# Generate a random number in the range 1 - 10

Since my approach for a test query which I worked on in this question did not work out, I'm trying something else now. Is there a way to tell pg's `random()` function to get me only numbers between 1 and 10?

If by numbers between 1 and 10 you mean any float that is >= 1 and < 10, then it's easy:

``````select random() * 9 + 1
``````

This can be easily tested with:

``````# select min(i), max(i) from (
select random() * 9 + 1 as i from generate_series(1,1000000)
) q;
min       |       max
-----------------+------------------
1.0000083274208 | 9.99999571684748
(1 row)
``````

If you want integers, that are >= 1 and < 10, then it's simple:

``````select trunc(random() * 9 + 1)
``````

And again, simple test:

``````# select min(i), max(i) from (
select trunc(random() * 9 + 1) as i from generate_series(1,1000000)
) q;
min | max
-----+-----
1 |   9
(1 row)
``````
• select date(e.created_at) + (trunc(random() * 20)) from events e; result in: ERROR: operator does not exist: date + double precision Does trunc really return integers? Jan 26, 2010 at 12:44
• `trunc()` returns the same data type as the input (as stated in the manual). You need to cast the result to an integer: `trunc(random() * 20)::int` Oct 5, 2011 at 17:35
• I wonder if at least in theory it is possible that `random()` would return a value <1 that when multiplied by 9 would be >=9 due to the inexact nature of the double precision type? In practice even if it is possible it would be vanishingly unlikely of course because of the 15 digits or so precision.
– user533832
Aug 14, 2012 at 14:54
• I'm toying with `width_bucket(random(), 0, 1, 10)` as an alternative
– user533832
Aug 14, 2012 at 15:29
• It looks like my fears were groundless though I confess I don't understand the maths at all :-)
– user533832
Aug 15, 2012 at 7:46

To summarize and a bit simplify, you can use:

``````-- 0 - 9
select floor(random() * 10);
-- 0 - 10
SELECT floor(random() * (10 + 1));
-- 1 - 10
SELECT ceil(random() * 10);
``````

And you can test this like mentioned by @user80168

``````-- 0 - 9
SELECT min(i), max(i) FROM (SELECT floor(random() * 10) AS i FROM generate_series(0, 100000)) q;
-- 0 - 10
SELECT min(i), max(i) FROM (SELECT floor(random() * (10 + 1)) AS i FROM generate_series(0, 100000)) q;
-- 1 - 10
SELECT min(i), max(i) FROM (SELECT ceil(random() * 10) AS i FROM generate_series(0, 100000)) q;
``````
• The docs say "random value in the range 0.0 <= x < 1.0", so there is at least a theoretical chance of `ceil(random() * 10)` resulting in 0 — I would stick to `floor`.
– user6854914
Jan 15, 2018 at 8:48
• I agree with @JackDouglas, so for the range 1 - 10 it should be `SELECT floor(random() * 10 + 1);` Aug 23, 2019 at 11:01

If you are using SQL Server then correct way to get integer is

``````SELECT Cast(RAND()*(b-a)+a as int);
``````

Where

• 'b' is the upper limit
• 'a' is lower limit
• Be careful here, if you put your lower limit as 1 and upper as 10, you will only get numbers 1->9. Other answers seem to assume that Between 1 and 10 means 1->9... I would suggest if 'between' excludes the upper bound it should also exclude the lower (ie 2->9). SELECT Cast(RAND()*((b+1)-a)+a as int); Dec 8, 2016 at 9:09
• The question is clearly tagged as a PostgreSQL question. Oct 6, 2019 at 10:56

(trunc(random() * 10) % 10) + 1

• ERROR: operator does not exist: double precision % integer
– user533832
Aug 14, 2012 at 15:02
• And why would you use modulus anyway? This logic doesn't make sense. If you get any "wrapping" you won't have equal distribution, and if you don't get any, then you don't need it. Aug 14, 2012 at 22:47

The correct version of hythlodayr's answer.

``````-- ERROR:  operator does not exist: double precision % integer
-- LINE 1: select (trunc(random() * 10) % 10) + 1
``````

The output from `trunc` has to be converted to `INTEGER`. But it can be done without `trunc`. So it turns out to be simple.

``````select (random() * 9)::INTEGER + 1
``````

Generates an INTEGER output in range [1, 10] i.e. both 1 & 10 inclusive.

For any number (floats), see user80168's answer. i.e just don't convert it to `INTEGER`.

Actually I don't know you want to this.

try this

``````INSERT INTO my_table (my_column)
SELECT
(random() * 10) + 1
;
``````

This stored procedure inserts a rand number into a table. Look out, it inserts an endless numbers. Stop executing it when u get enough numbers.

create a table for the cursor:

``````CREATE TABLE [dbo].[SearchIndex](
[ID] [int] IDENTITY(1,1) NOT NULL,
[Cursor] [nvarchar](255) NULL)
``````

GO

Create a table to contain your numbers:

``````CREATE TABLE [dbo].[ID](
[IDN] [int] IDENTITY(1,1) NOT NULL,
[ID] [int] NULL)
``````

INSERTING THE SCRIPT :

``````INSERT INTO [SearchIndex]([Cursor])  SELECT N'INSERT INTO ID  SELECT   FLOOR(rand() * 9 + 1)  SELECT COUNT (ID) FROM ID
``````

CREATING AND EXECUTING THE PROCEDURE:

``````CREATE PROCEDURE [dbo].[RandNumbers] AS
BEGIN
Declare  CURSE  CURSOR  FOR (SELECT  [Cursor] FROM [dbo].[SearchIndex]  WHERE [Cursor] IS NOT NULL)
DECLARE @RandNoSscript NVARCHAR (250)
OPEN CURSE
FETCH NEXT FROM CURSE
INTO @RandNoSscript
WHILE @@FETCH_STATUS IS NOT NULL
BEGIN
Print @RandNoSscript
EXEC SP_EXECUTESQL @RandNoSscript;
END
END
GO
``````

``````EXEC RandNumbers
``````Select (ROW_NUMBER() OVER (ORDER BY ItemDesc ASC)+15000) as ID, ItemCode, ItemDesc