create table t2 (sal int(10));
create aggregate function f1(x INT) returns int
begin
declare continue handler for not found return 0;
loop
fetch group next row;
insert into t2 (sal) values (x);
end loop;
end|
create table t1 (sal int(10),id int(10));
INSERT INTO t1 (sal,id) VALUES (5000,1);
INSERT INTO t1 (sal,id) VALUES (2000,1);
INSERT INTO t1 (sal,id) VALUES (1000,1);
select f1(sal) from t1 where id>= 1;
f1(sal)
0
Warnings:
Note	4094	At line 5 in test.f1
Note	4094	At line 5 in test.f1
Note	4094	At line 5 in test.f1
select * from t2;
sal
5000
2000
1000
drop table t2;
drop function f1;
create aggregate function f1(x INT) returns INT
begin
insert into t1(sal) values (x);
return x;
end|
ERROR HY000: Aggregate specific instruction(FETCH GROUP NEXT ROW) missing from the aggregate function
create function f1(x INT) returns INT
begin
set x=5;
fetch group next row;
return x+1;
end |
ERROR HY000: Aggregate specific instruction (FETCH GROUP NEXT ROW) used in a wrong context
create aggregate function f1(x INT) returns INT
begin
declare continue handler for not found return x;
loop
fetch group next row;
end loop;
end |
select f1(1);
f1(1)
1
show create function f1;
Function	sql_mode	Create Function	character_set_client	collation_connection	Database Collation
f1	STRICT_TRANS_TABLES,ERROR_FOR_DIVISION_BY_ZERO,NO_AUTO_CREATE_USER,NO_ENGINE_SUBSTITUTION	CREATE DEFINER=`root`@`localhost` AGGREGATE FUNCTION `f1`(x INT) RETURNS int(11)
begin
declare continue handler for not found return x;
loop
fetch group next row;
end loop;
end	latin1	latin1_swedish_ci	utf8mb4_uca1400_ai_ci
alter function f1 aggregate none;
ERROR 42000: You have an error in your SQL syntax; check the manual that corresponds to your MariaDB server version for the right syntax to use near 'aggregate none' at line 1
show create function f1;
Function	sql_mode	Create Function	character_set_client	collation_connection	Database Collation
f1	STRICT_TRANS_TABLES,ERROR_FOR_DIVISION_BY_ZERO,NO_AUTO_CREATE_USER,NO_ENGINE_SUBSTITUTION	CREATE DEFINER=`root`@`localhost` AGGREGATE FUNCTION `f1`(x INT) RETURNS int(11)
begin
declare continue handler for not found return x;
loop
fetch group next row;
end loop;
end	latin1	latin1_swedish_ci	utf8mb4_uca1400_ai_ci
select f1(1);
f1(1)
1
drop function f1;
create aggregate function f2(i int) returns int
begin
FEtCH GROUP NEXT ROW;
if i <= 0 then
return 0;
elseif i = 1  then
return (select count(*) from t1 where id = i);
else
return (select count(*) + f2( i - 1) from t1 where id = i);
end if;
end|
select f2(1)|
f2(1)
3
select f2(2)|
ERROR HY000: Recursive stored functions and triggers are not allowed
select f2(3)|
ERROR HY000: Recursive stored functions and triggers are not allowed
drop function f2|
create aggregate function f1(x int) returns int
begin
declare mini int default 0;
declare continue handler for not found return mini;
loop
fetch group next row;
set mini= mini+x;
fetch group next row;
end loop;
end|
select f1(10);
f1(10)
10
select f1(sal) from t1;
f1(sal)
6000
select f1(sal) from t1 where 1=0;
f1(sal)
NULL
drop function f1;
create aggregate function f1(x int) returns int
begin
declare mini int default 0;
LOOP
FETCH GROUP NEXT ROW;
set mini = mini + x;
END LOOP;
end|
ERROR 42000: No RETURN found in FUNCTION test.f1
create aggregate function f1(x int) returns int
begin
declare mini int default 0;
LOOP
FETCH GROUP NEXT ROW;
set mini = mini + x;
END LOOP;
return -1;
end|
select f1(sal) from t1|
ERROR 02000: No data - zero rows fetched, selected, or processed
drop function f1|
create aggregate function f1(x int) returns int
begin
declare mini int default 0;
declare continue handler for not found return mini;
FETCH GROUP NEXT ROW;
set mini = mini + x;
end|
select f1(sal) from t1|
