polardbxengine/mysql-test/suite/ndb/r/ndb_index_unique.result

drop table if exists t1, t2, t3, t4, t5, t6, t7, t8;
CREATE TABLE t1 (
a int NOT NULL PRIMARY KEY,
b int not null,
c int,
UNIQUE ib(b)
) engine=ndbcluster;
insert t1 values(1, 2, 3), (2, 3, 5), (3, 4, 6), (4, 5, 8), (5,6, 2), (6,7, 2);
select * from t1 order by b;
a	b	c
1	2	3
2	3	5
3	4	6
4	5	8
5	6	2
6	7	2
select * from t1 where b = 4 order by b;
a	b	c
3	4	6
insert into t1 values(7,8,3);
select * from t1 where b = 4 order by a;
a	b	c
3	4	6
insert into t1 values(8, 2, 3);
ERROR 23000: Duplicate entry '2' for key 'ib'
select * from t1 order by a;
a	b	c
1	2	3
2	3	5
3	4	6
4	5	8
5	6	2
6	7	2
7	8	3
delete from t1 where a = 1;
insert into t1 values(8, 2, 3);
select * from t1 order by a;
a	b	c
2	3	5
3	4	6
4	5	8
5	6	2
6	7	2
7	8	3
8	2	3
alter table t1 drop index ib;
insert into t1 values(1, 2, 3);
create unique index ib on t1(b);
ERROR 23000: Can't write, because of unique constraint, to table 't1'
drop table t1;
CREATE TABLE t1 (
a int unsigned NOT NULL PRIMARY KEY,
b int unsigned,
c int unsigned,
UNIQUE bc(b,c)
) engine = ndb;
insert into t1 values(1,1,1),(2,NULL,2),(3,NULL,NULL),(4,4,NULL);
select * from t1 use index (bc) where b IS NULL order by a;
a	b	c
2	NULL	2
3	NULL	NULL
select * from t1 use index (bc)order by a;
a	b	c
1	1	1
2	NULL	2
3	NULL	NULL
4	4	NULL
select * from t1 use index (bc) order by a;
a	b	c
1	1	1
2	NULL	2
3	NULL	NULL
4	4	NULL
select * from t1 use index (PRIMARY) where b IS NULL order by a;
a	b	c
2	NULL	2
3	NULL	NULL
select * from t1 use index (bc) where b IS NULL order by a;
a	b	c
2	NULL	2
3	NULL	NULL
select * from t1 use index (bc) where b IS NULL and c IS NULL order by a;
a	b	c
3	NULL	NULL
select * from t1 use index (bc) where b IS NULL and c = 2 order by a;
a	b	c
2	NULL	2
select * from t1 use index (bc) where b < 4 order by a;
a	b	c
1	1	1
select * from t1 use index (bc) where b IS NOT NULL order by a;
a	b	c
1	1	1
4	4	NULL
insert into t1 values(5,1,1);
ERROR 23000: Duplicate entry '1-1' for key 'bc'
drop table t1;
CREATE TABLE t2 (
a int unsigned NOT NULL PRIMARY KEY,
b int unsigned not null,
c int unsigned not null,
UNIQUE (b, c) USING HASH	
) engine=ndbcluster;
insert t2 values(1, 2, 3), (2, 3, 5), (3, 4, 6), (4, 5, 8), (5,6, 2), (6,7, 2);
select * from t2 where a = 3;
a	b	c
3	4	6
select * from t2 where b = 4;
a	b	c
3	4	6
select * from t2 where c = 6;
a	b	c
3	4	6
insert into t2 values(7,8,3);
select * from t2 where b = 4 order by a;
a	b	c
3	4	6
insert into t2 values(8, 2, 3);
ERROR 23000: Duplicate entry '2-3' for key 'b'
select * from t2 order by a;
a	b	c
1	2	3
2	3	5
3	4	6
4	5	8
5	6	2
6	7	2
7	8	3
delete from t2 where a = 1;
insert into t2 values(8, 2, 3);
select * from t2 order by a;
a	b	c
2	3	5
3	4	6
4	5	8
5	6	2
6	7	2
7	8	3
8	2	3
create unique index bi using hash on t2(b);
insert into t2 values(9, 3, 1);
ERROR 23000: Duplicate entry '3' for key 'bi'
alter table t2 drop index bi;
insert into t2 values(9, 3, 1);
select * from t2 order by a;
a	b	c
2	3	5
3	4	6
4	5	8
5	6	2
6	7	2
7	8	3
8	2	3
9	3	1
drop table t2;
CREATE TABLE t2 (
a int unsigned NOT NULL PRIMARY KEY,
b int unsigned not null,
c int unsigned,
UNIQUE (b, c) USING HASH	
) engine=ndbcluster
comment="NDB_TABLE=PARTITION_BALANCE=FOR_RP_BY_LDM";
Warnings:
