CALL mtr.add_suppression("Unsafe statement written to the binary log using statement format since BINLOG_FORMAT = STATEMENT"); drop table if exists t1,t2; CREATE TABLE t1 ( Period smallint(4) unsigned zerofill DEFAULT '0000' NOT NULL, Varor_period smallint(4) unsigned DEFAULT '0' NOT NULL ) ENGINE=blackhole; INSERT INTO t1 VALUES (9410,9412); select period from t1; period select * from t1; Period Varor_period select t1.* from t1; Period Varor_period CREATE TABLE t2 ( auto int NOT NULL auto_increment, fld1 int(6) unsigned zerofill DEFAULT '000000' NOT NULL, companynr tinyint(2) unsigned zerofill DEFAULT '00' NOT NULL, fld3 char(30) DEFAULT '' NOT NULL, fld4 char(35) DEFAULT '' NOT NULL, fld5 char(35) DEFAULT '' NOT NULL, fld6 char(4) DEFAULT '' NOT NULL, primary key (auto) ) ENGINE=blackhole; INSERT INTO t2 VALUES (1192,068305,00,'Colombo','hardware','colicky',''); INSERT INTO t2 VALUES (1193,000000,00,'nondecreasing','implant','thrillingly',''); select t2.fld3 from t2 where companynr = 58 and fld3 like "%imaginable%"; fld3 select fld3 from t2 where fld3 like "%cultivation" ; fld3 select t2.fld3,companynr from t2 where companynr = 57+1 order by fld3; fld3 companynr select fld3,companynr from t2 where companynr = 58 order by fld3; fld3 companynr select fld3 from t2 order by fld3 desc limit 10; fld3 select fld3 from t2 order by fld3 desc limit 5; fld3 select fld3 from t2 order by fld3 desc limit 5,5; fld3 select t2.fld3 from t2 where fld3 = 'honeysuckle'; fld3 select t2.fld3 from t2 where fld3 LIKE 'honeysuckl_'; fld3 select t2.fld3 from t2 where fld3 LIKE 'hon_ysuckl_'; fld3 select t2.fld3 from t2 where fld3 LIKE 'honeysuckle%'; fld3 select t2.fld3 from t2 where fld3 LIKE 'h%le'; fld3 select t2.fld3 from t2 where fld3 LIKE 'honeysuckle_'; fld3 select t2.fld3 from t2 where fld3 LIKE 'don_t_find_me_please%'; fld3 select t2.fld3 from t2 where fld3 >= 'honeysuckle' and fld3 <= 'honoring' order by fld3; fld3 select fld1,fld3 from t2 where fld3="Colombo" or fld3 = "nondecreasing" order by fld3; fld1 fld3 DROP TABLE t1; CREATE TABLE t1 (a VARCHAR(200), b TEXT, FULLTEXT (a,b)); INSERT INTO t1 VALUES('MySQL has now support', 'for full-text search'), ('Full-text indexes', 'are called collections'), ('Only MyISAM tables','support collections'), ('Function MATCH ... AGAINST()','is used to do a search'), ('Full-text search in MySQL', 'implements vector space model'); SHOW INDEX FROM t1; Table Non_unique Key_name Seq_in_index Column_name Collation Cardinality Sub_part Packed Null Index_type Comment Index_comment Ignored t1 1 a 1 a NULL NULL NULL NULL YES FULLTEXT NO t1 1 a 2 b NULL NULL NULL NULL YES FULLTEXT NO select * from t1 where MATCH(a,b) AGAINST ("collections"); a b Only MyISAM tables support collections Full-text indexes are called collections explain extended select * from t1 where MATCH(a,b) AGAINST ("collections"); id select_type table type possible_keys key key_len ref rows filtered Extra 1 SIMPLE t1 fulltext a a 0 1 100.00 Using where Warnings: Note 1003 select `test`.`t1`.`a` AS `a`,`test`.`t1`.`b` AS `b` from `test`.`t1` where (match `test`.`t1`.`a`,`test`.`t1`.`b` against ('collections')) select * from t1 where MATCH(a,b) AGAINST ("indexes"); a b Full-text indexes are called collections select * from t1 where MATCH(a,b) AGAINST ("indexes collections"); a b Full-text indexes are called collections Only MyISAM tables support collections select * from t1 where MATCH(a,b) AGAINST ("only"); a b reset master; drop table t1,t2; create table t1 (a int) engine=blackhole; delete from t1 where a=10; update t1 set a=11 where a=15; insert into t1 values(1); insert ignore into t1 values(1); replace into t1 values(100); create table t2 (a varchar(200)) engine=blackhole; load data infile '../../std_data/words.dat' into table t2; alter table t1 add b int; alter table t1 drop b; create table t3 like t1; insert into t1 select * from t3; replace into t1 select * from t3; Warnings: Note 1592 Unsafe statement written to the binary log using statement format since BINLOG_FORMAT = STATEMENT. REPLACE... SELECT is unsafe because the order in which rows are retrieved by the SELECT determines which (if any) rows are replaced. This order cannot be predicted and may