ERROR 2F005: FUNCTION f1 ended without RETURN
drop function f1|
create aggregate function f1(x int) returns int
begin
declare mini int default 0;
declare continue handler for not found set mini=-1;
LOOP
FETCH GROUP NEXT ROW;
set mini = mini + x;
END LOOP;
return 0;
end|
select f1(sal) from t1|
ERROR 2F005: FUNCTION f1 ended without RETURN
drop function f1|
drop table t1|
create table t1 (sal int, id int, val int, counter int, primary key(id));
INSERT INTO t1 (sal, id, val, counter) VALUES (1000, 1, 10, 2);
INSERT INTO t1 (sal, id, val, counter) VALUES (2000, 2, 16, 2);
INSERT INTO t1 (sal, id, val, counter) VALUES (6000, 3, 18, 1);
INSERT INTO t1 (sal, id, val, counter) VALUES (5000, 4, 15, 3);
INSERT INTO t1 (sal, id, val, counter) VALUES (3000, 5, 11, 5);
create aggregate function f1(x INT) returns double
begin
declare  z double default 0;
declare continue handler for not found return z;
loop
fetch group next row;
set z= z+x;
end loop;
end|
select id, f1(sal) from t1 where id>= 1 group by counter order by val;
id	f1(sal)
1	3000
3	6000
4	5000
5	3000
select id, f1(sal) from t1;
id	f1(sal)
1	17000
select id, f1(sal) from t1 where id>= 1;
id	f1(sal)
1	17000
select id, f1(sal) from t1 where id>= 1 group by counter;
id	f1(sal)
1	3000
3	6000
4	5000
5	3000
select id, f1(sal) from t1 where id>= 1 group by id;
id	f1(sal)
1	1000
2	2000
3	6000
4	5000
5	3000
select id, f1(sal) from t1 where id>= 1 group by val;
id	f1(sal)
1	1000
2	2000
3	6000
4	5000
5	3000
select id, f1(sal) from t1 where id>= 1 group by counter order by counter;
id	f1(sal)
1	3000
3	6000
4	5000
5	3000
select id, f1(sal) from t1 where id>= 1 group by counter order by val;
id	f1(sal)
1	3000
3	6000
4	5000
5	3000
select id, f1(sal) from t1 where id>= 1 group by counter order by id;
id	f1(sal)
1	3000
3	6000
4	5000
5	3000
select id, f1(sal) from t1 where id>= 1 group by val order by counter;
id	f1(sal)
1	1000
2	2000
3	6000
4	5000
5	3000
select id, f1(sal) from t1 where id>= 1 group by val order by id;
id	f1(sal)
1	1000
2	2000
3	6000
4	5000
5	3000
select id, f1(sal) from t1 where id>= 1 group by val order by val;
id	f1(sal)
1	1000
2	2000
3	6000
4	5000
5	3000
drop table t1;
create table t1 (sal int, id int, val int, counter int, primary key(id), unique key(val));
INSERT INTO t1 (sal, id, val, counter) VALUES (1000, 1, 10, 2);
INSERT INTO t1 (sal, id, val, counter) VALUES (2000, 2, NULL, 2);
INSERT INTO t1 (sal, id, val, counter) VALUES (6000, 3, 18, 1);
INSERT INTO t1 (sal, id, val, counter) VALUES (5000, 4, 15, 3);
INSERT INTO t1 (sal, id, val, counter) VALUES (3000, 5, 11, 5);
select id, f1(sal) from t1;
id	f1(sal)
1	17000
select id, f1(sal) from t1 where id>= 1;
id	f1(sal)
1	17000
select id, f1(sal) from t1 where id>= 1 group by counter;
id	f1(sal)
1	3000
3	6000
4	5000
5	3000
select id, f1(sal) from t1 where id>= 1 group by id;
id	f1(sal)
1	1000
2	2000
3	6000
4	5000
5	3000
select id, f1(sal) from t1 where id>= 1 group by val;
id	f1(sal)
1	1000
2	2000
3	6000
4	5000
5	3000
select id, f1(sal) from t1 where id>= 1 group by counter order by counter;
id	f1(sal)
1	3000
3	6000
4	5000
5	3000
select id, f1(sal) from t1 where id>= 1 group by counter order by val;
id	f1(sal)
1	3000
3	6000
4	5000
5	3000
select id, f1(sal) from t1 where id>= 1 group by counter order by id;
id	f1(sal)
1	3000
3	6000
4	5000
5	3000
select id, f1(sal) from t1 where id>= 1 group by val order by counter;
id	f1(sal)
1	1000
2	2000
3	6000
4	5000
5	3000
select id, f1(sal) from t1 where id>= 1 group by val order by id;
id	f1(sal)
1	1000
2	2000
3	6000
4	5000
5	3000
select id, f1(sal) from t1 where id>= 1 group by val order by val;
id	f1(sal)
1	1000
2	2000
3	6000
4	5000
5	3000
drop table t1;
create table t1 (sal int, id int, val int, counter int, primary key(id), INDEX name (val,counter));
