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I need to do a join with a table/result-set/whatever that has the integers n to m inclusive. Is there a trivial way to get that without just building the table?

(BTW what would that type of construct be called, a "Meta query"?)

m-n is bounded to something reasonable ( < 1000's)

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you can have troubles with auto_increment when need include parent and childs at same time, i never use it, nextval is simplier. You can see nextval function for mysql code here: stackoverflow.com/questions/8058675/… – user1041554 Nov 11 '11 at 11:02

10 Answers 10

up vote 7 down vote accepted

There is no sequence number generator (CREATE SEQUENCE) in MySQL. Closest thing is AUTO_INCREMENT, which can help you construct the table.

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I found this solution on the web

SELECT @row := @row + 1 as row, t.*
FROM some_table t, (SELECT @row := 0) r

Single query, fast, and does exactly what I wanted: now I can "number" the "selections" found from a complex query with unique numbers starting at 1 and incrementing once for each row in the result.

I think this will also work for the issue listed above: adjust the initial starting value for @row and add a limit clause to set the maximum.

BTW: I think that the "r" is not really needed.


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yes r is needed - Error 1248: every derived table must have its own alias – Unreason Nov 12 '10 at 21:25
The number of rows selected comes from some_table not r. If some_table has no rows, you get nothing. I used this to generated a set of test data which just needed names and passwords. The sequence of numbers became the names and the password was just ENCRYPT('passwd') so they'd all be the same. To generate rows, I selected from another table, but didn't actually select any of the columns. It just gave me a row for each row in some_table, all of them with sequential numbers. – Mnebuerquo Mar 31 '11 at 20:26
+Many, I'm a bit in shock - had no idea MySQL could do this. These two separate queries work, for example, for re-sequencing a subset of a table: SET @row := 0 and UPDATE foo SET position = (@row := @row + 1) WHERE <conditions> ORDER BY last_modified ASC – Izkata Jun 13 '12 at 20:39
Executing this from C# gives the error, "Parameter '@row' must be defined." But I found a solution here: stackoverflow.com/questions/958953/… – EricP Jun 21 '12 at 19:09
@Izkata, David, Is this behavior guaranteed by the specs? For all you know, a future version could give us the same value for all rows and only do the increment after the entire selection. – Pacerier Apr 1 '15 at 8:30

The following will return 1..10000 and is not so slow

SELECT @row := @row + 1 as row FROM 
(select 0 union all select 1 union all select 3 union all select 4 union all select 5 union all select 6 union all select 6 union all select 7 union all select 8 union all select 9) t,
(select 0 union all select 1 union all select 3 union all select 4 union all select 5 union all select 6 union all select 6 union all select 7 union all select 8 union all select 9) t2, 
(select 0 union all select 1 union all select 3 union all select 4 union all select 5 union all select 6 union all select 6 union all select 7 union all select 8 union all select 9) t3, 
(select 0 union all select 1 union all select 3 union all select 4 union all select 5 union all select 6 union all select 6 union all select 7 union all select 8 union all select 9) t4, 
(SELECT @row:=0)
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an explanation would be nice - t - t4 each contain 10 rows of dummy data, cartesian product of these is 10^4, i.e. 10000 rows of dummy data, and the outer select is just mysql version of rownumber – Aprillion Jun 21 '12 at 15:57
@Aprillion, 2^14 will do the same thing. With only 28 values instead of 40. – Pacerier Apr 1 '15 at 12:28
You could get rid of the variable declaration by replacing "@row := @row + 1 as row" with "concat(t.0,t2.0,t3.0,t4.0) + 1 as row", then sorting by "row". To get get an accurate result you would also need to change the duplicate "select 6" in each subquery to "select 2" ("2" isn't currently used but "6" is listed twice.). As a bonus, you could then also shorten each "union all" to "union", since there should no longer be any duplicate rows. – Seth McCauley Jul 6 at 21:20

You could try something like this:

SELECT @rn:=@rn+1 as n
FROM (select @rn:=2)t, `order` rows_1, `order` rows_2 --, rows_n as needed...

Where order is just en example of some table with a reasonably large set of rows.

