# How do I calculate a running total in SQL without using a cursor?

I'm leaving out all the cursor setup and the SELECT from the temp table for brevity. Basically, this code computes a running balance for all transactions per transaction.

``````WHILE @@fetch_status = 0
BEGIN

set @balance = @balance+@amount

insert into @tblArTran values ( --from artran table
@artranid, @trandate, @type,
@checkNumber, @refNumber,@custid,
@amount, @taxAmount, @balance, @postedflag, @modifieddate )

FETCH NEXT FROM artranCursor into
@artranid, @trandate, @type, @checkNumber, @refNumber,
@amount, @taxAmount,@postedFlag,@custid, @modifieddate

END
``````

Inspired by this code from an answer to another question,

``````SELECT @nvcConcatenated = @nvcConcatenated + C.CompanyName + ', '
FROM tblCompany C
WHERE C.CompanyID IN (1,2,3)
``````

I was wondering if SQL had the ability to sum numbers in the same way it's concatonating strings, if you get my meaning. That is, to create a "running balance" per row, without using a cursor.

Is it possible?

• Commented Jul 20, 2009 at 14:25

You might want to take a look at the update to local variable solution here: http://geekswithblogs.net/Rhames/archive/2008/10/28/calculating-running-totals-in-sql-server-2005---the-optimal.aspx

``````DECLARE @SalesTbl TABLE (DayCount smallint, Sales money, RunningTotal money)

DECLARE @RunningTotal money

SET @RunningTotal = 0

INSERT INTO @SalesTbl
SELECT DayCount, Sales, null
FROM Sales
ORDER BY DayCount

UPDATE @SalesTbl
SET @RunningTotal = RunningTotal = @RunningTotal + Sales
FROM @SalesTbl

SELECT * FROM @SalesTbl
``````

Outperforms all other methods, but has some doubts about guaranteed row order. Seems to work fine when temp table is indexed though..

• Nested sub-query 9300 ms
• Self join 6100 ms
• Cursor 400 ms
• Update to local variable 140 ms
• Whoa, that is an awesome article! I had no idea this was possible. Thanks for posting. Commented Aug 28, 2012 at 18:23
• Aaron Bertrand did a good overview of various approaches in this (stackoverflow.com/a/11313533/26167) answer, including more of the caveats around this approach. Commented Jan 17, 2014 at 1:01

SQL can create running totals without using cursors, but it's one of the few cases where a cursor is actually more performant than a set-based solution (given the operators currently available in SQL Server). Alternatively, a CLR function can sometimes shine well. Itzik Ben-Gan did an excellent series in SQL Server Magazine on running aggregates. The series concluded last month, but you can get access to all of the articles if you have an online subscription.

Edit: here's his latest article in the series (SQL CLR). Given that you can access the whole series by purchasing an online monthly pass for one month - less than 6 bucks - it's worth your while if you're interested in looking at the problem from all angles. Itzik is a Microsoft MVP and a very bright TSQL coder.

• Slightly off tangent to the question, but to add that there are some excellent books available from Solid Quality Mentors, which Itzik Ben-Gan founded. They are by far and away, the best books I've bought on SQL Server, giving information I've not found elsewhere. solidq.com/na/OurBooks.aspx Commented Jul 20, 2009 at 14:36
• I un-checked this answer because we're still getting lots of good answers to this question and I didn't want to discourage that Commented Jul 20, 2009 at 14:52

In `Oracle` and `PostgreSQL 8.4` you can use window functions:

``````SELECT  SUM(value) OVER (ORDER BY id)
FROM    mytable
``````

In `MySQL`, you can use a session variable for the same purpose:

``````SELECT  @sum := @sum + value
FROM    (
SELECT  @sum := 0
) vars, mytable
ORDER BY
id
``````

In `SQL Server`, it's a rare example of a task for which a cursor is a preferred solution.