INSERT INTO t1 (sal, id, val, counter) VALUES (1000, 1, 10, 2);
INSERT INTO t1 (sal, id, val, counter) VALUES (2000, 2, 10, 4);
INSERT INTO t1 (sal, id, val, counter) VALUES (6000, 3, 18, 1);
INSERT INTO t1 (sal, id, val, counter) VALUES (5000, 4, 11, 3);
INSERT INTO t1 (sal, id, val, counter) VALUES (3000, 5, 11, 5);
select id, f1(sal) from t1;
id	f1(sal)
1	17000
select id, f1(sal) from t1 where id>= 1;
id	f1(sal)
1	17000
select id, f1(sal) from t1 where id>= 1 group by counter;
id	f1(sal)
1	1000
2	2000
3	6000
4	5000
5	3000
select id, f1(sal) from t1 where id>= 1 group by id;
id	f1(sal)
1	1000
2	2000
3	6000
4	5000
5	3000
select id, f1(sal) from t1 where id>= 1 group by val;
id	f1(sal)
1	3000
3	6000
4	8000
select id, f1(sal) from t1 where id>= 1 group by counter order by counter;
id	f1(sal)
1	1000
2	2000
3	6000
4	5000
5	3000
select id, f1(sal) from t1 where id>= 1 group by counter order by val;
id	f1(sal)
1	1000
2	2000
3	6000
4	5000
5	3000
select id, f1(sal) from t1 where id>= 1 group by counter order by id;
id	f1(sal)
1	1000
2	2000
3	6000
4	5000
5	3000
select id, f1(sal) from t1 where id>= 1 group by val order by counter;
id	f1(sal)
1	3000
3	6000
4	8000
select id, f1(sal) from t1 where id>= 1 group by val order by id;
id	f1(sal)
1	3000
3	6000
4	8000
select id, f1(sal) from t1 where id>= 1 group by val order by val;
id	f1(sal)
1	3000
3	6000
4	8000
drop table t1;
drop function f1;
create aggregate function f1(x INT) returns double
begin
declare  z double default 0;
declare continue handler for not found return z;
loop
fetch group next row;
set z= z+x;
end loop;
end|
create aggregate function f2() returns double
begin
declare z int default 0;
declare continue handler for not found return z;
loop
fetch group next row;
set z = z+1;
end loop;
end|
create table t1 (sal int, id int, val int, counter int);
INSERT INTO t1 (sal, id, val, counter) VALUES (1000, 2, 10, 2);
INSERT INTO t1 (sal, id, val, counter) VALUES (2000, 1, 16, 5);
INSERT INTO t1 (sal, id, val, counter) VALUES (6000, 2, 18, 1);
INSERT INTO t1 (sal, id, val, counter) VALUES (5000, 3, 15, 3);
INSERT INTO t1 (sal, id, val, counter) VALUES (3000, 4, 11, 4);
prepare test from "select f2() from t1 where id>= ?";
set @param= 2;
execute test using @param;
f2()
4
execute test using @param;
f2()
4
execute test using @param;
f2()
4
execute test using @param;
f2()
4
set @param= 1;
execute test using @param;
f2()
5
set @param= 3;
execute test using @param;
f2()
2
set @param= 4;
execute test using @param;
f2()
1
deallocate prepare test;
prepare test from "select f1(sal) from t1 where id>= ?";
set @param= 2;
execute test using @param;
f1(sal)
15000
execute test using @param;
f1(sal)
15000
execute test using @param;
f1(sal)
15000
execute test using @param;
f1(sal)
15000
set @param= 1;
execute test using @param;
f1(sal)
17000
set @param= 3;
execute test using @param;
f1(sal)
8000
set @param= 4;
execute test using @param;
f1(sal)
3000
set @param= 5;
execute test using @param;
f1(sal)
NULL
deallocate prepare test;
drop function f2;
prepare test from "select f1(sal) from t1 where id>= ?";
set @param= 2;
execute test using @param;
f1(sal)
15000
drop function f1;
create function f1(x int) returns int
return -1;
execute test using @param;
f1(sal)
-1
-1
-1
-1
drop function f1;
create aggregate function f1(x INT) returns double
begin
declare  z double default 0;
declare continue handler for not found return z;
loop
fetch group next row;
set z= z+x;
end loop;
end|
execute test using @param;
f1(sal)
15000
deallocate prepare test;
drop table t1;
drop function f1;
create table t1 (sal int, id int, val varchar(10), counter int);
INSERT INTO t1 (sal, id, val, counter) VALUES (1000, 2, 'ab', 2);
INSERT INTO t1 (sal, id, val, counter) VALUES (1000, 1, 'cd', 5);
