Rather than use a recursive CTE, I would go for something simpler:

```
DECLARE @oddNum INT = 1;
SELECT number
FROM master..spt_values
WHERE [type] = N'P'
AND number % 2 = 1
AND number BETWEEN @oddNum AND 11;
```

Another way, if you have a numbers table (which is immensely useful). It doesn't have to contain 1,000,000 rows, this is just to demonstrate that it can. With compression, this takes 11 MB; without, 13 MB.

```
CREATE TABLE dbo.Numbers(number INT PRIMARY KEY)
WITH (DATA_COMPRESSION = PAGE); -- recommended if your edition supports it
INSERT dbo.Numbers(number) SELECT TOP (1000000)
ROW_NUMBER() OVER (ORDER BY s1.[object_id])
FROM sys.all_objects AS s1
CROSS JOIN sys.all_objects AS s2;
SELECT number FROM dbo.Numbers; -- prime it
```

(And when you use this, you can create your function `WITH SCHEMABINDING`

, which has additional benefits.)

Now:

```
DECLARE @oddNum INT = 1;
SELECT number
FROM dbo.Numbers
WHERE number % 2 = 1
AND number BETWEEN @oddNum AND 11;
```

So your function could be:

```
CREATE FUNCTION [dbo].[oddNumFunction2]
(
@oddNum INT
)
RETURNS TABLE
WITH SCHEMABINDING
AS
RETURN
(
SELECT number
FROM dbo.Numbers
WHERE number % 2 = 1
AND number BETWEEN @oddNum AND 11
);
```

Performance comparisons, running this 10,000 times (and stuffing the output into a #temp table):

```
Gidil: 30.31 seconds
Mahmoud: 29.11 seconds
Me (spt_values): 27.91 seconds
Me (numbers): 28.06 seconds
```

The reason is that the small `spt_values`

table is already in memory (and we forced the numbers table to be), and the low number of logicals read required is (slightly!) less expensive than the computation of a recursive CTE (even one that only produces at most 6 rows).

I was surprised Mahmoud's came out faster than Gidil's, but I ran this multiple times and the results were consistent. Feel try to test them yourself and compare. While in most cases this performance difference is negligible, I don't hand-wave these things away, and if I've found the most efficient way I know to do something, I would rather use it, even if the runner-up is right on its heels.

If you really want this to be a CTE, the following will handle odd numbers given any input (odd or even) between 0 and 11:

```
DECLARE @oddnum INT = 1;
;WITH n(n) AS
(
SELECT @oddNum + ((@oddNum-1)%2)
UNION ALL
SELECT n + 2 FROM n WHERE n < 11
)
SELECT n FROM n;
```

`n + 2`

instead of`n + 1`

– Nenad Zivkovic Sep 4 '13 at 13:59`select @oddNum as n`

with`SELECT CASE WHEN @oddNum%2=0 THEN @oddNum+1 ELSE @oddNum END AS n`

– Nenad Zivkovic Sep 4 '13 at 15:12