• If you have access to SQL Server 2012, then you can use the same window function to calculate the running total. Commented Jan 19, 2012 at 10:50

An example of calculating a running total for each record, but only if the OrderDate for the records are on the same date. Once the OrderDate is for a different day, then a new running total will be started and accumulated for the new day: (assume the table structure and data)

``````select O.OrderId,
convert(char(10),O.OrderDate,101) as 'Order Date',
O.OrderAmt,
(select sum(OrderAmt) from Orders
where OrderID <= O.OrderID and
convert(char(10),OrderDate,101)
= convert(char(10),O.OrderDate,101))
'Running Total'
from Orders O
order by OrderID
``````

Here are the results returned from the query using sample Orders Table:

``````OrderId     Order Date OrderAmt   Running Total
----------- ---------- ---------- ---------------
1           10/11/2003 10.50      10.50
2           10/11/2003 11.50      22.00
3           10/11/2003 1.25       23.25
4           10/12/2003 100.57     100.57
5           10/12/2003 19.99      120.56
6           10/13/2003 47.14      47.14
7           10/13/2003 10.08      57.22
8           10/13/2003 7.50       64.72
9           10/13/2003 9.50       74.22
``````

Note that the "Running Total" starts out with a value of 10.50, and then becomes 22.00, and finally becomes 23.25 for OrderID 3, since all these records have the same OrderDate (10/11/2003). But when OrderID 4 is displayed the running total is reset, and the running total starts over again. This is because OrderID 4 has a different date for its OrderDate, then OrderID 1, 2, and 3. Calculating this running total for each unique date is once again accomplished by using a correlated sub query, although an extra WHERE condition is required, which identified that the OrderDate's on different records need to be the same day. This WHERE condition is accomplished by using the CONVERT function to truncate the OrderDate into a MM/DD/YYYY format.

In SQL Server 2012 and up you can just use the `Sum` windowing function directly against the original table:

``````SELECT
artranid,
trandate,
type,
checkNumber,
refNumber,
custid,
amount,
taxAmount,
Balance = Sum(amount) OVER (ORDER BY trandate ROWS UNBOUNDED PRECEDING),
postedflag,
modifieddate
FROM
dbo.Sales
;
``````

This will perform very well compared to all solutions and will not have the potential for errors as found in the "quirky update".

Note that you should use the `ROWS` version when possible; the `RANGE` version may perform less well.

You can just include a correlated subquery in the select clause. (This will perform poorly for very large result sets) but

``````   Select <other stuff>,
(Select Sum(ColumnVal) From Table
Where OrderColumn <= T.OrderColumn) As RunningTotal
From Table T
Order By OrderColumn
``````

You can do a running count, here is an example, keep in mind that this is actually not that fast since it has to scan the table for every row, if your table is large this can be quite time consuming and costly

``````create table #Test  (id int, Value decimal(16,4))
insert #Test values(1,100)
insert #Test values(2,100)
insert #Test values(3,100)
insert #Test values(4,200)
insert #Test values(5,200)
insert #Test values(6,200)
insert #Test values(7,200)

select *,(select sum(Value) from  #Test t2 where t2.id <=t1.id) as SumValues
from #test t1

id  Value       SumValues
1   100.0000    100.0000
2   100.0000    200.0000
3   100.0000    300.0000
4   200.0000    500.0000
5   200.0000    700.0000
6   200.0000    900.0000
7   200.0000    1100.0000
``````

On SQLTeam there's also an article about calculating running totals. There is a comparison of 3 ways to do it, along with some performance measuring:

• using cursors
• using a subselect (as per SQLMenace's post)
• using a CROSS JOIN

Cursors outperform by far the other solutions, but if you must not use cursors, there's at least an alternative.

That that `SELECT @nvcConcatonated` bit is only returning a single concatenated value. (Although it's computing the intermediate values on a per-row basis, you're only able to retrieve the final value).

So, I think the answer is no. If you wanted a single final sum value you would of course just use `SUM`.

I'm not saying you can't do it, I'm just saying you can't do it using this 'trick'.

Note that using a variable to accomplish this such as in the following may fail in a multiprocessor system because separate rows could get calculated on different processors and may end up using the same starting value. My understanding is that a query hint could be used to force it to use a single thread, but I do not have that information handy.

UPDATE @SalesTbl SET @RunningTotal = RunningTotal = @RunningTotal + Sales FROM @SalesTbl

Using one of the other options (a cursor, a window function, or nested queries) is typically going to be your safest bet for reliable results.

select TransactionDate, amount, amount + (sum x.amount from transactions x where x.TransactionDate < Transactions) Runningtotal from Transactions

where x.TransactionDate < Transactions could be any condition that will represent all the previous records aside from the current one