (t3.i=t2.i) right join t1 on (t2.i=t1.i); select * from t1,t2 natural left join t3 order by t1.i,t2.i,t3.i; select * from t1,t2 left join t3 on (t2.i=t3.i) order by t1.i,t2.i,t3.i; select t1.i,t2.i,t3.i from t2 natural left join t3,t1 order by t1.i,t2.i,t3.i; select t1.i,t2.i,t3.i from t2 left join t3 on (t2.i=t3.i),t1 order by t1.i,t2.i,t3.i; select * from t1,t2 natural right join t3 order by t1.i,t2.i,t3.i; select * from t1,t2 right join t3 on (t2.i=t3.i) order by t1.i,t2.i,t3.i; select t1.i,t2.i,t3.i from t2 natural right join t3,t1 order by t1.i,t2.i,t3.i; select t1.i,t2.i,t3.i from t2 right join t3 on (t2.i=t3.i),t1 order by t1.i,t2.i,t3.i; drop table t1,t2,t3; # # Bug #27531: Query performance degredation in 4.1.22 and greater # CREATE TABLE t1 (a int, b int default 0, c int default 1); INSERT INTO t1 (a) VALUES (1),(2),(3),(4),(5),(6),(7),(8); INSERT INTO t1 (a) SELECT a + 8 FROM t1; INSERT INTO t1 (a) SELECT a + 16 FROM t1; CREATE TABLE t2 (a int, d int, e int default 0); INSERT INTO t2 (a, d) VALUES (1,1),(2,2),(3,3),(4,4); INSERT INTO t2 (a, d) SELECT a+4, a+4 FROM t2; INSERT INTO t2 (a, d) SELECT a+8, a+8 FROM t2; # should use join cache EXPLAIN SELECT STRAIGHT_JOIN t2.e FROM t1,t2 WHERE t2.d=1 AND t1.b=t2.e ORDER BY t1.b, t1.c; SELECT STRAIGHT_JOIN t2.e FROM t1,t2 WHERE t2.d=1 AND t1.b=t2.e ORDER BY t1.b, t1.c; DROP TABLE t1,t2; # End of 4.1 tests # # Tests for WL#2486 Natural/using join according to SQL:2003. # # NOTICE: # - The tests are designed so that all statements, except MySQL # extensions run on any SQL server. Please do no change. # - Tests marked with TODO will be submitted as bugs. # create table t1 (c int, b int); create table t2 (a int, b int); create table t3 (b int, c int); create table t4 (y int, c int); create table t5 (y int, z int); create table t6 (a int, c int); insert into t1 values (10,1); insert into t1 values (3 ,1); insert into t1 values (3 ,2); insert into t2 values (2, 1); insert into t3 values (1, 3); insert into t3 values (1,10); insert into t4 values (11,3); insert into t4 values (2, 3); insert into t5 values (11,4); insert into t6 values (2, 3); # Views with simple natural join. create algorithm=merge view v1a as select * from t1 natural join t2; # as above, but column names are cross-renamed: a->c, c->b, b->a create algorithm=merge view v1b(a,b,c) as select * from t1 natural join t2; # as above, but column names are aliased: a->c, c->b, b->a create algorithm=merge view v1c as select b as a, c as b, a as c from t1 natural join t2; # as above, but column names are cross-renamed, and aliased # a->c->b, c->b->a, b->a->c create algorithm=merge view v1d(b, a, c) as select a as c, c as b, b as a from t1 natural join t2; # Views with JOIN ... ON create algorithm=merge view v2a as select t1.c, t1.b, t2.a from t1 join (t2 join t4 on b + 1 = y) on t1.c = t4.c; create algorithm=merge view v2b as select t1.c as b, t1.b as a, t2.a as c from t1 join (t2 join t4 on b + 1 = y) on t1.c = t4.c; # Views with bigger natural join create algorithm=merge view v3a as select * from t1 natural join t2 natural join t3; create algorithm=merge view v3b as select * from t1 natural join (t2 natural join t3); # View over views with mixed natural join and join ... on create algorithm=merge view v4 as select * from v2a natural join v3a; # Nested natural/using joins. select * from (t1 natural join t2) natural join (t3 natural join t4); select * from (t1 natural join t2) natural left join (t3 natural join t4); select * from (t3 natural join t4) natural right join (t1 natural join t2); select * from (t1 natural left join t2) natural left join (t3 natural left join t4); select * from (t4 natural right join t3) natural right join (t2 natural right join t1); select * from t1 natural join t2 natural join t3 natural join t4; select * from ((t1 natural join t2) natural join t3) natural join t4; select * from t1 natural join (t2 natural join (t3 natural join t4)); # BUG#15355: this query fails in 'prepared statements' mode # select * from ((t3 natural join (t1 natural join t2)) natural join t4) natural join t5; # select * from ((t3 natural left join (t1 natural left join t2)) natural left join t4) natural left join t5; select * from t5 natural right join (t4 natural right join ((t2 natural right join t1) natural right join t3)); select * from (t1 natural join t2), (t3 natural join t4); # MySQL extension - nested comma ',' operator instead of cross join. select * from t5 natural join ((t1 natural join t2), (t3 natural join t4)); select * from ((t1 natural join t2), (t3 natural join t4)) natural join t5; select * from t5 natural join ((t1 natural join t2) cross join (t3 natural join t4)); select * from ((t1 natural join t2) cross join (t3 natural join t4)) natural join t5; select * from (t1 join t2 using (b)) join (t3 join t4 using (c)) using (c); select * from (t1 join t2 using (b)) natural join (t3 join t4 using (c)); # Other clauses refer to NJ columns. select a,b,c from (t1 natural join t2) natural join (t3 natural join t4) where b + 1 = y or b + 10 = y group by b,c,a having min(b) < max(y) order by a; select * from (t1 natural join t2) natural left join (t3 natural join t4) where b + 1 = y or b + 10 = y group by b,c,a,y