Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Consider the need to create a resultset of dates. We've got start and end dates, and we'd like to generate a list of dates in between.

DECLARE  @Start datetime
         ,@End  datetime
DECLARE @AllDates table
        (@Date datetime)

SELECT @Start = 'Mar 1 2009', @End = 'Aug 1 2009'

--need to fill @AllDates. Trying to avoid looping. 
-- Surely if a better solution exists.

Consider the current implementation with a WHILE loop:

DECLARE @dCounter datetime
SELECT @dCounter = @Start
WHILE @dCounter <= @End
 INSERT INTO @AllDates VALUES (@dCounter)
 SELECT @dCounter=@dCounter+1 

Question: How would you create a set of dates that are within a user-defined range using T-SQL? Assume SQL 2005+. If your answer is using SQL 2008 features, please mark as such.

share|improve this question
Which version of MSSQL Server are you using? If we give examples for 2008 and you are using 2000, then it would be pointless to talk about 2008 options. –  James Black Sep 25 '09 at 18:44
Thanks James. I thought I had specified in the question with 'assume 2005+'. –  p.campbell Sep 25 '09 at 19:19

11 Answers 11

up vote 19 down vote accepted

If your dates are no more than 2047 days apart:

declare @dt datetime, @dtEnd datetime
set @dt = getdate()
set @dtEnd = dateadd(day, 100, @dt)

select dateadd(day, number, @dt)
    (select distinct number from master.dbo.spt_values
     where name is null
    ) n
where dateadd(day, number, @dt) < @dtEnd
share|improve this answer
very clever (* required - at least 15 characters) –  roman m Sep 25 '09 at 19:04
Great answer, thank you! I didn't know about spt_values until now! –  p.campbell Sep 26 '09 at 15:35
How about adding a where clause to the select from spt_values to limit it to 100 numbers? WHERE number < 100? –  Larry Silverman Aug 8 at 16:25

Tthe following uses a recursive CTE (SQL Server 2005+):

WITH dates AS (
     SELECT CAST('2009-01-01' AS DATETIME) 'date'
     SELECT DATEADD(dd, 1, t.date) 
       FROM dates t
      WHERE DATEADD(dd, 1, t.date) <= '2009-02-01')
  JOIN dates d ON d.date = t.date --etc.
share|improve this answer
Isn't recursion just another way of writing a loop? –  automatic Sep 25 '09 at 19:10
+1, using SET SHOWPLAN_ALL ON, this this is a shade faster than the Numbers table method: TotalSubtreeCost 0.01000935 vs 0.03208314 –  KM. Sep 25 '09 at 19:16
@automatic, a SELECT is a loop, the difference is who codes it, the internal database engine or a TSQL while. I'd bet that the internal database engine can loop a little ;-) faster –  KM. Sep 25 '09 at 19:38
if you can't use a CTE, because of SQL Server 2000 or older, the Numbers table is the way to go. –  KM. Sep 29 '09 at 13:44
If you try to do more than 100 days with this, you get an error "The statement terminated. The maximum recursion 100 has been exhausted before statement completion." –  gregmac Oct 3 '11 at 16:38

For this method to work, you need to do this one time table setup:

SELECT TOP 10000 IDENTITY(int,1,1) AS Number
    INTO Numbers
    FROM sys.objects s1
    CROSS JOIN sys.objects s2

Once the Numbers table is set up, use this query:

    FROM Numbers
    WHERE Number<=DATEDIFF(day,@Start,@End)+1

to capture them do:

DECLARE  @Start datetime
         ,@End  datetime
DECLARE @AllDates table
        (Date datetime)

SELECT @Start = 'Mar 1 2009', @End = 'Aug 1 2009'

        FROM Numbers
        WHERE Number<=DATEDIFF(day,@Start,@End)+1



2009-03-01 00:00:00.000
2009-03-02 00:00:00.000
2009-03-03 00:00:00.000
2009-03-04 00:00:00.000
2009-03-05 00:00:00.000
2009-03-06 00:00:00.000
2009-03-07 00:00:00.000
2009-03-08 00:00:00.000
2009-03-09 00:00:00.000
2009-03-10 00:00:00.000
2009-07-25 00:00:00.000
2009-07-26 00:00:00.000
2009-07-27 00:00:00.000
2009-07-28 00:00:00.000
2009-07-29 00:00:00.000
2009-07-30 00:00:00.000
2009-07-31 00:00:00.000
2009-08-01 00:00:00.000