Edit: The original answer was wrong, and any credit should go to David Poor who provided a working example of the same concept

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I'm going to have to puzzle that one out but it sure looks neat! – BCS Jan 1 '09 at 3:26
Basically the inner most select initializes a session var to 2 then the outer select increment this var for each row, in this case the cartesian join to order means the var will get a relation with a sequence of numbers from 2 to the number of orders + 2 (limit 4 restricts this to 4 numbers) – John Nilsson Jan 1 '09 at 20:57
This "solution" appears to require an existing table order containing the complete list of possible matching integers. I cannot get anything other than a single row result if I try running without joining to a large pre-existing table with valid integers already in it. – rektide Apr 2 '13 at 20:42
@rektide, It does not "appear". It is wrong and does not work at all. – Pacerier Apr 1 '15 at 12:38
Oh, this was a long time ago. I think my intention was "order" as in Purchase Order (I was doing ERP-systems at the time, and in that kind of system such a table could be expected to be reasonably large). But no I don't think my intention was to use actual integers from that table. I'll see if I can improve it a bit. – John Nilsson Apr 2 '15 at 14:29

How big is m?

You could do something like:

create table two select null foo union all select null;
create temporary table seq ( foo int primary key auto_increment ) auto_increment=9 select a.foo from two a, two b, two c, two d;
select * from seq where foo <= 23;

where the auto_increment is set to n and the where clause compares to m and the number of times the two table is repeated is at least ceil(log(m-n+1)/log(2)).

(The non-temporary two table could be omitted by replacing two with (select null foo union all select null) in the create temporary table seq.)

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I kind of like the concept, but if I have to build the table anyway, I'll just do an auto increment and add rows manually till it's big enough. – BCS Nov 20 '08 at 22:04

There is a way to get a range of values in a single query, but its a bit slow. It can be sped up by using cache tables.

assume you want a select with a range of all BOOLEAN values:

SELECT 0 as b UNION SELECT 1 as b;

we can make a view


then you can do a Byte by

SELECT b0.b + b1.b*2 + b2.b*4 + b3.b*8 + b4.b*16 + b5.b*32 + b6.b*64 + b7.b*128 as v FROM
ViewBoolean b0,ViewBoolean b1,ViewBoolean b2,ViewBoolean b3,ViewBoolean b4,ViewBoolean b5,ViewBoolean b6,ViewBoolean b7;

then you can do a

SELECT b0.v + b1.v*256 as v FROM
ViewByteValues b0,ViewByteValues b1;

then you can do a


To speed this up I skipped the auto-calculation of byte values and made myself a

...254 as v UNION SELECT 255 as v;

If you need a range of dates you can do.

SELECT DATE_ADD('start_date',v) as day FROM ViewInt16 WHERE v<NumDays;


SELECT DATE_ADD('start_date',v) as day FROM ViewInt16 WHERE day<'end_date';

you might be able to speed this up with the slightly faster MAKEDATE function

SELECT MAKEDATE(start_year,1+v) as day FRON ViewInt16 WHERE day>'start_date' AND day<'end_date';

Please note that this tricks are VERY SLOW and only allow the creation of FINITE sequences in a pre-defined domain (for example int16 = 0...65536 )

I am sure you can modify the queries a bit to speed things up by hinting to MySQL where to stop calculating ;) (using ON clauses instead of WHERE clauses and stuff like that)

For example:

SELECT MIN + (b0.v + b1.v*256 + b2.v*65536 + b3.v*16777216) FROM
ViewByteValues b0,
ViewByteValues b1,
ViewByteValues b2,
ViewByteValues b3
WHERE (b0.v + b1.v*256 + b2.v*65536 + b3.v*16777216) < MAX-MIN;

will keep your SQL server busy for a few hours


SELECT MIN + (b0.v + b1.v*256 + b2.v*65536 + b3.v*16777216) FROM
ViewByteValues b0
INNER JOIN ViewByteValues b1 ON (b1.v*256<(MAX-MIN))
INNER JOIN ViewByteValues b2 ON (b2.v*65536<(MAX-MIN))
INNER JOIN ViewByteValues b3 ON (b3.v*16777216<(MAX-MIN)
WHERE (b0.v + b1.v*256 + b2.v*65536 + b3.v*16777216) < (MAX-MIN);

will run reasonably fast - even if MAX-MIN is huge as long as you limit the result with LIMIT 1,30 or something. a COUNT(*) however will take ages and if you make the mistake of adding ORDER BY when MAX-MIN is bigger than say 100k it will again take several seconds to calculate...

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Warning: if you insert numbers one row at a time, you'll end up executing N commands where N is the number of rows you need to insert.