having min(b) < max(y) order by a, y; select * from (t3 natural join t4) natural right join (t1 natural join t2) where b + 1 = y or b + 10 = y group by b,c,a,y having min(b) < max(y) order by a, y; # Qualified column references to NJ columns. select * from t1 natural join t2 where t1.c > t2.a; select * from t1 natural join t2 where t1.b > t2.b; select * from t1 natural left join (t4 natural join t5) where t5.z is not NULL; # Nested 'join ... on' - name resolution of ON conditions select * from t1 join (t2 join t4 on b + 1 = y) on t1.c = t4.c; select * from (t2 join t4 on b + 1 = y) join t1 on t1.c = t4.c; select * from t1 natural join (t2 join t4 on b + 1 = y); select * from (t1 cross join t2) join (t3 cross join t4) on (a < y and t2.b < t3.c); # MySQL extension - 'join ... on' over nested comma operator select * from (t1, t2) join (t3, t4) on (a < y and t2.b < t3.c); select * from (t1 natural join t2) join (t3 natural join t4) on a = y; select * from ((t3 join (t1 join t2 on c > a) on t3.b < t2.a) join t4 on y > t1.c) join t5 on z = t1.b + 3; # MySQL extension - refererence qualified coalesced columns select * from t1 natural join t2 where t1.b > 0; select * from t1 natural join (t4 natural join t5) where t4.y > 7; select * from (t4 natural join t5) natural join t1 where t4.y > 7; select * from t1 natural left join (t4 natural join t5) where t4.y > 7; select * from (t4 natural join t5) natural right join t1 where t4.y > 7; select * from (t1 natural join t2) join (t3 natural join t4) on t1.b = t3.b; # MySQL extension - select qualified columns of NJ columns select t1.*, t2.* from t1 natural join t2; select t1.*, t2.*, t3.*, t4.* from (t1 natural join t2) natural join (t3 natural join t4); # Queries over subselects in the FROM clause select * from (select * from t1 natural join t2) as t12 natural join (select * from t3 natural join t4) as t34; select * from (select * from t1 natural join t2) as t12 natural left join (select * from t3 natural join t4) as t34; select * from (select * from t3 natural join t4) as t34 natural right join (select * from t1 natural join t2) as t12; # Queries over views select * from v1a; select * from v1b; select * from v1c; select * from v1d; select * from v2a; select * from v2b; select * from v3a; select * from v3b; select * from v4; select * from v1a natural join v2a; select v2a.* from v1a natural join v2a; select * from v1b join v2a on v1b.b = v2a.c; select * from v1c join v2a on v1c.b = v2a.c; select * from v1d join v2a on v1d.a = v2a.c; select * from v1a join (t3 natural join t4) on a = y; # TODO: add tests with correlated subqueries for natural join/join on. # related to BUG#15269 #-------------------------------------------------------------------- # Negative tests (tests for errors) #-------------------------------------------------------------------- # works in Oracle - bug -- error 1052 select * from t1 natural join (t3 cross join t4); # works in Oracle - bug -- error 1052 select * from (t3 cross join t4) natural join t1; -- error 1052 select * from t1 join (t2, t3) using (b); -- error 1052 select * from ((t1 natural join t2), (t3 natural join t4)) natural join t6; -- error 1052 select * from ((t1 natural join t2), (t3 natural join t4)) natural join t6; -- error 1052 select * from t6 natural join ((t1 natural join t2), (t3 natural join t4)); -- error 1052 select * from (t1 join t2 on t1.b=t2.b) natural join (t3 natural join t4); -- error 1052 select * from (t3 natural join t4) natural join (t1 join t2 on t1.b=t2.b); # this one is OK, the next equivalent one is incorrect (bug in Oracle) -- error 1052 select * from (t3 join (t4 natural join t5) on (b < z)) natural join (t1 natural join t2); -- error 1052 select * from (t1 natural join t2) natural join (t3 join (t4 natural join t5) on (b < z)); -- error 1054 select t1.b from v1a; -- error 1054 select * from v1a join v1b on t1.b = t2.b; # # Bug #17523 natural join and information_schema # # Omit columns.PRIVILIGES as it may vary with embedded server. # Omit columns.ORDINAL_POSITION and statistics.CARDINALITY as it may vary with hostname='localhost'. select statistics.TABLE_NAME, statistics.COLUMN_NAME, statistics.TABLE_CATALOG, statistics.TABLE_SCHEMA, statistics.NON_UNIQUE, statistics.INDEX_SCHEMA, statistics.INDEX_NAME, statistics.SEQ_IN_INDEX, statistics.COLLATION, statistics.SUB_PART, statistics.PACKED, statistics.NULLABLE, statistics.INDEX_TYPE, statistics.COMMENT, columns.TABLE_CATALOG, columns.TABLE_SCHEMA, columns.COLUMN_DEFAULT, columns.IS_NULLABLE, columns.DATA_TYPE, columns.CHARACTER_MAXIMUM_LENGTH, columns.CHARACTER_OCTET_LENGTH, columns.NUMERIC_PRECISION, columns.NUMERIC_SCALE, columns.CHARACTER_SET_NAME, columns.COLLATION_NAME, columns.COLUMN_TYPE, columns.COLUMN_KEY, columns.EXTRA, columns.COLUMN_COMMENT from information_schema.statistics join information_schema.columns using(table_name,column_name) where table_name='global_priv'; drop table t1; drop table t2; drop table t3; drop table t4; drop table t5; drop table t6; drop view v1a; drop view v1b; drop view v1c; drop view v1d; drop view v2a; drop view v2b; drop view v3a; drop view v3b; drop view v4; # # BUG#15229 - columns of nested joins that are not natural joins incorrectly # materialized # create table t1 (a1 int, a2 int); create table t2 (a1 int, b int); create table t3 (c1 int, c2 int); create table t4 (c2 int); insert into t1 values (1,1); insert into t2 values (1,1); insert into t3 values (1,1); insert into t4 values (1); select * from t1 join t2 using (a1) join t3 on b=c1 join t4 using (c2); select * from t3 join (t1 join t2 using (a1)) on b=c1 join t4 using (c2); select a2 from t1 join t2 using (a1) join t3 on b=c1 join t4 using (c2); select a2 from t3 join (t1 join t2 using (a1)) on b=c1 join t4 using (c2); select a2 from ((t1 join t2 using (a1)) join t3 on b=c1) join t4 using (c2); select a2 from ((t1 natural join t2) join t3 on b=c1) natural join t4; drop table t1,t2,t3,t4; # # BUG#15355: Common natural join column not resolved in prepared statement nested query # create table t1 (c int, b int); create table t2 (a int, b int); create table t3 (b int, c int); create table t4 (y int, c int); create table t5 (y int, z int); insert into t1 values (3,2); insert into t2 values (1,2); insert into t3 values (2,3); insert into t4 values (1,3); insert into t5 values (1,4); # this fails prepare stmt1 from "select * from ((t3 natural join (t1 natural join t2)) natural join t4) natural join t5"; execute stmt1; # this works select * from ((t3 natural join (t1 natural join t2)) natural join t4) natural join t5; drop table t1, t2, t3, t4, t5; # End of tests for WL#2486 - natural/using join # # BUG#25106: A USING clause in combination with a VIEW results in column # aliases ignored # CREATE TABLE t1 (ID INTEGER, Name VARCHAR(50)); CREATE TABLE t2 (Test_ID INTEGER); CREATE VIEW v1 (Test_ID, Description) AS SELECT ID, Name FROM t1; CREATE TABLE tv1 SELECT Description AS Name FROM v1 JOIN t2 USING (Test_ID); DESCRIBE tv1; CREATE TABLE tv2 SELECT Description AS Name FROM v1 JOIN t2 ON v1.Test_ID = t2.Test_ID; DESCRIBE tv2; DROP VIEW v1; DROP TABLE t1,t2,tv1,tv2; # BUG#27939: Early NULLs filtering doesn't work for eq_ref access create table t1 (a int, b int); insert into t1 values (NULL, 1), (NULL, 2), (NULL, 3), (NULL, 4); create table t2 (a int not null, primary key(a)); insert into t2 values (0),(1),(2),(3),(4),(5),(6),(7),(8),(9); create table t3 (a int not null, primary key(a)); insert into t3 values (0),(1),(2),(3),(4),(5),(6),(7),(8),(9); flush status; select * from t1, t2, t3 where t3.a=t1.a and t2.a=t1.b; explain select * from t1, t2, t3 where t3.a=t1.a and t2.a=t1.b; --echo We expect rnd_next=5, and read_key must be 0 because of short-cutting: show status like 'Handler_read%'; drop table t1, t2, t3; # # BUG#14940: Make E(#rows) from "range" access be re-used by range optimizer # create table t1 (a int); insert into t1 values (0),(1),(2),(3),(4),(5),(6),(7),(8),(9); create table t2 (a int, b int, filler char(100), key(a), key(b)); create table t3 (a int, b int, filler char(100), key(a), key(b)); insert into t2 select @a:= A.a + 10*(B.a + 10*C.a), @a, 'filler' from t1 A, t1 B, t1 C; insert into t3 select * from t2 where a < 800; # The order of tables must be t2,t3: explain select * from t2,t3 where t2.a < 200 and t2.b=t3.b; drop table t1, t2, t3; # BUG#14940 {Wrong query plan is chosen because of odd results of # prev_record_reads() function } create table t1 (a int); insert into t1 values (0),(1),(2),(3),(4),(5),(6),(7),(8),(9); create table t2 (a int, b int, primary key(a)); insert into t2 select @v:=A.a+10*B.a, @v from t1 A, t1 B; explain select * from t1; show status like '%cost%'; select 'The cost of accessing t1 (dont care if it changes' '^'; select 'vv: Following query must use ALL(t1), eq_ref(A), eq_ref(B): vv' Z; set @@optimizer_cache_hit_ratio=0; explain select * from t1, t2 A, t2 B where A.a = t1.a and B.a=A.b; show status like '%cost%'; select '^^: The above should be ~= 40 + cost(select * from t1). Value less than 40 is an error' Z; set @@optimizer_cache_hit_ratio=default; drop table t1, t2; # # Bug #31094: Forcing index-based sort doesn't work anymore if joins are # done # CREATE TABLE t1 (a INT PRIMARY KEY, b INT); CREATE TABLE t2 (c INT PRIMARY KEY, d INT); INSERT INTO t1 VALUES(1,NULL),(2,NULL),(3,NULL),(4,NULL); INSERT INTO t1 SELECT a + 4, b FROM t1; INSERT INTO t1 SELECT a + 8, b FROM t1; INSERT INTO t1 SELECT a + 16, b FROM t1; INSERT INTO t1 SELECT a + 32, b FROM t1; INSERT INTO t1 SELECT a + 64, b FROM t1; INSERT INTO t2 SELECT a, b FROM t1; #expect indexed ORDER BY EXPLAIN SELECT * FROM t1 JOIN t2 ON b=c ORDER BY a LIMIT 2; EXPLAIN SELECT * FROM t1 JOIN t2 ON a=c ORDER BY a LIMIT 2; SELECT * FROM t1 JOIN t2 ON b=c ORDER BY a LIMIT 2; SELECT * FROM t1 JOIN t2 ON a=c ORDER BY a LIMIT 2; #expect filesort EXPLAIN SELECT * FROM t1 JOIN t2 ON b=c ORDER BY a; EXPLAIN SELECT * FROM t1 JOIN t2 ON a=c ORDER BY a; SELECT * FROM t1 JOIN t2 ON b=c ORDER BY a; SELECT * FROM t1 JOIN t2 ON a=c ORDER BY a; DROP TABLE IF EXISTS t1,t2; --echo # --echo # Bug #42116: Mysql crash on specific query --echo # CREATE TABLE t1 (a INT); CREATE TABLE t2 (a INT); CREATE TABLE t3 (a INT, INDEX (a)); CREATE TABLE t4 (a INT); CREATE TABLE t5 (a INT); CREATE TABLE t6 (a INT); INSERT INTO t1 VALUES (1), (1), (1); INSERT INTO t2 VALUES (2), (2), (2), (2), (2), (2), (2), (2), (2), (2); INSERT INTO t3 VALUES (3), (3), (3), (3), (3), (3), (3), (3), (3), (3); EXPLAIN SELECT * FROM t1 JOIN t2 ON t1.a = t2.a LEFT JOIN ( ( t3 LEFT JOIN t4 ON t3.a = t4.a ) LEFT JOIN ( t5 LEFT JOIN t6 ON t5.a = t6.a ) ON t4.a = t5.a ) ON t1.a = t3.a; SELECT * FROM t1 JOIN t2 ON t1.a = t2.a LEFT JOIN ( ( t3 LEFT JOIN t4 ON t3.a = t4.a ) LEFT JOIN ( t5 LEFT JOIN t6 ON t5.a = t6.a ) ON t4.a = t5.a ) ON t1.a = t3.a; DROP TABLE t1,t2,t3,t4,t5,t6; --echo # --echo # Bug#48483: crash in get_best_combination() --echo # CREATE TABLE t1(f1 INT); INSERT INTO t1 VALUES (1),(2); CREATE VIEW v1 AS SELECT 1 FROM t1 LEFT JOIN t1 AS t2 on 1=1; EXPLAIN EXTENDED SELECT 1 FROM v1 right join v1 AS v2 ON RAND(); DROP VIEW v1; DROP TABLE t1; --echo # --echo # Bug#52177 crash with explain, row comparison, join, text field --echo # CREATE TABLE t1 (a TINYINT, b TEXT, KEY (a)); INSERT INTO t1 VALUES (0,''),(0,''); FLUSH TABLES; EXPLAIN SELECT 1 FROM t1 LEFT JOIN t1 a ON 1 WHERE ROW(t1.a, 1111.11) = ROW(1111.11, 1111.11) AND ROW(t1.b, 1111.11) <=> ROW('',''); DROP TABLE t1; --echo # --echo # Bug #50335: Assertion `!(order->used & map)' in eq_ref_table --echo # CREATE TABLE t1 (a INT NOT NULL, b INT NOT NULL, PRIMARY KEY (a,b)); INSERT INTO t1 VALUES (0,0), (1,1); SELECT * FROM t1 STRAIGHT_JOIN t1 t2 ON t1.a=t2.a AND t1.a=t2.b ORDER BY t2.a, t1.a; DROP TABLE t1; --echo End of 5.0 tests. # # Bug#47150 Assertion in Field_long::val_int() on MERGE + TRIGGER + multi-table UPDATE # CREATE TABLE t1 (f1 int); CREATE TABLE t2 (f1 int); INSERT INTO t2 VALUES (1); CREATE VIEW v1 AS SELECT * FROM t2; PREPARE stmt FROM 'UPDATE t2 AS A NATURAL JOIN v1 B SET B.f1 = 1'; EXECUTE stmt; EXECUTE stmt; DEALLOCATE PREPARE stmt; DROP VIEW v1; DROP TABLE t1, t2; # # Bug#45195 valgrind warnings about uninitialized values in store_record_in_cache() # CREATE TABLE t1(a CHAR(9),b INT,KEY(b),KEY(a)) ENGINE=MYISAM; CREATE TABLE t2(a CHAR(9),b INT,KEY(b),KEY(a)) ENGINE=MYISAM; INSERT INTO t1 VALUES ('1',null),(null,null); INSERT INTO t2 VALUES ('1',null),(null,null); CREATE TABLE mm1(a CHAR(9),b INT,KEY(b),KEY(a)) ENGINE=MERGE UNION=(t1,t2); SELECT t1.a FROM mm1,t1; DROP TABLE t1, t2, mm1; #--echo # #--echo # Bug #55568: user variable assignments crash server when used within #--echo # query #--echo # # # # This test case is invalidated because of fix of bug 55531 # The reason is that {1} is not a valid geometric collection. # #CREATE TABLE t1 (a INT); #INSERT INTO t1 VALUES (0), (1); #let $i=2; #while ($i) #{ # SELECT MULTIPOINT( # 1, # ( # SELECT MULTIPOINT( # MULTIPOINT( # 1, # (SELECT COUNT(*) FROM (SELECT 1 FROM t1 GROUP BY a,a) d) # ) # ) FROM t1 # ) # ) != COUNT(*) q FROM t1 GROUP BY a; # dec $i; #} # #DROP TABLE t1; --echo # --echo # Bug #54468: crash after item's print() function when ordering/grouping --echo # by subquery --echo # CREATE TABLE t1(a INT, b INT); INSERT INTO t1 VALUES (), (); SELECT 1 FROM t1 GROUP BY GREATEST(t1.a, (SELECT 1 FROM (SELECT t1.b FROM t1,t1 t2 ORDER BY t1.a, t1.a LIMIT 1) AS d) ); DROP TABLE t1; --echo # --echo # Bug #53544: Server hangs during JOIN query in stored procedure called --echo # twice in a row --echo # CREATE TABLE t1(c INT); INSERT INTO t1 VALUES (1), (2); PREPARE stmt FROM "SELECT t2.c AS f1 FROM t1 LEFT JOIN t1 t2 ON t1.c=t2.c RIGHT JOIN t1 t3 ON t1.c=t3.c GROUP BY f1;"; EXECUTE stmt; EXECUTE stmt; DEALLOCATE PREPARE stmt; DROP TABLE t1; --echo # --echo # Bug LP:798597: Incorrect "Duplicate entry" error with views and --echo # GROUP BY --echo # CREATE TABLE t1 ( f1 int NOT NULL , f2 int NOT NULL ) ; INSERT INTO t1 VALUES (214,0),(6,6); CREATE TABLE t2 ( f2 int) ; INSERT INTO t2 VALUES (88),(88); CREATE ALGORITHM=MERGE VIEW v1 AS SELECT t1.f1, t2.f2 FROM (t2 LEFT JOIN t1 ON (t2.f2 <> t1.f1)) WHERE (t1.f2 <= 0) ; CREATE ALGORITHM=MERGE VIEW v2 AS SELECT t1.f1, t2.f2 FROM (t2 LEFT JOIN t1 ON (t2.f2 <> t1.f1)) WHERE (t1.f2 <= 0 or t1.f2 is null) ; SELECT f1 , MIN(f2) FROM v1 GROUP BY f1; SELECT f1 , MIN(f2) FROM v2 GROUP BY f1; drop table t1,t2; drop view v1,v2; --echo # --echo # BUG#47217 Lost optimization caused slowdown & wrong result. --echo # CREATE TABLE t1 (pk INT, v VARCHAR(2), PRIMARY KEY(pk)); CREATE INDEX ix1 ON t1(v); CREATE TABLE t2 (pk INT, v VARCHAR(2), PRIMARY KEY(pk)); CREATE INDEX ix2 ON t2(v); INSERT INTO t1 VALUES (1,'a'),(2,NULL); INSERT INTO t2 VALUES (1,NULL); EXPLAIN SELECT * FROM t1 JOIN t2 ON t1.v = t2.v ORDER BY 1; EXPLAIN SELECT * FROM t1 JOIN t2 ON t1.v = t2.v; INSERT INTO t1 VALUES (3,'b'),(4,NULL),(5,'c'),(6,'cc'),(7,'d'), (8,'dd'),(9,'e'),(10,'ee'); INSERT INTO t2 VALUES (2,NULL); ANALYZE TABLE t1,t2; # This will ensure that status tables are read now and not part of the later # Handler_read% counts explain SELECT * FROM t1 JOIN t2 ON t1.v = t2.v WHERE t2.v IS NULL ORDER BY 1; FLUSH STATUS; SELECT * FROM t1 JOIN t2 ON t1.v = t2.v WHERE t2.v IS NULL ORDER BY 1; SHOW STATUS LIKE 'Handler_read_%'; DROP TABLE t1, t2; --echo End of 5.1 tests --echo # --echo # Bug #43368: STRAIGHT_JOIN DOESN'T WORK FOR NESTED JOINS --echo # create table t1(c1 int primary key, c2 char(10)) engine=myisam; create table t2(c1 int primary key, c2 char(10), ref_t1 int) engine=myisam; create table t3(c1 int primary key, c2 char(10), ref_t1 int) engine=myisam; create