Warning	1121	Ndb does not support unique index on NULL valued attributes, index access with NULL value will become full table scan
insert t2 values(1,1,NULL),(2,2,2),(3,3,NULL),(4,4,4),(5,5,NULL),(6,6,6),(7,7,NULL),(8,3,NULL),(9,3,NULL);
select * from t2 where c IS NULL order by a;
a	b	c
1	1	NULL
3	3	NULL
5	5	NULL
7	7	NULL
8	3	NULL
9	3	NULL
select * from t2 where b = 3 AND c IS NULL order by a;
a	b	c
3	3	NULL
8	3	NULL
9	3	NULL
select * from t2 where (b = 3 OR b = 5) AND c IS NULL order by a;
a	b	c
3	3	NULL
5	5	NULL
8	3	NULL
9	3	NULL
set @old_os = @@session.optimizer_switch;
set optimizer_switch = 'engine_condition_pushdown=on';
explain select * from t2 where (b = 3 OR b = 5) AND c IS NULL AND a < 9 order by a;
id	select_type	table	partitions	type	possible_keys	key	key_len	ref	rows	filtered	Extra
1	SIMPLE	t2	p0,p1,p2,p3,p4,p5,p6,p7	range	PRIMARY,b	b	9	NULL	#	#	Using pushed condition (((`test`.`t2`.`b` = 3) or (`test`.`t2`.`b` = 5)) and (`test`.`t2`.`c` is null) and (`test`.`t2`.`a` < 9)); Using filesort
Warnings:
Note	1003	/* select#1 */ select `test`.`t2`.`a` AS `a`,`test`.`t2`.`b` AS `b`,`test`.`t2`.`c` AS `c` from `test`.`t2` where (((`test`.`t2`.`b` = 3) or (`test`.`t2`.`b` = 5)) and (`test`.`t2`.`c` is null) and (`test`.`t2`.`a` < 9)) order by `test`.`t2`.`a`
select * from t2 where (b = 3 OR b = 5) AND c IS NULL AND a < 9 order by a;
a	b	c
3	3	NULL
5	5	NULL
8	3	NULL
set optimizer_switch = @old_os;
drop table t2;
CREATE TABLE t3 (
a int unsigned NOT NULL,
b int unsigned not null,
c int unsigned,
PRIMARY KEY (a, b) USING HASH         
) engine=ndbcluster;
insert t3 values(1, 2, 3), (2, 3, 5), (3, 4, 6), (4, 5, 8), (5,6, 2), (6,7, 2);
select * from t3 where a = 3;
a	b	c
3	4	6
select * from t3 where b = 4;
a	b	c
3	4	6
select * from t3 where c = 6;
a	b	c
3	4	6
insert into t3 values(7,8,3);
select * from t3 where b = 4 order by a;
a	b	c
3	4	6
drop table t3;
CREATE TABLE t1 (
pk int NOT NULL PRIMARY KEY,
a int unsigned,
UNIQUE KEY (a)
) engine=ndbcluster;
insert into t1 values (-1,NULL), (0,0), (1,NULL),(2,2),(3,NULL),(4,4);
select * from t1 order by pk;
pk	a
-1	NULL
0	0
1	NULL
2	2
3	NULL
4	4
insert into t1 values (5,0);
ERROR 23000: Duplicate entry '0' for key 'a'
select * from t1 order by pk;
pk	a
-1	NULL
0	0
1	NULL
2	2
3	NULL
4	4
delete from t1 where a = 0;
insert into t1 values (5,0);
select * from t1 order by pk;
pk	a
-1	NULL
1	NULL
2	2
3	NULL
4	4
5	0
CREATE TABLE t2 (
pk int NOT NULL PRIMARY KEY,
a int unsigned,
b tinyint NOT NULL,
c VARCHAR(10),
UNIQUE KEY si(a, c)
) engine=ndbcluster;
insert into t2 values (-1,1,17,NULL),(0,NULL,18,NULL),(1,3,19,'abc');
select * from t2 order by pk;
pk	a	b	c
-1	1	17	NULL
0	NULL	18	NULL
1	3	19	abc
insert into t2 values(2,3,19,'abc');
ERROR 23000: Duplicate entry '3-abc' for key 'si'
select * from t2 order by pk;
pk	a	b	c
-1	1	17	NULL
0	NULL	18	NULL
1	3	19	abc
delete from t2 where c IS NOT NULL;
insert into t2 values(2,3,19,'abc');
select * from t2 order by pk;
pk	a	b	c
-1	1	17	NULL
0	NULL	18	NULL
2	3	19	abc
drop table t1, t2;
CREATE TABLE t1 (
cid smallint(5) unsigned NOT NULL default '0',
cv varchar(250) NOT NULL default '',
PRIMARY KEY  (cid),
UNIQUE KEY cv (cv)
) engine=ndbcluster;
Warnings:
Warning	1681	Integer display width is deprecated and will be removed in a future release.