You can get this down to O(log N) by using a temporary table (see below for inserting numbers from 10000 to 10699):

mysql> CREATE TABLE `tmp_keys` (`k` INTEGER UNSIGNED, PRIMARY KEY (`k`));
Query OK, 0 rows affected (0.11 sec)

mysql> INSERT INTO `tmp_keys` VALUES (0),(1),(2),(3),(4),(5),(6),(7);
Query OK, 8 rows affected (0.03 sec)
Records: 8  Duplicates: 0  Warnings: 0

mysql> INSERT INTO `tmp_keys` SELECT k+8 from `tmp_keys`;
Query OK, 8 rows affected (0.02 sec)
Records: 8  Duplicates: 0  Warnings: 0

mysql> INSERT INTO `tmp_keys` SELECT k+16 from `tmp_keys`;
Query OK, 16 rows affected (0.03 sec)
Records: 16  Duplicates: 0  Warnings: 0

mysql> INSERT INTO `tmp_keys` SELECT k+32 from `tmp_keys`;
Query OK, 32 rows affected (0.03 sec)
Records: 32  Duplicates: 0  Warnings: 0

mysql> INSERT INTO `tmp_keys` SELECT k+64 from `tmp_keys`;
Query OK, 64 rows affected (0.03 sec)
Records: 64  Duplicates: 0  Warnings: 0

mysql> INSERT INTO `tmp_keys` SELECT k+128 from `tmp_keys`;
Query OK, 128 rows affected (0.05 sec)
Records: 128  Duplicates: 0  Warnings: 0

mysql> INSERT INTO `tmp_keys` SELECT k+256 from `tmp_keys`;
Query OK, 256 rows affected (0.03 sec)
Records: 256  Duplicates: 0  Warnings: 0

mysql> INSERT INTO `tmp_keys` SELECT k+512 from `tmp_keys`;
Query OK, 512 rows affected (0.11 sec)
Records: 512  Duplicates: 0  Warnings: 0

mysql> INSERT INTO inttable SELECT k+10000 FROM `tmp_keys` WHERE k<700;
Query OK, 700 rows affected (0.16 sec)
Records: 700  Duplicates: 0  Warnings: 0

edit: fyi, unfortunately this won't work with a true temporary table with MySQL 5.0 as it can't insert into itself (you could bounce back and forth between two temporary tables).

edit: You could use a MEMORY storage engine to prevent this from actually being a drain on the "real" database. I wonder if someone has developed a "NUMBERS" virtual storage engine to instantiate virtual storage to create sequences such as this. (alas, nonportable outside MySQL)

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a nice KISS solution. OTOH it does materialize the whole thing ;(. +1 – BCS Jan 1 '09 at 3:28
Yeah. It's too bad there's not a SELECT number FROM INTEGERS WHERE number > 0 AND number < 10000... but technically I suppose someone could come up with a virtual storage engine that does this. – Jason S Jan 1 '09 at 16:14
hmmmm... somebody -1'd this answer, any particular reason why? – Jason S Mar 19 '10 at 13:57
@JasonS, There are plenty jerks on this site. – Pacerier Apr 1 '15 at 13:01
...and it took someone 5 years to figure out why? – Jason S Apr 1 '15 at 14:15

You appear to be able to construct reasonably large sets with:

select 9 union all select 10 union all select 11 union all select 12 union all select 13 ...

I got a parser stack overflow in the 5300's, on 5.0.51a.

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WOW, just WOW! you actually tested that?! Wow! – BCS Nov 21 '08 at 6:02
@BCS, Type this in your url bar: data:text/html,<script>for(var x=1;x<=5678;++x)document.write((x===1?'':' union all ')+'select '+x);</script> – Pacerier Apr 1 '15 at 13:04

If you were using Oracle, 'pipelined functions' would be the way to go. Unfortunately, MySQL has no such construct.

Depending on the the scale of the numbers you want sets of, I see two simple ways to go : you either populate a temporary table with just the numbers you need (possibly using memory tables populated by a stored procedure) for a single query or, up front, you build a big table that counts from 1 to 1,000,000 and select bounded regions of it.

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Here is a compact binary version of the technique used in other answers here:

select ((((((b7.0 << 1 | b6.0) << 1 | b5.0) << 1 | b4.0) 
                  << 1 | b3.0) << 1 | b2.0) << 1 | b1.0) << 1 | b0.0 as n
from (select 0 union all select 1) as b0,
     (select 0 union all select 1) as b1,
     (select 0 union all select 1) as b2,
     (select 0 union all select 1) as b3,
     (select 0 union all select 1) as b4,
     (select 0 union all select 1) as b5,
     (select 0 union all select 1) as b6,
     (select 0 union all select 1) as b7

There are no unique or sorting phases, no string to number conversion, no arithmetic operations, and each dummy table only has 2 rows, so it should be pretty fast.

This version uses 8 "bits" so it counts from 0 to 255, but you can easily tweak that.

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protected by tchrist Sep 14 '12 at 7:07

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