INSERT INTO t1 (sal, id, val, counter) VALUES (1000, 2, 'ef', 1);
INSERT INTO t1 (sal, id, val, counter) VALUES (1000, 3, 'gh', 3);
INSERT INTO t1 (sal, id, val, counter) VALUES (1000, 4, 'ij', 4);
create table t2 (sal int, id int, val int, counter int);
INSERT INTO t2 (sal, id, val, counter) VALUES (1000, 2, 10, 2);
INSERT INTO t2 (sal, id, val, counter) VALUES (2000, 1, 16, 5);
INSERT INTO t2 (sal, id, val, counter) VALUES (6000, 2, 18, 1);
INSERT INTO t2 (sal, id, val, counter) VALUES (5000, 3, 15, 3);
INSERT INTO t2 (sal, id, val, counter) VALUES (3000, 4, 11, 4);
create aggregate function f1(x double) returns double
begin
declare  z double default 0;
declare continue handler for not found return z;
loop
fetch group next row;
set z= z+x;
end loop;
end|
create aggregate function f2(x INT) returns CHAR(10)
begin
declare mini INT default 0;
declare continue handler for not found return mini;
loop
fetch group next row;
set mini= mini + x;
end loop;
end|
create aggregate function f3(x INT) returns CHAR(10)
begin
declare mini INT default 0;
declare continue handler for not found return mini;
loop
fetch group next row;
set mini= mini + x;
fetch group next row;
set mini= mini - x;
end loop;
end|
create aggregate function f4(x INT, y varchar(10)) returns varchar(1000)
begin
declare str varchar(1000) default '';
declare continue handler for not found return str;
loop
fetch group next row;
set str= concat(str,y);
end loop;
end|
create aggregate function f5(x INT) returns varchar(1000)
begin
declare z int default 0;
DECLARE cur1 CURSOR FOR SELECT sal FROM test.t2;
declare continue handler for not found return 0;
loop
fetch group next row;
set z = z+x;
end loop;
end|
create function f6(x int) returns int
return (select f1(sal) from t1)|
select f1(sal) from t1;
f1(sal)
5000
select f1(sal) from t1 where id>= 1 group by counter;
f1(sal)
1000
1000
1000
1000
1000
select f3(sal) from t1;
f3(sal)
1000
select f2(val) from t1;
ERROR 22007: Incorrect integer value: 'ab' for column ``.``.`x` at row 1
select val, id, c from (select f1(sal) as c from t2) as t1, t2;
val	id	c
10	2	17000
11	4	17000
15	3	17000
16	1	17000
18	2	17000
select f1(sal),f1(val), f1(id), f1(sal) from t2;
f1(sal)	f1(val)	f1(id)	f1(sal)
17000	70	12	17000
select f4(sal, val) from t1;
f4(sal, val)
abcdefghij
select c from (select f1(sal) as c from t2) as t1;
c
17000
select f1((select val from t2 where 0 > 1))  from t1;
f1((select val from t2 where 0 > 1))
NULL
select f1((select val from t2 where id= 1))  from t1;
f1((select val from t2 where id= 1))
80
select f5(sal) from t1;
f5(sal)
0
SELECT f1(sal)*f1(sal) FROM t1;
f1(sal)*f1(sal)
25000000
SELECT (SELECT f1(sal) FROM t1) FROM t2;
(SELECT f1(sal) FROM t1)
5000
5000
5000
5000
5000
select id, f1(sal) from t1;
id	f1(sal)
2	5000
select id, f1(sal) from t1 where id>= 1;
id	f1(sal)
2	5000
select f1(sal), f1(sal) from t1 where id>= 1 group by counter;
f1(sal)	f1(sal)
1000	1000
1000	1000
1000	1000
1000	1000
1000	1000
select f1(sal), f1(sal) from t1 where id>= 1 group by id ;
f1(sal)	f1(sal)
1000	1000
1000	1000
1000	1000
2000	2000
select f1(sal) from t1 where id>= 1 group by id ;
f1(sal)
1000
1000
1000
2000
select f1(sal) from t1 where id>= 1 order by counter;
f1(sal)
5000
select f1(sal) from t1 where id>= 1 group by id order by counter;
f1(sal)
2000
1000
1000
1000
select counter, id, f1(sal) from t1 where id>= 1 group by id order by counter;
counter	id	f1(sal)
2	2	2000
3	3	1000
4	4	1000
5	1	1000
select id, f1(sal) from t1 where id>= 1 group by id order by counter;
id	f1(sal)
2	2000
3	1000
4	1000
1	1000
drop table t1;
drop table t2;
drop function f1;
drop function f2;
drop function f3;
drop function f4;
drop function f5;
drop function f6;
create aggregate function f1(x INT) returns INT
begin