INSERT INTO t1 VALUES (8,'dummy');
CREATE TABLE t2 (
cid bigint(20) unsigned NOT NULL auto_increment,
cap varchar(255) NOT NULL default '',
PRIMARY KEY  (cid),
UNIQUE KEY (cid, cap)
) engine=ndbcluster;
Warnings:
Warning	1681	Integer display width is deprecated and will be removed in a future release.
INSERT INTO t2 VALUES (NULL,'another dummy');
CREATE TABLE t3 (
gid bigint(20) unsigned NOT NULL auto_increment,
gn varchar(255) NOT NULL default '',
must tinyint(4) default NULL,
PRIMARY KEY  (gid)
) engine=ndbcluster;
Warnings:
Warning	1681	Integer display width is deprecated and will be removed in a future release.
Warning	1681	Integer display width is deprecated and will be removed in a future release.
INSERT INTO t3 VALUES (1,'V1',NULL);
CREATE TABLE t4 (
uid bigint(20) unsigned NOT NULL default '0',
gid bigint(20) unsigned NOT NULL,
rid bigint(20) unsigned NOT NULL,
cid bigint(20) unsigned NOT NULL,
UNIQUE KEY m (uid,gid,rid,cid)
) engine=ndbcluster;
Warnings:
Warning	1681	Integer display width is deprecated and will be removed in a future release.
Warning	1681	Integer display width is deprecated and will be removed in a future release.
Warning	1681	Integer display width is deprecated and will be removed in a future release.
Warning	1681	Integer display width is deprecated and will be removed in a future release.
INSERT INTO t4 VALUES (1,1,2,4);
INSERT INTO t4 VALUES (1,1,2,3);
INSERT INTO t4 VALUES (1,1,5,7);
INSERT INTO t4 VALUES (1,1,10,8);
CREATE TABLE t5 (
rid bigint(20) unsigned NOT NULL auto_increment,
rl varchar(255) NOT NULL default '',
PRIMARY KEY  (rid)
) engine=ndbcluster;
Warnings:
Warning	1681	Integer display width is deprecated and will be removed in a future release.
CREATE TABLE t6 (
uid bigint(20) unsigned NOT NULL auto_increment,
un varchar(250) NOT NULL default '',
uc smallint(5) unsigned NOT NULL default '0',
PRIMARY KEY  (uid),
UNIQUE KEY nc (un,uc)
) engine=ndbcluster;
Warnings:
Warning	1681	Integer display width is deprecated and will be removed in a future release.
Warning	1681	Integer display width is deprecated and will be removed in a future release.
INSERT INTO t6 VALUES (1,'test',8);
INSERT INTO t6 VALUES (2,'test2',9);
INSERT INTO t6 VALUES (3,'tre',3);
CREATE TABLE t7 (
mid bigint(20) unsigned NOT NULL PRIMARY KEY,
uid bigint(20) unsigned NOT NULL default '0',
gid bigint(20) unsigned NOT NULL,
rid bigint(20) unsigned NOT NULL,
cid bigint(20) unsigned NOT NULL,
UNIQUE KEY m (uid,gid,rid,cid)
) engine=ndbcluster;
Warnings:
Warning	1681	Integer display width is deprecated and will be removed in a future release.
Warning	1681	Integer display width is deprecated and will be removed in a future release.
Warning	1681	Integer display width is deprecated and will be removed in a future release.
Warning	1681	Integer display width is deprecated and will be removed in a future release.
Warning	1681	Integer display width is deprecated and will be removed in a future release.