(154 row(s) affected)
share|improve this answer
@KM: Is there an advantage to using this approach versus a recursive CTE? –  OMG Ponies Sep 25 '09 at 19:02
If you are going to do this one time table setup, why not just build a one-time table setup that holds all the dates from say 1900-01-01 to 2099-12-31? –  automatic Sep 25 '09 at 19:07
@automatic, A Numbers table is very useful for many things: sqlserver2000.databases.aspfaq.com/… and makes a date table unnecessary. –  KM. Sep 25 '09 at 19:09
@KM: How do you know that the cross join will give at least 10000 records? –  eKek0 Sep 25 '09 at 20:13
@eKek0, all you need is 100 rows cross joined to itself to make 10,000 records, if you don't have enough just try sys.columns –  KM. Sep 28 '09 at 13:35

create a temp table with integers from 0 to the difference between your two dates.

SELECT DATE_ADD(@Start, INTERVAL tmp_int DAY) AS the_date FROM int_table;
share|improve this answer

@KM's answer creates a numbers table first, and uses it to select a range of dates. To do the same without the temporary numbers table:

DECLARE  @Start datetime
		 ,@End  datetime
DECLARE @AllDates table
		(Date datetime)

SELECT @Start = 'Mar 1 2009', @End = 'Aug 1 2009';

WITH Nbrs_3( n ) AS ( SELECT 1 UNION SELECT 0 ),
     Nbrs_2( n ) AS ( SELECT 1 FROM Nbrs_3 n1 CROSS JOIN Nbrs_3 n2 ),
     Nbrs_1( n ) AS ( SELECT 1 FROM Nbrs_2 n1 CROSS JOIN Nbrs_2 n2 ),
     Nbrs_0( n ) AS ( SELECT 1 FROM Nbrs_1 n1 CROSS JOIN Nbrs_1 n2 ),
     Nbrs  ( n ) AS ( SELECT 1 FROM Nbrs_0 n1 CROSS JOIN Nbrs_0 n2 )

	SELECT @Start+n-1 as Date
			FROM Nbrs ) D ( n )
	WHERE n <= DATEDIFF(day,@Start,@End)+1 ;

Test of course, if you are doing this often, a permanent table may well be more performant.

The query above is a modified version from this article, which discusses generating sequences and gives many possible methods. I liked this one as it does not create a temp table, and is not limited to the number of elements in the sys.objects table.

share|improve this answer

Try this. No Looping, CTE limits, etc. and you could have just about any no. of records generated. Manage the cross-join and top depending upon what is required.

select top 100000 dateadd(d,incr,'2010-04-01') as dt from
(select  incr = row_number() over (order by object_id, column_id), * from
select a.object_id, a.column_id from  sys.all_columns a cross join sys.all_columns b
) as a
) as b

Please note the nesting is for easier control and conversion into views, etc.

share|improve this answer
How is this different from K.M.'s answer? –  ypercube May 25 '13 at 10:19
A. It uses existing tables - sys.all_columns always has records and the more the no. of tables (and columns), the more the no. of records here. With just 20 tables, I had over 5000 rows in this table and by cross joining got 5000^2 rows. B. No Declares, no loops, extremely fast and reliable. C. Just create a view called numbergenerator for the inner sql and use top n no. of rows whenever required - pretty reusable. Frankly, have been using this since a long time myself. –  Kapil May 29 '13 at 7:18


Here's my version (2005 compatible). The advantages of this approach are:

  • you get a general purpose function which you can use for a number of similar scenarios; not restricted to just dates
  • the range isn't limited by the contents of an existing table
  • you can easily change the increment (e.g. get the date every 7 days instead of every day)
  • you don't require access to other catalogs (i.e. master)
  • the sql engine's able to do some optimisation of the TVF that it couldn't with a while statement
  • generate_series is used in some other dbs, so this may help make your code instinctively familiar to a wider audience

SQL Fiddle: http://sqlfiddle.com/#!6/c3896/1


A reusable function for generating a range of numbers based on given parameters:

create function dbo.generate_series
      @start bigint
    , @stop bigint
    , @step bigint = 1
    , @maxResults bigint = 0 --0=unlimitted
returns @results table(n bigint)

    --avoid infinite loop (i.e. where we're stepping away from stop instead of towards it)
    if @step = 0 return
    if @start > @stop and @step > 0 return
    if @start < @stop and @step < 0 return

    --ensure we don't overshoot
    set @stop = @stop - @step

    --treat negatives as unlimited
    set @maxResults = case when @maxResults < 0 then 0 else @maxResults end