differ on master and the slave select * from t1; a select * from t2; a select * from t3; a include/show_binlog_events.inc Log_name Pos Event_type Server_id End_log_pos Info master-bin.000001 # Gtid # # GTID #-#-# master-bin.000001 # Query # # use `test`; DROP TABLE `t1`,`t2` /* generated by server */ master-bin.000001 # Gtid # # GTID #-#-# master-bin.000001 # Query # # use `test`; create table t1 (a int) engine=blackhole master-bin.000001 # Gtid # # BEGIN GTID #-#-# master-bin.000001 # Query # # use `test`; delete from t1 where a=10 master-bin.000001 # Query # # COMMIT master-bin.000001 # Gtid # # BEGIN GTID #-#-# master-bin.000001 # Query # # use `test`; update t1 set a=11 where a=15 master-bin.000001 # Query # # COMMIT master-bin.000001 # Gtid # # BEGIN GTID #-#-# master-bin.000001 # Query # # use `test`; insert into t1 values(1) master-bin.000001 # Query # # COMMIT master-bin.000001 # Gtid # # BEGIN GTID #-#-# master-bin.000001 # Query # # use `test`; insert ignore into t1 values(1) master-bin.000001 # Query # # COMMIT master-bin.000001 # Gtid # # BEGIN GTID #-#-# master-bin.000001 # Query # # use `test`; replace into t1 values(100) master-bin.000001 # Query # # COMMIT master-bin.000001 # Gtid # # GTID #-#-# master-bin.000001 # Query # # use `test`; create table t2 (a varchar(200)) engine=blackhole master-bin.000001 # Gtid # # BEGIN GTID #-#-# master-bin.000001 # Begin_load_query # # ;file_id=#;block_len=# master-bin.000001 # Execute_load_query # # use `test`; LOAD DATA INFILE '../../std_data/words.dat' INTO TABLE `t2` FIELDS TERMINATED BY '\t' ENCLOSED BY '' ESCAPED BY '\\' LINES TERMINATED BY '\n' (`a`) ;file_id=# master-bin.000001 # Query # # COMMIT master-bin.000001 # Gtid # # GTID #-#-# master-bin.000001 # Query # # use `test`; alter table t1 add b int master-bin.000001 # Gtid # # GTID #-#-# master-bin.000001 # Query # # use `test`; alter table t1 drop b master-bin.000001 # Gtid # # GTID #-#-# master-bin.000001 # Query # # use `test`; create table t3 like t1 master-bin.000001 # Gtid # # BEGIN GTID #-#-# master-bin.000001 # Query # # use `test`; insert into t1 select * from t3 master-bin.000001 # Query # # COMMIT master-bin.000001 # Gtid # # BEGIN GTID #-#-# master-bin.000001 # Query # # use `test`; replace into t1 select * from t3 master-bin.000001 # Query # # COMMIT drop table t1,t2,t3; CREATE TABLE t1(a INT) ENGINE=BLACKHOLE; INSERT DELAYED INTO t1 VALUES(1); DROP TABLE t1; CREATE TABLE t1(a INT, b INT) ENGINE=BLACKHOLE; DELETE FROM t1 WHERE a=10; ALTER TABLE t1 ADD INDEX(a); DELETE FROM t1 WHERE a=10; ALTER TABLE t1 DROP INDEX a; ALTER TABLE t1 ADD UNIQUE INDEX(a); DELETE FROM t1 WHERE a=10; ALTER TABLE t1 DROP INDEX a; ALTER TABLE t1 ADD PRIMARY KEY(a); DELETE FROM t1 WHERE a=10; DROP TABLE t1; reset master; create table t1 (a int) engine=blackhole; set autocommit=0; start transaction; insert into t1 values(1); commit; start transaction; insert into t1 values(2); rollback; set autocommit=1; drop table if exists t1; reset master; create table t1 (a int auto_increment, primary key (a)) engine=blackhole; insert into t1 values (11), (NULL), (NULL), (NULL); set insert_id= 3; insert into t1 values (NULL), (33), (NULL); set insert_id= 5; insert into t1 values (55), (NULL); show binlog events from ; Log_name Pos Event_type Server_id End_log_pos Info master-bin.000001 # Gtid_list 1 # [] master-bin.000001 # Binlog_checkpoint 1 # master-bin.000001 master-bin.000001 # Gtid 1 # GTID #-#-# master-bin.000001 # Query 1 # use `test`; create table t1 (a int auto_increment, primary key (a)) engine=blackhole master-bin.000001 # Gtid 1 # BEGIN GTID #-#-# master-bin.000001 # Intvar 1 # INSERT_ID=1 master-bin.000001 # Query 1 # use `test`; insert into t1 values (11), (NULL), (NULL), (NULL) master-bin.000001 # Query 1 # COMMIT master-bin.000001 # Gtid 1 # BEGIN GTID #-#-# master-bin.000001 # Intvar 1 # INSERT_ID=3 master-bin.000001 # Query 1 # use `test`; insert into t1 values (NULL), (33), (NULL) master-bin.000001 # Query 1 # COMMIT master-bin.000001 # Gtid 1 # BEGIN GTID #-#-# master-bin.000001 # Intvar 1 # INSERT_ID=5 master-bin.000001 # Query 1 # use `test`; insert into t1 values (55), (NULL) master-bin.000001 # Query 1 # COMMIT drop table t1;