INSERT INTO t7 VALUES(1, 1, 1, 1, 1);
INSERT INTO t7 VALUES(2, 2, 1, 1, 1);
INSERT INTO t7 VALUES(3, 3, 1, 1, 1);
INSERT INTO t7 VALUES(4, 4, 1, 1, 1);
INSERT INTO t7 VALUES(5, 5, 1, 1, 1);
INSERT INTO t7 VALUES(6, 1, 1, 1, 6);
INSERT INTO t7 VALUES(7, 2, 1, 1, 7);
INSERT INTO t7 VALUES(8, 3, 1, 1, 8);
INSERT INTO t7 VALUES(9, 4, 1, 1, 9);
INSERT INTO t7 VALUES(10, 5, 1, 1, 10);
select * from t1 where cv = 'dummy';
cid	cv
8	dummy
select * from t1 where cv = 'test';
cid	cv
select * from t2 where cap = 'another dummy';
cid	cap
1	another dummy
select * from t4 where uid = 1 and gid=1 and rid=2 and cid=4;
uid	gid	rid	cid
1	1	2	4
select * from t4 where uid = 1 and gid=1 and rid=1 and cid=4;
uid	gid	rid	cid
select * from t4 where uid = 1 order by cid;
uid	gid	rid	cid
1	1	2	3
1	1	2	4
1	1	5	7
1	1	10	8
select * from t4 where rid = 2 order by cid;
uid	gid	rid	cid
1	1	2	3
1	1	2	4
select * from t6 where un='test' and uc=8;
uid	un	uc
1	test	8
select * from t6 where un='test' and uc=7;
uid	un	uc
select * from t6 where un='test';
uid	un	uc
1	test	8
select * from t7 where mid = 8;
mid	uid	gid	rid	cid
8	3	1	1	8
select * from t7 where uid = 8;
mid	uid	gid	rid	cid
select * from t7 where uid = 1 order by mid;
mid	uid	gid	rid	cid
1	1	1	1	1
6	1	1	1	6
select * from t7 where uid = 4 order by mid;
mid	uid	gid	rid	cid
4	4	1	1	1
9	4	1	1	9
select * from t7 where gid = 4;
mid	uid	gid	rid	cid
select * from t7 where gid = 1 order by mid;
mid	uid	gid	rid	cid
1	1	1	1	1
2	2	1	1	1
3	3	1	1	1
4	4	1	1	1
5	5	1	1	1
6	1	1	1	6
7	2	1	1	7
8	3	1	1	8
9	4	1	1	9
10	5	1	1	10
select * from t7 where cid = 4;
mid	uid	gid	rid	cid
select * from t7 where cid = 8;
mid	uid	gid	rid	cid
8	3	1	1	8
select * from t4 where uid = 1 and gid=1 and rid=2 and cid=4;
uid	gid	rid	cid
1	1	2	4
select * from t4 where uid = 1 and gid=1 and rid=1 and cid=4;
uid	gid	rid	cid
select * from t4 where uid = 1 order by gid,cid;
uid	gid	rid	cid
1	1	2	3
1	1	2	4
1	1	5	7
1	1	10	8
1	1	5	12
1	2	5	12
1	3	9	11
1	3	5	12
1	4	5	12
1	5	5	12
1	6	5	12
1	7	5	12
1	8	5	12
1	9	5	12
1	10	5	12
1	11	5	12
1	12	5	12
1	13	5	12
1	14	5	12
1	15	5	12
1	16	5	12
1	17	5	12
1	18	5	12
1	19	5	12
1	20	5	12
1	21	5	12
1	22	5	12
1	23	5	12
1	24	5	12
1	25	5	12
1	26	5	12
1	27	5	12
1	28	5	12
1	29	5	12
1	30	5	12
1	31	5	12
1	32	5	12
1	33	5	12
1	34	5	12
1	35	5	12
1	36	5	12
1	37	5	12
1	38	5	12
1	39	5	12
1	40	5	12
1	41	5	12
1	42	5	12
1	43	5	12
1	44	5	12
1	45	5	12
1	46	5	12
1	47	5	12
1	48	5	12
1	49	5	12
1	50	5	12
1	51	5	12
1	52	5	12
1	53	5	12
1	54	5	12
1	55	5	12
1	56	5	12
1	57	5	12
1	58	5	12
1	59	5	12
1	60	5	12
1	61	5	12
1	62	5	12
1	63	5	12
1	64	5	12
1	65	5	12
1	66	5	12
1	67	5	12
1	68	5	12
1	69	5	12
1	70	5	12
1	71	5	12
1	72	5	12
1	73	5	12
1	74	5	12
1	75	5	12
1	76	5	12
1	77	5	12
1	78	5	12
1	79	5	12
1	80	5	12
1	81	5	12
1	82	5	12
1	83	5	12
1	84	5	12
1	85	5	12
1	86	5	12
1	87	5	12
1	88	5	12
1	89	5	12
1	90	5	12
1	91	5	12
1	92	5	12
1	93	5	12
1	94	5	12
1	95	5	12
1	96	5	12
1	97	5	12
1	98	5	12
1	99	5	12