declare z double default 1000;
declare continue handler for not found return z;
loop
fetch group next row;
set z= (z&x);
end loop;
end|
create table t1 (sal int, id int, val int, counter int);
INSERT INTO t1 (sal, id, val, counter) VALUES (1000, 2, 10, 2);
INSERT INTO t1 (sal, id, val, counter) VALUES (7000, 1, 16, 5);
INSERT INTO t1 (sal, id, val, counter) VALUES (6000, 2, 18, 1);
INSERT INTO t1 (sal, id, val, counter) VALUES (5000, 3, 15, 3);
INSERT INTO t1 (sal, id, val, counter) VALUES (3000, 4, 11, 4);
INSERT INTO t1 (sal, id, val, counter) VALUES (2000, 5, 10, 7);
INSERT INTO t1 (sal, id, val, counter) VALUES (5000, 7, 13, 8);
INSERT INTO t1 (sal, id, val, counter) VALUES (6000, 6, 19, 9);
INSERT INTO t1 (sal, id, val, counter) VALUES (7000, 7, 12, 0);
INSERT INTO t1 (sal, id, val, counter) VALUES (4000, 6, 14, 1);
INSERT INTO t1 (sal, id, val, counter) VALUES (8000, 5, 19, 3);
INSERT INTO t1 (sal, id, val, counter) VALUES (9000, 4, 11, 4);
INSERT INTO t1 (sal, id, val, counter) VALUES (1000, 3, 11, 2);
select f1(sal) from t1 where id>= 1;
f1(sal)
768
drop function f1;
create aggregate function f1(x INT) returns double
begin
declare z double default 0;
declare count double default 0;
declare continue handler for not found return z/count;
loop
fetch group next row;
set z= z+x;
set count= count+1;
end loop;
end|
select f1(sal) from t1 where id>= 1;
f1(sal)
4923.076923076923
drop function f1;
create aggregate function f1(x INT) returns INT
begin
declare maxi INT default -1;
declare continue handler for not found return maxi;
loop
fetch group next row;
if maxi < x then
set maxi= x;
end if;
end loop;
end|
select f1(sal) from t1 where id>= 1;
f1(sal)
9000
drop function f1;
create aggregate function f1(x INT) returns double
begin
declare mini INT default 100000;
declare continue handler for not found return mini;
loop
fetch group next row;
if mini > x then
set mini = x;
end if;
end loop;
end|
select f1(sal) from t1 where id>= 1;
f1(sal)
1000
drop function f1;
create aggregate function f1(x INT) returns double
begin
declare z double default 0;
declare continue handler for not found return z;
loop
fetch group next row;
set z= z^x;
end loop;
end|
select f1(sal) from t1 where id>= 1;
f1(sal)
16288
drop function f1;
create aggregate function f1(x INT) returns INT
begin
declare z int default 0;
declare continue handler for not found return z;
loop
fetch group next row;
set z= z+x;
end loop;
end|
select f1(sal) from t1 where id>= 1;
f1(sal)
64000
create aggregate function f2() returns INT
begin
declare z double default 0;
declare continue handler for not found return z;
loop
fetch group next row;
set z= z+1;
end loop;
end|
select f2() from t1;
f2()
13
create table t2 (sal int, id int);
INSERT INTO t2 (sal, id) VALUES (NULL, 1);
INSERT INTO t2 (sal, id) VALUES (2000, 1);
INSERT INTO t2 (sal, id) VALUES (3000, 1);
select f1(sal) from t2;
f1(sal)
NULL
select f1(1);
f1(1)
1
create function f3() returns int
return (select f1(sal) from t1);
select f3();
f3()
64000
create function f4() returns INT
return 1;
create aggregate function f5() returns INT
begin
declare z double default 0;
declare continue handler for not found return z;
loop
fetch group next row;
set z= z+f3();
end loop;
end|
select f5() from t2;
f5()
192000
Warnings:
Note	4094	At line 6 in test.f5
Note	4094	At line 6 in test.f5
Note	4094	At line 6 in test.f5
create aggregate function f6(x INT) returns INT
begin
declare z int default 0;
declare continue handler for not found return z;
loop
fetch group next row;
if x then
set z= z+(select f1(sal) from t1);
end if;
end loop;
end|
select f6(sal) from t2;
f6(sal)
128000
Warnings:
Note	4094	At line 6 in test.f6
Note	4094	At line 6 in test.f6
select id, f1(sal) from t1 where id>= 1 group by id;
