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How do I generate random number for each row in a TSQL Select?

I need a different random number for each row in my table. The following seemingly obvious code uses the same random value for each row.

``````SELECT table_name, RAND() magic_number
FROM information_schema.tables
``````

I'd like to get a INT or a FLOAT out this. The rest of the story is I'm going to use the random number to create an random date offset from a know date, e.g. 1-14 days offset from a start date.

This is for Microsoft SQL Server 2000.

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Is there a solution to this that does not use NEWID()? I want to be able to generate the same sequence of random numbers for a given seed. – Rory MacLeod Apr 30 '10 at 15:54
@Rory Ask that as new question, it will get more attention. (My answer would be to use fixed tables of random numbers, eg. For example this famous standard set of random number: rand.org/pubs/monograph_reports/MR1418/index.html ) – MatthewMartin Apr 30 '10 at 16:37
Look @ RAND (Transact-SQL) – AminM Mar 30 '14 at 8:32
RAND was introduced in 2005, this question was asked in 2009, which organizations still used SQL 2000 because that was the 1st version good enough to use forever. – MatthewMartin Mar 30 '14 at 14:43
If you are looking for a very even distribution of random numbers to a set of data, I added an answer below that can be used in certain circumstances and which I haven't seen on the internet. That's not a challenge, people. – Trevor Apr 4 '15 at 2:21

Take a look at SQL Server - Set based random numbers which has a very detailed explanation.

To summarize, the following code generates a random number between 0 and 13 inclusive with a normalized distribution:

``````ABS(CHECKSUM(NewId())) % 14
``````

To change your range, just change the number at the end of the expression. Be extra careful if you need a range that includes both positive and negative numbers. If you do it wrong, it's possible to double-count the number 0.

A small warning for the math nuts in the room: there is a very slight bias in this code. `CHECKSUM()` results in numbers that are normalized across the entire range of the sql Int datatype, or at least as near so as my (the editor) testing can show. However, there will be some bias when CHECKSUM() produces a number at the very top end of that range. Any time you get a number between the maximum possible integer and the last exact multiple of the size of your desired range (14 in this case) before that maximum integer, those results are favored over the remaining portion of your range that cannot be produced from that last multiple of 14.

As an example, imagine the entire range of the Int type is only 19. 19 is the largest possible integer you can hold. When CHECKSUM() results in 14-19, these correspond to results 0-5. Those numbers would be heavily favored over 6-13, because CHECKSUM() is twice as likely to generate them. It's easier to demonstrate this visually. Below is the entire possible set of results for our imaginary integer range:

```Checksum Integer: 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19
Range Result:     0 1 2 3 4 5 6 7 8 9 10 11 12 13  0  1  2  3  4  5
```

You can see here that there are more chances to produce some numbers than others: bias. Thankfully, the actual range of the Int type is much larger... so much so that in most cases the bias is nearly undetectable. However, it is something to be aware of if you ever find yourself doing this for serious security code.

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This linked page had the solution: ABS(CHECKSUM(NewId())) % 14 – MatthewMartin Jun 25 '09 at 17:35
% 14 would return numbers between 0 and 13 – CoderDennis Jun 25 '09 at 17:39
@Dennis Palmer, just add 1 – KM. Jun 25 '09 at 17:48
Just to expand on the bias bit, if you're generating numbers in a very large range, the bias gets bigger. For example if you're using 2/3 of the Integer number space, you're twice as likely to get numbers in the lower half of the produced number space than in the upper half, so even for even some ad-hoc problems this could have a big impact. Also, I believe that if you're % number is a power of 2 then there should be no bias... – Jeff Apr 28 '14 at 23:45
We just discovered a genius bug with this. Because checksum returns an int, and the range of an int is -2^31 (-2,147,483,648) to 2^31-1 (2,147,483,647), the abs() function can return an overflow error if the result happens to be exactly -2,147,483,648! The chances are obviously very low, about 1 in 4 billion, however we were running it over a ~1.8b row table every day, so it was happening about once a week! Fix is to cast the checksum to bigint before the abs. – EvilPuppetMaster Jan 29 at 1:11

When called multiple times in a single batch, rand() returns the same number.

I'd suggest using convert(varbinary,newid()) as the seed argument:

``````SELECT table_name, 1.0 + floor(14 * RAND(convert(varbinary, newid()))) magic_number
FROM information_schema.tables
``````

newid() is guaranteed to return a different value each time it's called, even within the same batch, so using it as a seed will prompt rand() to give a different value each time.

Edited to get a random whole number from 1 to 14.