1	100	5	12
select * from t4 where uid = 1 order by gid,cid;
uid	gid	rid	cid
1	1	2	3
1	1	2	4
1	1	5	7
1	1	10	8
1	1	5	12
1	2	5	12
1	3	9	11
1	3	5	12
1	4	5	12
1	5	5	12
1	6	5	12
1	7	5	12
1	8	5	12
1	9	5	12
1	10	5	12
1	11	5	12
1	12	5	12
1	13	5	12
1	14	5	12
1	15	5	12
1	16	5	12
1	17	5	12
1	18	5	12
1	19	5	12
1	20	5	12
1	21	5	12
1	22	5	12
1	23	5	12
1	24	5	12
1	25	5	12
1	26	5	12
1	27	5	12
1	28	5	12
1	29	5	12
1	30	5	12
1	31	5	12
1	32	5	12
1	33	5	12
1	34	5	12
1	35	5	12
1	36	5	12
1	37	5	12
1	38	5	12
1	39	5	12
1	40	5	12
1	41	5	12
1	42	5	12
1	43	5	12
1	44	5	12
1	45	5	12
1	46	5	12
1	47	5	12
1	48	5	12
1	49	5	12
1	50	5	12
1	51	5	12
1	52	5	12
1	53	5	12
1	54	5	12
1	55	5	12
1	56	5	12
1	57	5	12
1	58	5	12
1	59	5	12
1	60	5	12
1	61	5	12
1	62	5	12
1	63	5	12
1	64	5	12
1	65	5	12
1	66	5	12
1	67	5	12
1	68	5	12
1	69	5	12
1	70	5	12
1	71	5	12
1	72	5	12
1	73	5	12
1	74	5	12
1	75	5	12
1	76	5	12
1	77	5	12
1	78	5	12
1	79	5	12
1	80	5	12
1	81	5	12
1	82	5	12
1	83	5	12
1	84	5	12
1	85	5	12
1	86	5	12
1	87	5	12
1	88	5	12
1	89	5	12
1	90	5	12
1	91	5	12
1	92	5	12
1	93	5	12
1	94	5	12
1	95	5	12
1	96	5	12
1	97	5	12
1	98	5	12
1	99	5	12
1	100	5	12
select * from t4 where rid = 2 order by cid;
uid	gid	rid	cid
1	1	2	3
1	1	2	4
drop table t1,t2,t3,t4,t5,t6,t7;
CREATE TABLE t1 (   
a int unsigned NOT NULL PRIMARY KEY,
b int unsigned,   
c int unsigned, 
UNIQUE bc(b,c) ) engine = ndb;
insert into t1 values(1,1,1),(2,NULL,2),(3,NULL,NULL),(4,4,NULL);
select * from t1 where b=1 and c=1;
a	b	c
1	1	1
select * from t1 where b is null and c is null;
a	b	c
3	NULL	NULL
select * from t1 where b is null and c = 2;
a	b	c
2	NULL	2
select * from t1 where b = 4 and c is null;
a	b	c
4	4	NULL
create table t8 as 
select * from t1 where (b = 1 and c = 1)
or (b is null and c is null) 
or (b is null and c = 2)
or (b = 4 and c is null);
select * from t8 order by a;
a	b	c
1	1	1
2	NULL	2
3	NULL	NULL
4	4	NULL
select * from t1 order by a;
a	b	c
1	1	1
2	NULL	2
3	NULL	NULL
4	4	NULL
drop table t1, t8;
create table t1(
id integer not null auto_increment,
month integer not null,
year integer not null,
code varchar( 2) not null,
primary key ( id),
unique idx_t1( month, code, year)
) engine=ndb;
INSERT INTO t1 (month, year, code) VALUES (4,2004,'12');
INSERT INTO t1 (month, year, code) VALUES (5,2004,'12');
select * from t1 where code = '12' and month = 4 and year = 2004 ;
id	month	year	code
1	4	2004	12
drop table t1;
create table t1 (a int primary key, b varchar(1000) not null, unique key (b))
engine=ndb charset=utf8;
Warnings:
Warning	3719	'utf8' is currently an alias for the character set UTF8MB3, but will be an alias for UTF8MB4 in a future release. Please consider using UTF8MB4 in order to be unambiguous.
insert into t1 values (1, repeat(_utf8 0xe288ab6474, 200));
Warnings:
Warning	3719	'utf8' is currently an alias for the character set UTF8MB3, but will be an alias for UTF8MB4 in a future release. Please consider using UTF8MB4 in order to be unambiguous.