id	f1(sal)
1	7000
2	7000
3	6000
4	12000
5	10000
6	10000
7	12000
select counter, f1(sal) from t1 where id>= 1 group by counter;
counter	f1(sal)
0	7000
1	10000
2	2000
3	13000
4	12000
5	7000
7	2000
8	5000
9	6000
select val, f1(sal) from t1 where id>= 1 group by val;
val	f1(sal)
10	3000
11	13000
12	7000
13	5000
14	4000
15	5000
16	7000
18	6000
19	14000
select counter, f1(sal) from t1 where id>= 1 group by id order by counter;
counter	f1(sal)
0	12000
2	6000
2	7000
4	12000
5	7000
7	10000
9	10000
select counter, id, f1(sal), f1(sal) from t1 where id>= 1 group by id order by counter;
counter	id	f1(sal)	f1(sal)
0	7	12000	12000
2	2	7000	7000
2	3	6000	6000
4	4	12000	12000
5	1	7000	7000
7	5	10000	10000
9	6	10000	10000
select counter, id, f1(sal), sum(distinct sal) from t1 where id>= 1 group by id order by counter desc;
counter	id	f1(sal)	sum(distinct sal)
0	7	12000	12000
2	2	7000	7000
2	3	6000	6000
4	4	12000	12000
5	1	7000	7000
7	5	10000	10000
9	6	10000	10000
create table t3 (i int);
INSERT INTO t3 (i) select f1(sal) from t1;
select * from t3;
i
64000
create aggregate function f7(x INT) returns INT
begin
declare z int default 0;
DECLARE done BOOLEAN DEFAULT FALSE;
DECLARE a,b,c  INT;
DECLARE cur1 CURSOR FOR SELECT id FROM test.t2;
declare continue handler for not found return z;
outer_loop: LOOP
FETCH GROUP NEXT ROW;
set z= z+x;
inner_block: begin
DECLARE cur2 CURSOR FOR SELECT id FROM test.t2;
DECLARE CONTINUE HANDLER FOR NOT FOUND SET done = TRUE;
OPEN cur2;
read_loop: LOOP
FETCH cur2 INTO a;
IF done THEN
CLOSE cur2;
LEAVE read_loop;
END IF;
END LOOP read_loop;
end inner_block;
END LOOP outer_loop;
end|
select f7(sal) from t1;
f7(sal)
64000
Warnings:
Note	4094	At line 9 in test.f7
Note	4094	At line 9 in test.f7
Note	4094	At line 9 in test.f7
Note	4094	At line 9 in test.f7
Note	4094	At line 9 in test.f7
Note	4094	At line 9 in test.f7
Note	4094	At line 9 in test.f7
Note	4094	At line 9 in test.f7
Note	4094	At line 9 in test.f7
Note	4094	At line 9 in test.f7
Note	4094	At line 9 in test.f7
Note	4094	At line 9 in test.f7
Note	4094	At line 9 in test.f7
drop table t1;
drop table t2;
drop table t3;
drop function f1;
drop function f2;
drop function f3;
drop function f4;
drop function f5;
drop function f6;
drop function f7;
create aggregate function f1(x date) returns date
begin
declare continue handler for not found return x;
loop
fetch group next row;
end loop;
end|
select f1('2001-01-01'),cast(f1('2001-01-01') as time);
f1('2001-01-01')	cast(f1('2001-01-01') as time)
2001-01-01	00:00:00
drop function f1;
#
# MDEV-15957 Unexpected "Data too long" when doing CREATE..SELECT with stored functions
#
CREATE TABLE t1 (a INT);
INSERT INTO t1 VALUES (1),(2),(3);
CREATE AGGREGATE FUNCTION f1(x INT) RETURNS INT(3)
BEGIN
DECLARE res INT DEFAULT 0;
DECLARE CONTINUE HANDLER FOR NOT FOUND RETURN res-200;
LOOP
FETCH GROUP NEXT ROW;
SET res= res + x;
END LOOP;
RETURN res;
END;
$$
CREATE TABLE t2 AS SELECT CONCAT(f1(a)) FROM t1;
SHOW CREATE TABLE t2;
Table	Create Table
t2	CREATE TABLE `t2` (
  `CONCAT(f1(a))` varchar(11) CHARACTER SET latin1 COLLATE latin1_swedish_ci DEFAULT NULL
) ENGINE=MyISAM DEFAULT CHARSET=utf8mb4 COLLATE=utf8mb4_uca1400_ai_ci
DROP TABLE t1,t2;
DROP FUNCTION f1;
CREATE AGGREGATE FUNCTION f1() RETURNS TINYTEXT CHARACTER SET latin1
BEGIN
DECLARE CONTINUE HANDLER FOR NOT FOUND RETURN '';
LOOP
FETCH GROUP NEXT ROW;
END LOOP;
RETURN '';
END;
$$
CREATE TABLE t1 AS SELECT f1() AS c1, COALESCE(f1()) AS c2, CONCAT(f1()) AS c3;
SHOW CREATE TABLE t1;
Table	Create Table
t1	CREATE TABLE `t1` (
  `c1` tinytext CHARACTER SET latin1 COLLATE latin1_swedish_ci DEFAULT NULL,
  `c2` tinytext CHARACTER SET latin1 COLLATE latin1_swedish_ci DEFAULT NULL,
  `c3` varchar(255) CHARACTER SET latin1 COLLATE latin1_swedish_ci DEFAULT NULL