table t4(c1 int primary key, c2 char(10), ref_t1 int) engine=myisam; insert into t1 values(1,'a'); insert into t2 values(1,'a', 1); insert into t3 values(1,'a', 1); insert into t3 values(2,'b',2); insert into t4 values(1,'a', 1); insert into t4 values(2,'a', 2); insert into t4 values(3,'a', 3); insert into t4 values(4,'a', 4); insert into t1 values(2,'b'); insert into t1 values(3,'c'); EXPLAIN SELECT * FROM t4 JOIN (t1 JOIN t3 ON t3.ref_t1=t1.c1 JOIN t2 ON t2.ref_t1=t1.c1) ON t4.ref_t1=t1.c1; EXPLAIN SELECT STRAIGHT_JOIN * FROM t4 JOIN (t1 JOIN t3 ON t3.ref_t1=t1.c1 JOIN t2 ON t2.ref_t1=t1.c1) ON t4.ref_t1=t1.c1; EXPLAIN SELECT * FROM t4 STRAIGHT_JOIN (t1 JOIN t3 ON t3.ref_t1=t1.c1 JOIN t2 ON t2.ref_t1=t1.c1) ON t4.ref_t1=t1.c1; drop table t1,t2,t3,t4; --echo End of 5.2 tests --echo # --echo # BUG#724275: Crash in JOIN::optimize in maria-5.3 --echo # create table t1 (a int); insert into t1 values (1),(2); insert into t1 select * from t1; create table t2 (a int, b int, key(a,b)); insert into t2 values (1,1),(1,2),(1,3),(1,4),(2,5),(2,6),(2,7),(2,8),(2,9); insert into t2 select * from t2; insert into t2 select * from t2; insert into t2 select * from t2; create table t3 (a int, b int, key(a)); insert into t3 values (1,1),(2,2); select * from t3 straight_join t1 straight_join t2 force index(a) where t2.a=1 and t2.b=t1.a and t1.a=t3.b and t3.a=1; drop table t1,t2,t3; --echo # --echo # BUG#729067/730466: unexpected 'Range checked for each record' --echo # for queries with OR in WHERE clause --echo # CREATE TABLE t1 (f1 int, f2 int) ; INSERT INTO t1 VALUES (4,0),(5,1); CREATE TABLE t2 (f1 int, f2 int, KEY (f2)) ; INSERT INTO t2 VALUES (5,7), (8,9); EXPLAIN SELECT * FROM t1 STRAIGHT_JOIN t2 ON t2.f1 = t1.f1 WHERE t1.f1<>0 OR t1.f2<>0 AND t1.f1 = t2.f2; SELECT * FROM t1 STRAIGHT_JOIN t2 ON t2.f1 = t1.f1 WHERE t1.f1<>0 OR t1.f2<>0 AND t1.f1 = t2.f2; DROP TABLE t1,t2; CREATE TABLE t1(f1 int PRIMARY KEY, f2 int) ; INSERT INTO t1 VALUES (9,4), (10,9); CREATE TABLE t2(f1 int PRIMARY KEY, f2 int) ; INSERT INTO t2 VALUES (9,4), (10,9); EXPLAIN SELECT STRAIGHT_JOIN * FROM t1 JOIN t2 ON t2.f2 = t1.f1 WHERE t1.f1 IN (SELECT f1 FROM t1) AND t1.f1 = t2.f1 OR t1.f1 = 9; SELECT STRAIGHT_JOIN * FROM t1 JOIN t2 ON t2.f2 = t1.f1 WHERE t1.f1 IN (SELECT f1 FROM t1) AND t1.f1 = t2.f1 OR t1.f1 = 9; DROP TABLE t1,t2; # # Item_equal used cmp_item::get_comparator() incorrectly # create table t1 (i time key); insert into t1 values ('1:1:1'), ('2:2:2'); create table t2 (i time); insert into t2 values ('1:1:1'); select t2.i from t1 left join t2 on t2.i = t1.i where t1.i = '1:1:1'; drop table t1,t2; --echo # --echo # BUG#954900: unexpected empty set due to an invalid build of key ref --echo # CREATE TABLE t1 (dog_id int(10), birthday date, PRIMARY KEY (dog_id,birthday)); INSERT INTO t1 VALUES (5918,'2004-07-22'); CREATE TABLE t2 (dog_id int(10) unsigned, t_id char(1), birthday date, a_id int(10), PRIMARY KEY (dog_id,t_id,birthday,a_id)); INSERT INTO t2 VALUES (5918,'N','2004-07-22',5216551), (5918,'N','2004-07-22',5223640), (5918,'N','2004-07-22',5389491), (5918,'N','2004-07-22',5749434), (5918,'N','2004-07-22',5992424), (5922,'N','2005-06-30',5076957), (5924,'N','2000-08-11',20264), (5924,'N','2000-08-11',64251), (5924,'N','2000-08-11',74748), (5924,'N','2000-08-11',87590), (5924,'N','2000-08-11',104695), (5924,'N','2000-08-11',133136), (5924,'N','2000-08-11',5027806), (5924,'N','2000-08-11',5076957), (5924,'N','2000-08-11',5166821), (5924,'N','2000-08-11',5181896), (5924,'N','2000-08-11',5217908), (5924,'N','2000-08-11',5220812), (5924,'N','2000-08-11',5226473), (5924,'N','2000-08-11',5339111), (5925,'N','2005-02-10',19227), (5925,'N','2005-02-10',74529), (5925,'N','2005-02-10',74748), (5927,'N','2005-08-18',20264), (5927,'N','2005-08-18',58364), (5929,'N','2005-01-19',58364), (5935,'N','2006-03-10',19227), (5935,'N','2006-03-10',64251), (5935,'N','2006-03-10',5222400), (5935,'N','2006-03-10',5226473), (5936,'N','2004-10-29',5015032), (5937,'N','2002-04-05',11237), (5937,'N','2002-04-05',23911), (5937,'N','2002-04-05',112133), (5937,'N','2002-04-05',169721), (5937,'N','2002-04-05',170650), (5937,'N','2002-04-05',5014494), (5937,'N','2002-04-05',5166009), (5937,'N','2002-04-05',5181871), (5937,'N','2002-04-05',5213380), (5937,'N','2002-04-05',5214875), (5937,'N','2002-04-05',5895062), (5938,'N','2006-03-24',11237), (5938,'N','2006-03-24',19227), (5938,'N','2006-03-24',23911), (5938,'N','2006-03-24',58364), (5938,'N','2006-03-24',64251), (5938,'N','2006-03-24',111716), (5938,'N','2006-03-24',112702), (5938,'N','2006-03-24',133136), (5938,'N','2006-03-24',168718), (5938,'N','2006-03-24',5137136), (5938,'N','2006-03-24',5161519), (5938,'N','2006-03-24',5168120), (5938,'N','2006-03-24',5219034), (6234,'N','2006-06-02',103058), (6234,'N','2006-06-02',5146844), (6235,'N','2006-06-01',12900), (6235,'N','2006-06-01',20264), (6235,'N','2006-06-01',64251), (6235,'N','2006-06-01',75160), (6235,'N','2006-06-01',5014494), (6235,'N','2006-06-01',5181638), (6236,'N','2006-06-06',112595), (6236,'N','2006-06-06',5219601), (6236,'N','2006-06-06',5808374); CREATE TABLE t3 (dog_id int(10) unsigned); INSERT INTO t3 VALUES (5918); CREATE TABLE t4 (dog_id int(10), t_id char(1), birthday