    --generate output
    ;with myCTE (n,i) as 
        --start at the beginning
        select @start
        , 1
        union all
        --increment in steps
        select n + @step
        , i + 1
        from myCTE 
        --ensure we've not overshot (accounting for direction of step)
        where (@maxResults=0 or i<@maxResults)
               (@step > 0 and n <= @stop)
            or (@step < 0 and n >= @stop)
    insert @results
    select n 
    from myCTE
    option (maxrecursion 0) --sadly we can't use a variable for this; however checks above should mean that we have a finite number of recursions / @maxResults gives users the ability to manually limit this 

    --all good  


Putting this to use for your scenario:

declare @start datetime = '2013-12-05 09:00'
       ,@end  datetime = '2014-03-02 13:00'

--get dates (midnight)
--, rounding <12:00 down to 00:00 same day, >=12:00 to 00:00 next day
--, incrementing by 1 day
select CAST(n as datetime)
from dbo.generate_series(cast(@start as bigint), cast(@end as bigint), default, default)

--get dates (start time)
--, incrementing by 1 day
select CAST(n/24.0 as datetime)
from dbo.generate_series(cast(@start as float)*24, cast(@end as float)*24, 24, default)

--get dates (start time)
--, incrementing by 1 hour
select CAST(n/24.0 as datetime)
from dbo.generate_series(cast(@start as float)*24, cast(@end as float)*24, default, default)

2005 Compatible

share|improve this answer

What I'd recommend: create an auxiliary table of numbers and use it to generate your list of dates. You can also use a recursive CTE, but that may not perform as well as joining to an auxiliary table of numbers. See http://stackoverflow.com/questions/10819/sql-auxiliary-table-of-numbers for info on both options.

share|improve this answer

While I really like KM's solution above (+1), I must question your "no loop" assumption - given the plausible date ranges that your app will work with, having a loop should not really be all that expensive. The main trick is to strore the results of the loop in staging/cache table, so that extremely large sets of queries do not slow down the system by re-calculating the same exact dates. E.g. each query only computes/caches the date ranges that are NOT already in cache and that it needs (and pre-populate the table with some realistic date range like ~2 years in advance, with range determined by your application business needs).

share|improve this answer
never loop unless you have to! a DB is a shared resource, you are slowing someone else down. A Numbers table is very useful for many things: sqlserver2000.databases.aspfaq.com/… and makes a date table unnecessary. –  KM. Sep 25 '09 at 19:01
While I agree with overall sentiment re: loops, in this particular case I must violently disagree - the cost of looping ONCE EVER (remember, we are stashing the loop results in a dates table) is significanly lower DB resource drain than computing date math in EVERY single query as would be the case with numbers table. –  DVK Sep 25 '09 at 20:15

Another option is to create corresponding function in .NET. Here's how it looks like:

  DataAccess = DataAccessKind.None,
  FillRowMethodName = "fnUtlGetDateRangeInTable_FillRow",
  IsDeterministic = true,
  IsPrecise = true,
  SystemDataAccess = SystemDataAccessKind.None,
  TableDefinition = "d datetime")]
public static IEnumerable fnUtlGetDateRangeInTable(SqlDateTime startDate, SqlDateTime endDate)
	// Check if arguments are valid

	int numdays = Math.Min(endDate.Value.Subtract(startDate.Value).Days,366);
	List<DateTime> res = new List<DateTime>();
	for (int i = 0; i <= numdays; i++)

	return res;

public static void fnUtlGetDateRangeInTable_FillRow(Object row, out SqlDateTime d)
	d = (DateTime)row;

This is basically a prototype and it can be made a lot smarter, but illustrates the idea. From my experience, for a small to moderate time spans (like a couple of years) this function performs better than the one implemented in T-SQL. Another nice feature of CLR version is that it does not creates temporary table.

share|improve this answer

The best answer is probably to use the CTE, but there is no guarantee you are able to use that. In my case, I had to insert this list inside an existing query created dinamically by a query generator...couldn't use CTE nor stored procedures.

So, the answer from Devio was really useful, but I had to modify it to work in my environment.

In case you don't have access to the master db, you may use another table in your database. As for the example before, the maximum date range is given by the number of rows inside the table choosen.

In my example tough, using the row_number, you can use tables without an actual int column.

declare @bd datetime --begin date
declare @ed datetime --end date

set @bd = GETDATE()-50
set @ed = GETDATE()+5

DATEADD(dd, 0, DATEDIFF(dd, 0, Data)) --date format without time
    (GETDATE()- DATEDIFF(dd,@bd,GETDATE())) --Filter on the begin date
    -1 + ROW_NUMBER() over (ORDER BY [here_a_field]) AS Data 
    from [Table_With_Lot_Of_Rows]
) a 
where Data < (@ed + 1) --filter on the end date
share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.