) ENGINE=MyISAM DEFAULT CHARSET=utf8mb4 COLLATE=utf8mb4_uca1400_ai_ci
DROP TABLE t1;
DROP FUNCTION f1;
CREATE AGGREGATE FUNCTION f1() RETURNS TEXT CHARACTER SET latin1
BEGIN
DECLARE CONTINUE HANDLER FOR NOT FOUND RETURN '';
LOOP
FETCH GROUP NEXT ROW;
END LOOP;
RETURN '';
END;
$$
CREATE TABLE t1 AS SELECT f1() AS c1, COALESCE(f1()) AS c2, CONCAT(f1()) AS c3;
SHOW CREATE TABLE t1;
Table	Create Table
t1	CREATE TABLE `t1` (
  `c1` text CHARACTER SET latin1 COLLATE latin1_swedish_ci DEFAULT NULL,
  `c2` text CHARACTER SET latin1 COLLATE latin1_swedish_ci DEFAULT NULL,
  `c3` text CHARACTER SET latin1 COLLATE latin1_swedish_ci DEFAULT NULL
) ENGINE=MyISAM DEFAULT CHARSET=utf8mb4 COLLATE=utf8mb4_uca1400_ai_ci
DROP TABLE t1;
DROP FUNCTION f1;
CREATE AGGREGATE FUNCTION f1() RETURNS MEDIUMTEXT CHARACTER SET latin1
BEGIN
DECLARE CONTINUE HANDLER FOR NOT FOUND RETURN '';
LOOP
FETCH GROUP NEXT ROW;
END LOOP;
RETURN '';
END;
$$
CREATE TABLE t1 AS SELECT f1() AS c1, COALESCE(f1()) AS c2, CONCAT(f1()) AS c3;
SHOW CREATE TABLE t1;
Table	Create Table
t1	CREATE TABLE `t1` (
  `c1` mediumtext CHARACTER SET latin1 COLLATE latin1_swedish_ci DEFAULT NULL,
  `c2` mediumtext CHARACTER SET latin1 COLLATE latin1_swedish_ci DEFAULT NULL,
  `c3` mediumtext CHARACTER SET latin1 COLLATE latin1_swedish_ci DEFAULT NULL
) ENGINE=MyISAM DEFAULT CHARSET=utf8mb4 COLLATE=utf8mb4_uca1400_ai_ci
DROP TABLE t1;
DROP FUNCTION f1;
CREATE AGGREGATE FUNCTION f1() RETURNS LONGTEXT CHARACTER SET latin1
BEGIN
DECLARE CONTINUE HANDLER FOR NOT FOUND RETURN '';
LOOP
FETCH GROUP NEXT ROW;
END LOOP;
RETURN '';
END;
$$
CREATE TABLE t1 AS SELECT f1() AS c1, COALESCE(f1()) AS c2, CONCAT(f1()) AS c3;
SHOW CREATE TABLE t1;
Table	Create Table
t1	CREATE TABLE `t1` (
  `c1` longtext CHARACTER SET latin1 COLLATE latin1_swedish_ci DEFAULT NULL,
  `c2` longtext CHARACTER SET latin1 COLLATE latin1_swedish_ci DEFAULT NULL,
  `c3` longtext CHARACTER SET latin1 COLLATE latin1_swedish_ci DEFAULT NULL
) ENGINE=MyISAM DEFAULT CHARSET=utf8mb4 COLLATE=utf8mb4_uca1400_ai_ci
DROP TABLE t1;
DROP FUNCTION f1;
CREATE AGGREGATE FUNCTION f1() RETURNS TINYTEXT CHARACTER SET utf8
BEGIN
DECLARE CONTINUE HANDLER FOR NOT FOUND RETURN '';
LOOP
FETCH GROUP NEXT ROW;
END LOOP;
RETURN '';
END;
$$
CREATE TABLE t1 AS SELECT f1() AS c1, COALESCE(f1()) AS c2, CONCAT(f1()) AS c3;
SHOW CREATE TABLE t1;
Table	Create Table
t1	CREATE TABLE `t1` (
  `c1` tinytext CHARACTER SET utf8mb3 COLLATE utf8mb3_uca1400_ai_ci DEFAULT NULL,
  `c2` text CHARACTER SET utf8mb3 COLLATE utf8mb3_uca1400_ai_ci DEFAULT NULL,
  `c3` varchar(255) CHARACTER SET utf8mb3 COLLATE utf8mb3_uca1400_ai_ci DEFAULT NULL
) ENGINE=MyISAM DEFAULT CHARSET=utf8mb4 COLLATE=utf8mb4_uca1400_ai_ci
DROP TABLE t1;
DROP FUNCTION f1;
CREATE AGGREGATE FUNCTION f1() RETURNS TEXT CHARACTER SET utf8
BEGIN
DECLARE CONTINUE HANDLER FOR NOT FOUND RETURN '';
LOOP
FETCH GROUP NEXT ROW;
END LOOP;
RETURN '';
END;
$$
CREATE TABLE t1 AS SELECT f1() AS c1, COALESCE(f1()) AS c2, CONCAT(f1()) AS c3;
SHOW CREATE TABLE t1;
Table	Create Table
t1	CREATE TABLE `t1` (
  `c1` text CHARACTER SET utf8mb3 COLLATE utf8mb3_uca1400_ai_ci DEFAULT NULL,
  `c2` mediumtext CHARACTER SET utf8mb3 COLLATE utf8mb3_uca1400_ai_ci DEFAULT NULL,
  `c3` mediumtext CHARACTER SET utf8mb3 COLLATE utf8mb3_uca1400_ai_ci DEFAULT NULL
) ENGINE=MyISAM DEFAULT CHARSET=utf8mb4 COLLATE=utf8mb4_uca1400_ai_ci
DROP TABLE t1;
DROP FUNCTION f1;
CREATE AGGREGATE FUNCTION f1() RETURNS MEDIUMTEXT CHARACTER SET utf8
BEGIN
DECLARE CONTINUE HANDLER FOR NOT FOUND RETURN '';
LOOP
FETCH GROUP NEXT ROW;
END LOOP;
RETURN '';
END;
$$
CREATE TABLE t1 AS SELECT f1() AS c1, COALESCE(f1()) AS c2, CONCAT(f1()) AS c3;
SHOW CREATE TABLE t1;
Table	Create Table
t1	CREATE TABLE `t1` (
