How do I generate a range of consecutive numbers (one per line) from a MySQL query so that I can insert them into a table?
For example:
nr
1
2
3
4
5
I would like to use only MySQL for this (not PHP or other languages).
How do I generate a range of consecutive numbers (one per line) from a MySQL query so that I can insert them into a table?
For example:
nr
1
2
3
4
5
I would like to use only MySQL for this (not PHP or other languages).
If you need the records in a table and you want to avoid concurrency issues, here's how to do it.
First you create a table in which to store your records
CREATE TABLE `incr` (
`Id` int(11) NOT NULL auto_increment,
PRIMARY KEY (`Id`)
) ENGINE=MyISAM DEFAULT CHARSET=utf8;
Secondly create a stored procedure like this:
DELIMITER ;;
CREATE PROCEDURE dowhile()
BEGIN
DECLARE v1 INT DEFAULT 5;
WHILE v1 > 0 DO
INSERT incr VALUES (NULL);
SET v1 = v1 - 1;
END WHILE;
END;;
DELIMITER ;
Lastly call the SP:
CALL dowhile();
SELECT * FROM incr;
Result
Id
1
2
3
4
5
Here is one way to do it set-based without loops. This can also be made into a view for re-use. The example shows the generation of a sequence from 0 through 999, but of course, it may be modified to suit.
INSERT INTO
myTable
(
nr
)
SELECT
SEQ.SeqValue
FROM
(
SELECT
(HUNDREDS.SeqValue + TENS.SeqValue + ONES.SeqValue) SeqValue
FROM
(
SELECT 0 SeqValue
UNION ALL
SELECT 1 SeqValue
UNION ALL
SELECT 2 SeqValue
UNION ALL
SELECT 3 SeqValue
UNION ALL
SELECT 4 SeqValue
UNION ALL
SELECT 5 SeqValue
UNION ALL
SELECT 6 SeqValue
UNION ALL
SELECT 7 SeqValue
UNION ALL
SELECT 8 SeqValue
UNION ALL
SELECT 9 SeqValue
) ONES
CROSS JOIN
(
SELECT 0 SeqValue
UNION ALL
SELECT 10 SeqValue
UNION ALL
SELECT 20 SeqValue
UNION ALL
SELECT 30 SeqValue
UNION ALL
SELECT 40 SeqValue
UNION ALL
SELECT 50 SeqValue
UNION ALL
SELECT 60 SeqValue
UNION ALL
SELECT 70 SeqValue
UNION ALL
SELECT 80 SeqValue
UNION ALL
SELECT 90 SeqValue
) TENS
CROSS JOIN
(
SELECT 0 SeqValue
UNION ALL
SELECT 100 SeqValue
UNION ALL
SELECT 200 SeqValue
UNION ALL
SELECT 300 SeqValue
UNION ALL
SELECT 400 SeqValue
UNION ALL
SELECT 500 SeqValue
UNION ALL
SELECT 600 SeqValue
UNION ALL
SELECT 700 SeqValue
UNION ALL
SELECT 800 SeqValue
UNION ALL
SELECT 900 SeqValue
) HUNDREDS
) SEQ
Here's a hardware engineer's version of Pittsburgh DBA's solution:
SELECT
(TWO_1.SeqValue + TWO_2.SeqValue + TWO_4.SeqValue + TWO_8.SeqValue + TWO_16.SeqValue) SeqValue
FROM
(SELECT 0 SeqValue UNION ALL SELECT 1 SeqValue) TWO_1
CROSS JOIN (SELECT 0 SeqValue UNION ALL SELECT 2 SeqValue) TWO_2
CROSS JOIN (SELECT 0 SeqValue UNION ALL SELECT 4 SeqValue) TWO_4
CROSS JOIN (SELECT 0 SeqValue UNION ALL SELECT 8 SeqValue) TWO_8
CROSS JOIN (SELECT 0 SeqValue UNION ALL SELECT 16 SeqValue) TWO_16;
Let's say you want to insert numbers 1 through 100 into your table. As long as you have some other table that has at least that many rows (doesn't matter the content of the table), then this is my preferred method:
INSERT INTO pivot100
SELECT @ROW := @ROW + 1 AS ROW
FROM someOtherTable t
join (SELECT @ROW := 0) t2
LIMIT 100
;
Want a range that starts with something other than 1? Just change what @ROW gets set to on the join.
DECLARE i INT DEFAULT 0;
WHILE i < 6 DO
/* insert into table... */
SET i = i + 1;
END WHILE;
As you all understand, this is rather hacky so use with care
SELECT id % 12 + 1 as one_to_twelve FROM any_large_table group by one_to_twelve
The "shortest" way i know (in MySQL) to create a table with a long sequence is to (cross) join an existing table with itself. Since any (common) MySQL server has the information_schema.COLUMNS
table i would use it:
DROP TABLE IF EXISTS seq;
CREATE TABLE seq (i MEDIUMINT AUTO_INCREMENT PRIMARY KEY)
SELECT NULL AS i
FROM information_schema.COLUMNS t1
JOIN information_schema.COLUMNS t2
JOIN information_schema.COLUMNS t3
LIMIT 100000; -- <- set your limit here
Usually one join should be enough to create over 1M rows - But one more join will not hurt :-) - Just don't forget to set a limit.