date, KEY (t_id)); INSERT INTO t4 VALUES (5918,'N','2004-07-22'), (5919,'N','2004-07-20'); CREATE TABLE t5 (dog_id int(10) unsigned, UNIQUE KEY (dog_id)); INSERT INTO t5 VALUES (5918); SET @tmp_optimizer_switch=@@optimizer_switch; SET optimizer_switch='index_condition_pushdown=off'; EXPLAIN SELECT * FROM t5 DU, t1 D, t4 DT, t2 DSA, t3 DSAR WHERE DU.dog_id=D.dog_id AND D.dog_id=DT.dog_id AND D.birthday=DT.birthday AND DT.t_id=DSA.t_id AND DT.birthday=DSA.birthday AND DSA.dog_id=DSAR.dog_id; SELECT * FROM t5 DU, t1 D, t4 DT, t2 DSA, t3 DSAR WHERE DU.dog_id=D.dog_id AND D.dog_id=DT.dog_id AND D.birthday=DT.birthday AND DT.t_id=DSA.t_id AND DT.birthday=DSA.birthday AND DSA.dog_id=DSAR.dog_id; SET optimizer_switch=@tmp_optimizer_switch; DROP TABLE t1,t2,t3,t4,t5; --echo # --echo # MDEV-4752: Segfault during parsing of illegal query --echo # --error ER_PARSE_ERROR SELECT * FROM t5 JOIN (t1 JOIN t2 UNION SELECT * FROM t3 JOIN t4); --echo # --echo # MDEV-4959: join of const table with NULL fields --echo # CREATE TABLE t1 (i1 int) ENGINE=MyISAM; INSERT INTO t1 VALUES (NULL); CREATE TABLE t2 (i2 int, a int, b int) ENGINE=MyISAM; CREATE ALGORITHM=TEMPTABLE VIEW v2 AS SELECT * FROM t2; INSERT INTO t2 VALUES (NULL,1,2),(NULL,2,3); SELECT * FROM t1 JOIN v2 ON i1 = i2 WHERE a < b; EXPLAIN EXTENDED SELECT * FROM t1 JOIN v2 ON i1 = i2 WHERE a < b; DROP VIEW v2; DROP TABLE t1,t2; SET optimizer_switch=@save_optimizer_switch; --echo # --echo # MDEV-16512 --echo # Server crashes in find_field_in_table_ref on 2nd execution of SP referring to --echo # non-existing field --echo # CREATE TABLE t (i INT); CREATE PROCEDURE p() SELECT t1.f FROM t AS t1 JOIN t AS t2 USING (f); --error ER_BAD_FIELD_ERROR CALL p; --error ER_BAD_FIELD_ERROR CALL p; FLUSH TABLES; --error ER_BAD_FIELD_ERROR CALL p; DROP TABLE t; # # Fix the table definition to match the using # CREATE TABLE t (f INT); # # The following shouldn't fail as the table is now matching the using # CALL p; DROP TABLE t; CREATE TABLE t (i INT); --error ER_BAD_FIELD_ERROR CALL p; --error ER_BAD_FIELD_ERROR CALL p; DROP PROCEDURE p; DROP TABLE t; CREATE TABLE t1 (a INT, b INT); CREATE TABLE t2 (a INT); CREATE TABLE t3 (a INT, c INT); CREATE TABLE t4 (a INT, c INT); CREATE TABLE t5 (a INT, c INT); CREATE PROCEDURE p1() SELECT c FROM t1 JOIN (t2 LEFT JOIN t3 USING (a) LEFT JOIN t4 USING (a) LEFT JOIN t5 USING (a)) USING (a); --error ER_NON_UNIQ_ERROR CALL p1; --error ER_NON_UNIQ_ERROR CALL p1; DROP PROCEDURE p1; DROP TABLE t1,t2,t3,t4,t5; --echo # --echo # MDEV-19421: Embedding inner joins --echo # create table t1 (a int); insert into t1 values (7), (5), (3); create table s1 (b int); insert into s1 values (7), (5), (3); create table t2 (a int); insert into t2 values (5), (1), (7); create table s2 (b int); insert into s2 values (5), (1), (7); create table t3 (a int); insert into t3 values (2), (7), (3); create table t4 (a int); insert into t4 values (4), (7), (9), (5); let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a from t1 join t2 join t3 on t2.a=t3.a on t1.a=t2.a; eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a from t1 join t2 left join t3 on t2.a=t3.a on t1.a=t2.a; eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a from t1 join t2 right join t3 on t2.a=t3.a on t1.a=t3.a; eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a from t1 join t2 join t3 using(a) using(a); eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a from t1 join t2 left join t3 using(a) using(a); eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a from t1 join t2 right join t3 using(a) using(a); eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a from t1 join t2 join t3 on t2.a=t3.a; eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a from t1 join t2 left join t3 on t2.a=t3.a; eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a from t1 join t2 right join t3 on t2.a=t3.a; eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a from t1 join t2 join t3 on t1.a=t3.a; eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a from t1 join t2 left join t3 on t1.a=t3.a; eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a from t1 join t2 right join t3 on t1.a=t3.a; eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a from t1 join (t2 join t3 on t2.a=t3.a); eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a from t1 join (t2 left join t3 on t2.a=t3.a); eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a from t1 join (t2 right join t3 on t2.a=t3.a); eval explain extended $q; eval $q; let $q= select * from s1 join t2 join t3 using(a); eval explain extended $q; eval $q; let $q= select * from s1 join t2 left join t3 using(a); eval explain extended $q; eval $q; let $q= select * from s1 join t2 right join t3 using(a); eval explain extended $q; eval $q; let $q= select s1.b, t2.a as t2_a, t3.a as t3_a from s1 join t2 join t3 using(a); eval explain extended $q; eval $q; let $q= select s1.b, t2.a as t2_a, t3.a as t3_a from s1 join t2 left join t3 using(a); eval explain extended $q; eval $q; let $q= select s1.b, t2.a as t2_a, t3.a as t3_a from s1 join t2 right join t3 using(a); eval explain extended $q; eval $q; let $q= select s1.b, t2.a as t2_a, t3.a as t3_a from (s1 join t2) right join t3 