  `c1` mediumtext CHARACTER SET utf8mb3 COLLATE utf8mb3_uca1400_ai_ci DEFAULT NULL,
  `c2` longtext CHARACTER SET utf8mb3 COLLATE utf8mb3_uca1400_ai_ci DEFAULT NULL,
  `c3` longtext CHARACTER SET utf8mb3 COLLATE utf8mb3_uca1400_ai_ci DEFAULT NULL
) ENGINE=MyISAM DEFAULT CHARSET=utf8mb4 COLLATE=utf8mb4_uca1400_ai_ci
DROP TABLE t1;
DROP FUNCTION f1;
CREATE AGGREGATE FUNCTION f1() RETURNS LONGTEXT CHARACTER SET utf8
BEGIN
DECLARE CONTINUE HANDLER FOR NOT FOUND RETURN '';
LOOP
FETCH GROUP NEXT ROW;
END LOOP;
RETURN '';
END;
$$
CREATE TABLE t1 AS SELECT f1() AS c1, COALESCE(f1()) AS c2, CONCAT(f1()) AS c3;
SHOW CREATE TABLE t1;
Table	Create Table
t1	CREATE TABLE `t1` (
  `c1` longtext CHARACTER SET utf8mb3 COLLATE utf8mb3_uca1400_ai_ci DEFAULT NULL,
  `c2` longtext CHARACTER SET utf8mb3 COLLATE utf8mb3_uca1400_ai_ci DEFAULT NULL,
  `c3` longtext CHARACTER SET utf8mb3 COLLATE utf8mb3_uca1400_ai_ci DEFAULT NULL
) ENGINE=MyISAM DEFAULT CHARSET=utf8mb4 COLLATE=utf8mb4_uca1400_ai_ci
DROP TABLE t1;
DROP FUNCTION f1;
#
# MDEV-14520: Custom aggregate functions work incorrectly with WITH ROLLUP clause
#
create aggregate function agg_sum(x INT) returns INT
begin
declare z int default 0;
declare continue handler for not found return z;
loop
fetch group next row;
set z= z+x;
end loop;
end|
create table t1 (i int);
insert into t1 values (1),(2),(2),(3);
select i, agg_sum(i) from t1 group by i with rollup;
i	agg_sum(i)
1	1
2	4
3	3
NULL	8
#
# Compare with
select i, sum(i) from t1 group by i with rollup;
i	sum(i)
1	1
2	4
3	3
NULL	8
drop function agg_sum;
drop table t1;
#
# User defined aggregate functions not working correctly when the schema is changed
#
CREATE SCHEMA IF NOT EXISTS common_schema;
CREATE SCHEMA IF NOT EXISTS another_schema;
DROP FUNCTION IF EXISTS common_schema.add_ints |
Warnings:
Note	1305	FUNCTION common_schema.add_ints does not exist
CREATE FUNCTION common_schema.add_ints(int_1 INT, int_2 INT) RETURNS INT NO SQL
BEGIN
RETURN int_1 + int_2;
END |
DROP FUNCTION IF EXISTS common_schema.sum_ints |
Warnings:
Note	1305	FUNCTION common_schema.sum_ints does not exist
CREATE AGGREGATE FUNCTION common_schema.sum_ints(int_val INT) RETURNS INT
BEGIN
DECLARE result INT DEFAULT 0;
DECLARE CONTINUE HANDLER FOR NOT FOUND RETURN result;
LOOP FETCH GROUP NEXT ROW;
SET result = common_schema.add_ints(result, int_val);
END LOOP;
END |
use common_schema;
SELECT common_schema.sum_ints(seq) FROM (SELECT 1 seq UNION ALL SELECT 2) t;
common_schema.sum_ints(seq)
3
USE another_schema;
SELECT common_schema.sum_ints(seq) FROM (SELECT 1 seq UNION ALL SELECT 2) t;
common_schema.sum_ints(seq)
3
drop database common_schema;
drop database another_schema;
USE test;
# End of 10.3 tests
#
# MDEV-18813 PROCEDURE and anonymous blocks silently ignore FETCH GROUP NEXT ROW
#
CREATE PROCEDURE p1()
BEGIN
FETCH GROUP NEXT ROW;
END;
$$
ERROR HY000: Aggregate specific instruction (FETCH GROUP NEXT ROW) used in a wrong context
BEGIN NOT ATOMIC
FETCH GROUP NEXT ROW;
END;
$$
ERROR HY000: Aggregate specific instruction (FETCH GROUP NEXT ROW) used in a wrong context
CREATE DEFINER=root@localhost  FUNCTION f1() RETURNS INT
BEGIN
FETCH GROUP NEXT ROW;
RETURN 0;
END;
$$
ERROR HY000: Aggregate specific instruction (FETCH GROUP NEXT ROW) used in a wrong context
CREATE TABLE t1 (a INT);
CREATE TRIGGER tr1
AFTER INSERT ON t1 FOR EACH ROW 
FETCH GROUP NEXT ROW;
ERROR HY000: Aggregate specific instruction (FETCH GROUP NEXT ROW) used in a wrong context
DROP TABLE t1;
CREATE EVENT ev1
ON SCHEDULE EVERY 1 HOUR
STARTS CURRENT_TIMESTAMP + INTERVAL 1 MONTH
ENDS CURRENT_TIMESTAMP + INTERVAL 1 MONTH + INTERVAL 1 WEEK
DO FETCH GROUP NEXT ROW;
ERROR HY000: Aggregate specific instruction (FETCH GROUP NEXT ROW) used in a wrong context
# End of 10.4 tests