insert into t1 values (2, repeat(_utf8 0xe288ab6474, 200));
ERROR 23000: Duplicate entry '∫dt∫dt∫dt∫dt∫dt∫dt∫dt∫dt∫dt∫dt∫dt∫dt∫d' for key 'b'
select a, sha1(b) from t1;
a	sha1(b)
1	08f5d02c8b8bc244f275bdfc22c42c5cab0d9d7d
drop table t1;
create table t1(id int not null) engine = NDB;
alter table t1 add constraint uk_test unique (id) using hash;
drop table t1;
CREATE TABLE t1 (
pk0 INT,
pk1 VARCHAR(100),
col0 INT NOT NULL,
PRIMARY KEY(pk0, pk1),
UNIQUE (col0) USING HASH
) engine = ndb;
CREATE TABLE t2 (
pk0 VARCHAR(100),
pk1 INT,
col0 INT NOT NULL,
PRIMARY KEY(pk0, pk1),
UNIQUE (col0) USING HASH
) engine = ndb;
drop table t1, t2;
CREATE LOGFILE GROUP lg1
ADD UNDOFILE 'undofile.dat'
INITIAL_SIZE 8M
UNDO_BUFFER_SIZE = 1M engine=ndb;
CREATE TABLESPACE ts1
ADD DATAFILE 'datafile.dat'
USE LOGFILE GROUP lg1
INITIAL_SIZE 32M
ENGINE NDB;
use test;
create table t1 (pk int primary key, un int, data varchar(500) storage disk) tablespace ts1 engine=ndb;
insert into t1 values 
(1,1,repeat('B', 500)),
(2,2,repeat('B', 500)),
(3,3,repeat('B', 500)),
(4,4,repeat('B', 500)),
(5,5,repeat('B', 500)),
(6,6,repeat('B', 500)),
(7,7,repeat('B', 500)),
(8,8,repeat('B', 500)),
(9,9,repeat('B', 500)),
(10,10,repeat('B', 500)),
(11,11,repeat('B', 500)),
(12,12,repeat('B', 500)),
(13,13,repeat('B', 500)),
(14,14,repeat('B', 500)),
(15,15,repeat('B', 500));
alter table t1 add unique(un);
drop table t1;
alter tablespace ts1 drop datafile 'datafile.dat';
drop tablespace ts1;
drop logfile group lg1 engine=ndb;
# bug#57032
create table t1 (
a int not null,
b int,
primary key using hash (a),
unique key using hash (b)
)
engine ndb;
Warnings:
Warning	1121	Ndb does not support unique index on NULL valued attributes, index access with NULL value will become full table scan
insert into t1 values
(0,0),(1,1),(2,2),(3,3),(4,4),
(5,null),(6,null),(7,null),(8,null),(9,null);
set optimizer_switch = 'engine_condition_pushdown=off';
select a from t1 where b is not null order by a;
a
0
1
2
3
4
select a from t1 where b is null order by a;
a
5
6
7
8
9
set optimizer_switch = 'engine_condition_pushdown=on';
select a from t1 where b is not null order by a;
a
0
1
2
3
4
select a from t1 where b is null order by a;
a
5
6
7
8
9
set optimizer_switch = @old_os;
drop table t1;
create table t1 (
a int not null,
b int,
c int,
primary key using hash (a),
unique key using hash (b,c)
)
engine ndb;
Warnings:
Warning	1121	Ndb does not support unique index on NULL valued attributes, index access with NULL value will become full table scan
insert into t1 values
(0,0,0),(1,1,1),(2,2,1),(3,3,1),(4,4,2),
(5,null,0),(6,null,1),(7,null,1),(8,null,1),(9,null,2),
(10,0,null),(11,1,null),(12,1,null),(13,1,null),(14,2,null),
(15,null,null),(16,null,null),(17,null,null),(18,null,null),(19,null,null);
set optimizer_switch = 'engine_condition_pushdown=off';
select a from t1 where b is not null and c = 1 order by a;
a
1
2
3
select a from t1 where b is null and c = 1 order by a;
a
6
7
8
select a from t1 where b = 1 and c is null order by a;
a
11
12
13
select a from t1 where b is null and c is null order by a;
a
15
16
17
18
19
select a from t1 where b is not null and c is null order by a;
a
10
11
12
13
14
select a from t1 where b is null and c is not null order by a;
a
5
6
7
8
9
select a from t1 where b is not null and c is not null order by a;
a
0
1
2
3
4
set optimizer_switch = 'engine_condition_pushdown=on';
select a from t1 where b is not null and c = 1 order by a;
a
1
2
3
select a from t1 where b is null and c = 1 order by a;
a
6
7
8
select a from t1 where b = 1 and c is null order by a;
a
11
12
13
select a from t1 where b is null and c is null order by a;
a
15
16
17
18
19
select a from t1 where b is not null and c is null order by a;
a
10
11
12
13
14
select a from t1 where b is null and c is not null order by a;
a
5
6
7
8
9