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How do you get a number out of a guid or varbinary? I'll update the question to indicate I'm hoping for an integer. – MatthewMartin Jun 25 '09 at 17:26
You multiply it by a number and floor it :) so if you want five digits, multiply by 100000, and convert to an int. Ugly, but simple enough to do. – Jeremy Smyth Jun 25 '09 at 17:27
As a further addendum - that will give you up to five digits - if you want to zero-pad it, you'll have to use a char datatype, and use replicate to zero-pad up to 5 digits. – Jeremy Smyth Jun 25 '09 at 17:28
``````RAND(CHECKSUM(NEWID()))
``````

The above will generate a (pseudo-) random number between 0 and 1, exclusive. If used in a select, because the seed value changes for each row, it will generate a new random number for each row (it is not guaranteed to generate a unique number per row however).

Example when combined with an upper limit of 10 (produces numbers 1 - 10):

``````CAST(RAND(CHECKSUM(NEWID())) * 10 as INT) + 1
``````
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The Rand() function will generate the same random number, if used in a table SELECT query. Same applies if you use a seed to the Rand function. An alternative way to do it, is using this:

``````SELECT ABS(CAST(CAST(NEWID() AS VARBINARY) AS INT)) AS [RandomNumber]
``````

Got the information from here, which explains the problem very well.

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Random number generation between 1000 and 9999:

``````FLOOR(RAND(CHECKSUM(NEWID()))*(9999-1000)+1000)
``````
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If you need to preserve your seed so that it generates the "same" random data every time, you can do the following:

1. Create a view that returns select rand()

``````if object_id('cr_sample_randView') is not null
begin
drop view cr_sample_randView
end
go

create view cr_sample_randView
as
select rand() as random_number
go
``````

2. Create a UDF that selects the value from the view.

``````if object_id('cr_sample_fnPerRowRand') is not null
begin
drop function cr_sample_fnPerRowRand
end
go

create function cr_sample_fnPerRowRand()
returns float
as
begin
declare @returnValue float
select @returnValue = random_number from cr_sample_randView
return @returnValue
end
go
``````

3. Before selecting your data, seed the rand() function, and then use the UDF in your select statement.

``````select rand(200);   -- see the rand() function
with cte(id) as
(select row_number() over(order by object_id) from sys.all_objects)
select
id,
dbo.cr_sample_fnPerRowRand()
from cte
where id <= 1000    -- limit the results to 1000 random numbers
``````
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try using a seed value in the RAND(seedInt). RAND() will only execute once per statement that is why you see the same number each time.

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Simplest! Though the values seem a lot more scattered, using digits from the middle of that, like `RIGHT(CONVERT(BIGINT, RAND(RecNo) * 1000000000000), 2)` (note: I'm seeing `RIGHT` implicitly convert the `BIGINT` to `CHAR`, but to be rigorous, you'd have another `CONVERT` in there). – Doug_Ivison Nov 11 '15 at 17:06

If you don't need it to be an integer, but any random unique identifier, you can use `newid()`

``````SELECT table_name, newid() magic_number
FROM information_schema.tables
``````
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I toyed with a few solutions, and provided links to others, here:

http://thehobt.blogspot.com/2009/03/check-your-lucky-numbers-random-number.html

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Do you have an integer value in each row that you could pass as a seed to the RAND function?

To get an integer between 1 and 14 I believe this would work:

``````FLOOR( RAND(<yourseed>) * 14) + 1
``````
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You would need to call RAND() for each row. Here is a good example

https://web.archive.org/web/20090216200320/http://dotnet.org.za/calmyourself/archive/2007/04/13/sql-rand-trap-same-value-per-row.aspx

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Dead link :( Any copies that could be included into the answer? – jocull Oct 15 '14 at 18:14
He puts `RAND()` into a view, puts a `SELECT` of that view into a function, and then calls the function from anywhere. Clever. – Doug_Ivison Nov 11 '15 at 16:55
I posted a solution that solves the problem in exactly the same way as in the linked article, but here in this blog directly as an answer five posts ago! No one called me clever envy face hehe – Mitselplik Jun 5 at 3:57

select newid()

or possibly this select binary_checksum(newid())

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The problem I sometimes have with the selected "Answer" is that the distribution isn't always even. If you need a very even distribution of random 1 - 14 among lots of rows, you can do something like this (my database has 511 tables, so this works. If you have less rows than you do random number span, this does not work well):

``````SELECT table_name, ntile(14) over(order by newId()) randomNumber
FROM information_schema.tables
``````

This kind of does the opposite of normal random solutions in the sense that it keeps the numbers sequenced and randomizes the other column.

Remember, I have 511 tables in my database (which is pertinent only b/c we're selecting from the information_schema). If I take the previous query and put it into a temp table #X, and then run this query on the resulting data:

``````select randomNumber, count(*) ct from #X
group by randomNumber
``````

I get this result, showing me that my random number is VERY evenly distributed among the many rows:

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