using(a); eval explain extended $q; eval $q; let $q= select * from s1 join t2 natural join t3; eval explain extended $q; eval $q; let $q= select * from s1 join t2 natural left join t3; eval explain extended $q; eval $q; let $q= select * from s1 join t2 natural right join t3; eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a from t1 join t2 join t3; eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a from t1 join t2 join t3 where t1.a=t2.a and t2.a=t3.a; eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a, t4.a as t4_a from t1 join t2 join t3 join t4 on t3.a=t4.a on t2.a=t3.a; eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a, t4.a as t4_a from t1 join t2 left join t3 join t4 on t3.a=t4.a on t2.a=t3.a; eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a, t4.a as t4_a from t1 join t2 left join t3 left join t4 on t3.a=t4.a on t2.a=t3.a; eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a, t4.a as t4_a from t1 join t2 left join t3 right join t4 on t3.a=t4.a on t2.a=t3.a; eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a, t4.a as t4_a from t1 join t2 right join t3 join t4 on t3.a=t4.a on t2.a=t3.a; eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a, t4.a as t4_a from t1 join t2 right join t3 left join t4 on t3.a=t4.a on t2.a=t3.a; eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a, t4.a as t4_a from t1 join t2 right join t3 right join t4 on t3.a=t4.a on t2.a=t3.a; eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a, t4.a as t4_a from t1 join t2 join t3 join t4 on t3.a=t4.a; eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a, t4.a as t4_a from t1 join t2 join t3 left join t4 on t3.a=t4.a; eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a, t4.a as t4_a from t1 join t2 join t3 right join t4 on t3.a=t4.a; eval explain extended $q; eval $q; let $q= select s1.b as s1_b, s2.b as s2_b, t3.a as t3_a, t4.a as t4_a from s1 join s2 join t3 join t4 using(a); eval explain extended $q; eval $q; let $q= select s1.b as s1_b, s2.b as s2_b, t3.a as t3_a, t4.a as t4_a from s1 join s2 join t3 left join t4 using(a); eval explain extended $q; eval $q; let $q= select s1.b as s1_b, s2.b as s2_b, t3.a as t3_a, t4.a as t4_a from s1 join s2 join t3 right join t4 using(a); eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a, t4.a as t4_a from t1 join t2 join t3 on t2.a=t3.a join t4; eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a, t4.a as t4_a from t1 join t2 left join t3 on t2.a=t3.a join t4; eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a, t4.a as t4_a from t1 join t2 right join t3 on t2.a=t3.a join t4; eval explain extended $q; eval $q; let $q= select s1.b as s1_b, t2.a as t2_a, t3.a as t3_a, t4.a as t4_a from s1 join t2 join t3 using(a) join t4; eval explain extended $q; eval $q; let $q= select s1.b as s1_b, t2.a as t2_a, t3.a as t3_a, t4.a as t4_a from s1 join t2 left join t3 using(a) join t4; eval explain extended $q; eval $q; let $q= select s1.b as s1_b, t2.a as t2_a, t3.a as t3_a, t4.a as t4_a from s1 join t2 right join t3 using(a) join t4; eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a, t4.a as t4_a from t1 join t2 on t1.a=t2.a join t3 join t4 on t3.a=t4.a; eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a, t4.a as t4_a from t1 join t2 on t1.a=t2.a join t3 left join t4 on t3.a=t4.a; eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a, t4.a as t4_a from t1 join t2 on t1.a=t2.a join t3 right join t4 on t3.a=t4.a; eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a, t4.a as t4_a from t1 left join t2 on t1.a=t2.a join t3 join t4 on t3.a=t4.a; eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a, t4.a as t4_a from t1 left join t2 on t1.a=t2.a join t3 left join t4 on t3.a=t4.a; eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a, t4.a as t4_a from t1 left join t2 on t1.a=t2.a join t3 right join t4 on t3.a=t4.a; eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a, t4.a as t4_a from t1 right join t2 on t1.a=t2.a join t3 join t4 on t3.a=t4.a; eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a, t4.a as t4_a from t1 right join t2 on t1.a=t2.a join t3 left join t4 on t3.a=t4.a; eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a, t4.a as t4_a from t1 right join t2 on t1.a=t2.a join t3 right join t4 on t3.a=t4.a; eval explain extended $q; eval $q; let $q= select s1.b as s1_b, t1.a as t1_a, t2.a as t2_a, t3.a as t3_a, t4.a as t4_a from s1 join t1 left join t2 on s1.b=t2.a join t3 join t4 on t4.a=s1.b; eval explain extended $q; eval $q; let $q= select s1.b as s1_b, t1.a as t1_a, t2.a as t2_a, t3.a as t3_a, t4.a as t4_a from s1 join t1 left join t2 on s1.b=t2.a join t3 left join t4 on t4.a=s1.b; eval explain extended $q; eval $q; let $q= select s1.b as s1_b, t1.a as t1_a, t2.a as t2_a, t3.a as t3_a, t4.a as t4_a from s1 join t1 left join t2 on s1.b=t2.a join t3 right join t4 on t4.a=s1.b; eval explain extended $q; eval $q; let $q= select s1.b as s1_b, s2.b as s2_b, t1.a as t1_a, t2.a as t2_a, t3.a as t3_a from s1 join s2 on s1.b=s2.b join t1 right join t2 on t1.a=t2.a join t3; eval explain extended $q; eval $q; let $q= select s1.b as s1_b, s2.b as s2_b, t1.a as t1_a, t2.a as t2_a, t3.a as t3_a from s1 left join s2 on s1.b=s2.b join t1 right join t2 on