select a from t1 where b is not null and c is not null order by a;
a
0
1
2
3
4
set optimizer_switch = @old_os;
drop table t1;
create table t1 (pk int primary key, a int) engine=ndb
comment="NDB_TABLE=PARTITION_BALANCE=FOR_RP_BY_LDM";
create table t2 (pk int primary key, uq int, a int, 
unique key ix(uq,a) USING HASH) engine=ndb
comment="NDB_TABLE=PARTITION_BALANCE=FOR_RP_BY_LDM";
Warnings:
Warning	1121	Ndb does not support unique index on NULL valued attributes, index access with NULL value will become full table scan
insert into t2 values
(0,0,0), (1,1,0), (2,2,0), (3,3,0), (4,4,0),
(5,5,1), (6,6,1), (7,7,1), (8,8,1), (9,9,1);
insert into t1
select
t1.pk + t2.pk*10 + t3.pk*100 + t4.pk*1000, t1.a
from
t2 as t1, t2 as t2, t2 as t3, t2 as t4;
explain
SELECT STRAIGHT_JOIN count(*) FROM 
t1 JOIN t2 ON t2.a=t1.a where t2.uq IS NULL;
id	select_type	table	partitions	type	possible_keys	key	key_len	ref	rows	filtered	Extra
1	SIMPLE	t1	p0,p1,p2,p3,p4,p5,p6,p7	ALL	NULL	NULL	NULL	NULL	10000	100.00	Using pushed condition (`test`.`t1`.`a` is not null)
1	SIMPLE	t2	p0,p1,p2,p3,p4,p5,p6,p7	ref	ix	ix	10	const,test.t1.a	1	100.00	Using pushed condition (`test`.`t2`.`uq` is null)
Warnings:
Note	1003	/* select#1 */ select straight_join count(0) AS `count(*)` from `test`.`t1` join `test`.`t2` where ((`test`.`t2`.`a` = `test`.`t1`.`a`) and (`test`.`t2`.`uq` is null))
SELECT STRAIGHT_JOIN count(*) FROM 
t1 JOIN t2 ON t2.a=t1.a where t2.uq IS NULL;
count(*)
0
drop table t1,t2;
CREATE TABLE t1 (
i int
) ENGINE=ndbcluster
COMMENT="NDB_TABLE=PARTITION_BALANCE=FOR_RP_BY_LDM";
INSERT INTO t1 VALUES (1);
CREATE TABLE t2 (
col_int_unique int,
UNIQUE KEY ix1 (col_int_unique) USING HASH
) ENGINE=ndbcluster
COMMENT="NDB_TABLE=PARTITION_BALANCE=FOR_RP_BY_LDM";
Warnings:
Warning	1121	Ndb does not support unique index on NULL valued attributes, index access with NULL value will become full table scan
INSERT INTO t2 VALUES (42);
EXPLAIN SELECT * FROM t1 WHERE i IN
(SELECT t2.col_int_unique FROM t2) IS TRUE;
id	select_type	table	partitions	type	possible_keys	key	key_len	ref	rows	filtered	Extra
1	SIMPLE	t1	p0,p1,p2,p3,p4,p5,p6,p7	ALL	NULL	NULL	NULL	NULL	2	100.00	Parent of 2 pushed join@1; Using pushed condition (`test`.`t1`.`i` is not null)
1	SIMPLE	t2	p0,p1,p2,p3,p4,p5,p6,p7	eq_ref	ix1	ix1	5	test.t1.i	1	100.00	Child of 't1' in pushed join@1
Warnings:
Note	1003	/* select#1 */ select `test`.`t1`.`i` AS `i` from `test`.`t2` join `test`.`t1` where (`test`.`t2`.`col_int_unique` = `test`.`t1`.`i`)
create temporary table row_counts_at_startup 
select * 
from performance_schema.session_status
WHERE variable_name LIKE 'NDB_API_READ_ROW_COUNT';
SELECT * FROM t1 WHERE i IN
(SELECT t2.col_int_unique FROM t2) IS TRUE;
i
SELECT * FROM t1 WHERE i IN
(SELECT t2.col_int_unique FROM t2) IS FALSE;
i
1
SELECT * FROM t1 WHERE i IN
(SELECT t2.col_int_unique FROM t2) IS UNKNOWN;
i
SELECT * FROM t1 WHERE i IN
(SELECT t2.col_int_unique FROM t2) IS NOT TRUE;
i
1
SELECT * FROM t1 WHERE i IN
(SELECT t2.col_int_unique FROM t2) IS NOT FALSE;
i
SELECT * FROM t1 WHERE i IN
(SELECT t2.col_int_unique FROM t2) IS NOT UNKNOWN;
i
1
create temporary table row_counts_at_end
select * 
from performance_schema.session_status
WHERE variable_name LIKE 'NDB_API_READ_ROW_COUNT';
select row_counts_at_end.VARIABLE_NAME,
row_counts_at_end.VARIABLE_VALUE - row_counts_at_startup.VARIABLE_VALUE 
from row_counts_at_end, row_counts_at_startup 
where row_counts_at_end.VARIABLE_NAME = row_counts_at_startup.VARIABLE_NAME;
VARIABLE_NAME	row_counts_at_end.VARIABLE_VALUE - row_counts_at_startup.VARIABLE_VALUE
Ndb_api_read_row_count	6
drop table row_counts_at_end;
drop table row_counts_at_startup;
drop table t1,t2;
#
# Bug#21777589 : UNIQUE KEY IS PARTIALLY DROPPED FROM MYSQLD EVEN WHEN A 'DROP INDEX' FAILS
# Bug#22104597 : DROP INDEX FAILURE CORRUPTS THE INDEX METADATA IN MYSQLD
#
# Create table t1 with multiple keys
create table t1(