If you want to include 0
, you should "remove" the AUTO_INCEMENT
property.
ALTER TABLE seq ALTER i DROP DEFAULT;
ALTER TABLE seq MODIFY i MEDIUMINT;
Now you can insert 0
INSERT INTO seq (i) VALUES (0);
and negative numbers as well
INSERT INTO seq (i) SELECT -i FROM seq WHERE i <> 0;
You can validate the numbers with
SELECT MIN(i), MAX(i), COUNT(*) FROM seq;
Very similar to the accepted response, but using the new WITH
syntax for mysql >= 8.0 which makes a lot more legible and the intent is also clearer
WITH DIGITS (N) AS (
SELECT 0 UNION ALL SELECT 1 UNION ALL SELECT 2 UNION ALL SELECT 3 UNION ALL
SELECT 4 UNION ALL SELECT 5 UNION ALL SELECT 6 UNION ALL SELECT 7 UNION ALL
SELECT 8 UNION ALL SELECT 9)
SELECT
UNITS.N + TENS.N*10 + HUNDREDS.N*100 + THOUSANDS.N*1000
FROM
DIGITS AS UNITS, DIGITS AS TENS, DIGITS AS HUNDREDS, DIGITS AS THOUSANDS;
The idea I want to share is not a precise response for the question but can be useful for some so I would like to share it.
If you frequently need only a limited set of numbers then it can be beneficial to create a table with the numbers you may need and just use that table every time. For example:
CREATE TABLE _numbers (num int);
INSERT _numbers VALUES (0), (1), (2), (3), ...;
This can be applied only if you need numbers below a certain reasonable limit, so don't use it for generating sequence 1...1 million but can be used for numbers 1...10k, for example.
If you have this list of numbers in the _numbers
table then you can write queries like this, for obtaining the individual characters of a string:
SELECT number, substr(name, num, 1)
FROM users
JOIN _numbers ON num < length(name)
WHERE user_id = 1234
ORDER BY num;
If you need larger numbers than 10k then you can join the table to itself:
SELECT n1.num * 10000 + n2.num
FROM _numbers n1
JOIN _numbers n2
WHERE n1 < 100
ORDER BY n1.num * 10000 + n2.num; -- or just ORDER BY 1 meaning the first column
This is based on a previous answer (https://stackoverflow.com/a/53125278/2009581), but is compatible with MySQL 5.7. It works for replicas and read-only users:
SELECT x1.N + x10.N*10 + x100.N*100 + x1000.N*1000
FROM (SELECT 0 AS N UNION ALL SELECT 1 UNION ALL SELECT 2 UNION ALL SELECT 3 UNION ALL SELECT 4 UNION ALL SELECT 5 UNION ALL SELECT 6 UNION ALL SELECT 7 UNION ALL SELECT 8 UNION ALL SELECT 9) x1,
(SELECT 0 AS N UNION ALL SELECT 1 UNION ALL SELECT 2 UNION ALL SELECT 3 UNION ALL SELECT 4 UNION ALL SELECT 5 UNION ALL SELECT 6 UNION ALL SELECT 7 UNION ALL SELECT 8 UNION ALL SELECT 9) x10,
(SELECT 0 AS N UNION ALL SELECT 1 UNION ALL SELECT 2 UNION ALL SELECT 3 UNION ALL SELECT 4 UNION ALL SELECT 5 UNION ALL SELECT 6 UNION ALL SELECT 7 UNION ALL SELECT 8 UNION ALL SELECT 9) x100,
(SELECT 0 AS N UNION ALL SELECT 1 UNION ALL SELECT 2 UNION ALL SELECT 3 UNION ALL SELECT 4 UNION ALL SELECT 5 UNION ALL SELECT 6 UNION ALL SELECT 7 UNION ALL SELECT 8 UNION ALL SELECT 9) x1000
WHERE x1.N + x10.N*10 + x100.N*100 + x1000.N*1000 <= @max;
It generates integers in the range of [0, @max
].
All other answers are good, however they all have speed issues for larger ranges because they force MySQL to generate every number then filter them.
The following only makes MySQL generate the numbers that are needed, and therefore is faster:
set @amount = 55; # How many numbers from zero you want to generate
select `t0`.`i`+`t1`.`i`+`t2`.`i`+`t3`.`i` as `offset`
from
(select 0 `i` union select 1 union select 2 union select 3 union select 4 union select 5 union select 6 union select 7 union select 8 union select 9) `t0`,
(select 0 `i` union select 10 union select 20 union select 30 union select 40 union select 50 union select 60 union select 70 union select 80 union select 90) `t1`,
(select 0 `i` union select 100 union select 200 union select 300 union select 400 union select 500 union select 600 union select 700 union select 800 union select 900) `t2`,
(select 0 `i` union select 1000 union select 2000 union select 3000 union select 4000 union select 5000 union select 6000 union select 7000 union select 8000 union select 9000) `t3`
where `t3`.`i`<@amount
and `t2`.`i`<@amount
and `t1`.`i`<@amount
and `t0`.`i`+`t1`.`i`+`t2`.`i`+`t3`.`i`<@amount;
With the above you can generate upto 10,000 numbers (0 to 9,999) with no slower speed overhead for lower numbers, regardless how low they are.