t1.a=t2.a join t3; eval explain extended $q; eval $q; let $q= select s1.b as s1_b, s2.b as s2_b, t1.a as t1_a, t2.a as t2_a, t3.a as t3_a from s1 right join s2 on s1.b=s2.b join t1 right join t2 on t1.a=t2.a join t3; eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a, t4.a as t4_a from t1 join t2 right join t3 right join t4 on t3.a=t4.a on t2.a=t3.a; eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a, t4.a as t4_a from (t1 join t2) right join t3 right join t4 on t3.a=t4.a on t2.a=t3.a; eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a, t4.a as t4_a from (t1, t2) right join t3 right join t4 on t3.a=t4.a on t2.a=t3.a; eval explain extended $q; eval $q; drop table t1,t2,t3,t4,s1,s2; --echo # --echo # MDEV-20265: Mix of comma joins with JOIN expressions --echo # (correction of the fix for MDEV-19421) --echo # MDEV-20330: duplicate --echo # create table t1 (a int); insert into t1 values (7), (5), (3); create table t2 (a int); insert into t2 values (5), (1), (7); create table t3 (a int); insert into t3 values (2), (7), (3); create table t4 (a int); insert into t4 values (4), (7), (9), (5); create table t5 (a int); insert into t5 values (3), (7), (9), (2); let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a, t4.a as t4_a from t1, t2 join t3 left join t4 on t3.a=t4.a; eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a, t4.a as t4_a from t1, t2 join t3 right join t4 on t3.a=t4.a; eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a, t4.a as t4_a, t5.a as t5_a from t1, t2 join t3 join t4 left join t5 on t4.a=t5.a; eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a, t4.a as t4_a, t5.a as t5_a from t1, t2 join t3 join t4 right join t5 on t4.a=t5.a; eval explain extended $q; eval $q; let $q= select t1.a as t1_a, t2.a as t2_a, t3.a as t3_a, t4.a as t4_a, t5.a as t5_a from t1 left join t2 on t1.a=t2.a, t3 join t4 right join t5 on t4.a=t5.a; eval explain extended $q; eval $q; drop table t1,t2,t3,t4,t5; select a.a from (select 1 as a) a, (select 2 as b) b cross join (select 3 as c) c left join (select 4 as d) d on 1; --echo # --echo # End of MariaDB 5.5 tests --echo # --echo # --echo # Bug #35268: Parser can't handle STRAIGHT_JOIN with USING --echo # CREATE TABLE t1 (a int); INSERT INTO t1 (a) VALUES (1),(2),(3),(4),(5),(6),(7),(8); CREATE TABLE t2 (a int); INSERT INTO t2 (a) VALUES (1),(2),(3),(4); EXPLAIN SELECT t1.a FROM t1 NATURAL INNER JOIN t2 ORDER BY t1.a; SELECT t1.a FROM t1 NATURAL INNER JOIN t2 ORDER BY t1.a; EXPLAIN SELECT t1.a FROM t1 STRAIGHT_JOIN t2 USING(a) ORDER BY t1.a; SELECT t1.a FROM t1 STRAIGHT_JOIN t2 USING(a) ORDER BY t1.a; EXPLAIN SELECT t1.a FROM t1 NATURAL STRAIGHT_JOIN t2 ORDER BY t1.a; SELECT t1.a FROM t1 NATURAL STRAIGHT_JOIN t2 ORDER BY t1.a; DROP TABLE t1,t2; --echo # --echo # MDEV-5635: join of a const table with non-const tables --echo # CREATE TABLE t1 (a varchar(3) NOT NULL) ENGINE=MyISAM; INSERT INTO t1 VALUES ('foo'); CREATE TABLE t2 (b varchar(3), c varchar(3), INDEX(b)) ENGINE=MyISAM; INSERT INTO t2 VALUES ('bar', 'bar'),( 'qux', 'qux'); SELECT STRAIGHT_JOIN * FROM t1, t2 AS t2_1, t2 AS t2_2 WHERE t2_2.c = t2_1.c AND t2_2.b = t2_1.b AND ( a IS NULL OR t2_1.c = a ); DROP TABLE t1,t2; --echo # --echo # MDEV-19600: The optimizer should be able to produce rows=1 estimate for unique index with NULLable columns --echo # create table t0(a int); insert into t0 values (0),(1),(2),(3),(4),(5),(6),(7),(8),(9); create table t1 ( pk int not null primary key auto_increment, a int, b int, unique key(a) ); # 10K of null values insert into t1 (a,b) select null, 12345 from t0 A, t0 B, t0 C; insert into t1 (a,b) select a,a from t0; --echo # Simulate InnoDB's persistent statistics (It always uses nulls_equal) set @tmp1= @@myisam_stats_method; set myisam_stats_method=nulls_equal; analyze table t1; set myisam_stats_method=@tmp1; show keys from t1; --echo # t1 must use eq_ref(t1.a=t0.a) and rows must be 1 (and not 45): explain select * from t0,t1 where t0.a=t1.a; drop table t0,t1; --echo # --echo # MDEV-21383: Possible range plan is not used under certain conditions --echo # --disable_warnings drop table if exists t10, t1000, t03; --enable_warnings create table t10(a int); insert into t10 values (0),(1),(2),(3),(4),(5),(6),(7),(8),(9); create table t1000(a int); insert into t1000 select A.a + B.a* 10 + C.a * 100 from t10 A, t10 B, t10 C; create table t03(a int); insert into t03 values (0),(1),(2); create table t1 ( stationid int ); insert into t1 select a from t10; CREATE TABLE t2 ( stationId int, startTime int, filler char(100), key1 int, key2 int, key(key1), key(key2), PRIMARY KEY (`stationId`,`startTime`) ); insert into t2 select A.a, B.a, repeat('filler=data-', 4), B.a, 1 from t03 A, t1000 B; analyze table t2; create table t3(a int, filler char(100), key(a)); insert into t3 select A.a+1000*B.a, 'filler-data' from t1000 A, t10 B; --echo # This should produce a join order of t1,t2,t3 --echo # t2 should have type=range, key=PRIMARY key_len=8 (not type=ALL or key_len<8) explain SELECT * FROM t1,t2,t3 WHERE t2.startTime <= 100 and t2.stationId = t1.stationId and (t1.stationid = 1 or t1.stationid = 2 or t1.stationid = 3) and key1 >0 and t2.key2=t3.a; drop table t1,t2,t3; drop table t1000,t10,t03;