a int,
b int,
unique key uk1(a),
unique key uk2(b) using hash
)engine=ndb;
Warnings:
Warning	1121	Ndb does not support unique index on NULL valued attributes, index access with NULL value will become full table scan
# Create table t2 with a fk based on t1's uk
create table t2(
a int,
b int,
c int,
foreign key fk1(a) references t1(a),
unique key uk3(b),
unique key uk4(c)
)engine=ndb;
# Try dropping uk1. should fail with correct uk constraint
drop index uk1 on t1;
ERROR HY000: Cannot drop index 'uk1': needed in a foreign key constraint
# Perform a select from t1 to verify the index has not been partially dropped
# also to ensure the ordering in m_index is intact
select * from t1;
a	b
# Try dropping uk2 now. should be dropped without any problem
drop index uk2 on t1;
# Verify through show create table
show create table t1;
Table	Create Table
t1	CREATE TABLE `t1` (
  `a` int(11) DEFAULT NULL,
  `b` int(11) DEFAULT NULL,
  UNIQUE KEY `uk1` (`a`)
) ENGINE=ndbcluster DEFAULT CHARSET=utf8mb4 COLLATE=utf8mb4_0900_ai_ci
# Make sure dropping multiple indexes together works
alter table t2 drop index uk3, drop index uk4;
# Verify through show create table
show create table t1;
Table	Create Table
t1	CREATE TABLE `t1` (
  `a` int(11) DEFAULT NULL,
  `b` int(11) DEFAULT NULL,
  UNIQUE KEY `uk1` (`a`)
) ENGINE=ndbcluster DEFAULT CHARSET=utf8mb4 COLLATE=utf8mb4_0900_ai_ci
# cleanup
drop table t2,t1;
#
# Bug#22110051 : ASSERTION IN PROTOCOL::END_STATEMENT DURING DROP INDEX
#
# Create table t1 with unique key
create table t1(
a int not null,
b int not null,
unique key uk1(a),
unique key uk2(b)
)engine=ndb;
# Create table t2 with a fk mapped to t1(a)
create table t2(
a int,
constraint fk1 foreign key (a) references t1(a)
)engine=ndb;
# desc t1 to show the implicit pk
desc t1;
Field	Type	Null	Key	Default	Extra
a	int(11)	NO	PRI	NULL	
b	int(11)	NO	UNI	NULL	
# Drop index uk1 - it should fail
drop index uk1 on t1;
ERROR HY000: Cannot drop index 'uk1': needed in a foreign key constraint
# Verify table is intact
show create table t1;
Table	Create Table
t1	CREATE TABLE `t1` (
  `a` int(11) NOT NULL,
  `b` int(11) NOT NULL,
  UNIQUE KEY `uk1` (`a`),
  UNIQUE KEY `uk2` (`b`)
) ENGINE=ndbcluster DEFAULT CHARSET=utf8mb4 COLLATE=utf8mb4_0900_ai_ci
# Modify column on t1 - remove not null
alter table t1 modify column a int;
# verify that pk is now on b.
desc t1;
Field	Type	Null	Key	Default	Extra
a	int(11)	YES	UNI	NULL	
b	int(11)	NO	PRI	NULL	
show create table t1;
Table	Create Table
t1	CREATE TABLE `t1` (
  `a` int(11) DEFAULT NULL,
  `b` int(11) NOT NULL,
  UNIQUE KEY `uk2` (`b`),
  UNIQUE KEY `uk1` (`a`)
) ENGINE=ndbcluster DEFAULT CHARSET=utf8mb4 COLLATE=utf8mb4_0900_ai_ci
# Verify that the fk constraint is intact through inserts
insert into t1 values (1,10), (2,20), (3,30);
insert into t2 values (1), (2), (3);
insert into t2 values (4);
ERROR 23000: Cannot add or update a child row: a foreign key constraint fails (`test`.`t2`, CONSTRAINT `fk1` FOREIGN KEY (`a`) REFERENCES `t1` (`a`) ON DELETE NO ACTION ON UPDATE NO ACTION)
# Try removing uk2. should pass.
alter table t1 drop index uk2;
# Verify that everything is fine.
desc t1;
Field	Type	Null	Key	Default	Extra
a	int(11)	YES	UNI	NULL	
b	int(11)	NO		NULL	
show create table t1;
Table	Create Table
t1	CREATE TABLE `t1` (
  `a` int(11) DEFAULT NULL,
  `b` int(11) NOT NULL,
  UNIQUE KEY `uk1` (`a`)
) ENGINE=ndbcluster DEFAULT CHARSET=utf8mb4 COLLATE=utf8mb4_0900_ai_ci
# Verify that the fk constraint is intact through inserts
insert into t2 values (1), (2), (3);
insert into t2 values (4);
ERROR 23000: Cannot add or update a child row: a foreign key constraint fails (`test`.`t2`, CONSTRAINT `fk1` FOREIGN KEY (`a`) REFERENCES `t1` (`a`) ON DELETE NO ACTION ON UPDATE NO ACTION)
#cleanup
drop table t2, t1;