Complicated SQL query for a running total column

I'm trying to work out a pretty complex query in SQL Server 2008. I'd like some input from SQL experts here.

Imagine I had a Payments table with these fields:

PaymentID int, CustomerID int, PaymentDate datetime, Amount decimal

So essentially, it is a table of payments made by a customer on specific dates. An important thing to note is that in some cases, a payment amount can be a negative value. So, over time, the total amount paid by any given customer, can go up or down.

What we're trying to figure out is the SQL to calculate the high point of the total amount paid per customer.

So, if Fred made 3 payments: first for \$5, second for \$5, third for -\$3. The report will show that Fred's peak total paid amount was \$10 (on his second payment), and his final paid amount was \$7.

We need to run this report for a hundred thousand customers (who've potentially made a hundred to a thousand payments each), so it's got to be fast.

Is there a good way to structure this query without storing the running totals in the db? We'd like to avoid storing precalculated values if at all possible.

-

Your question seems to be this:

``````SELECT CustomerID, SUM(Ammount) FROM table WHERE Amount > 0 GROUP BY CustomerID
SELECT CustomerID, SUM(Ammount) FROM table GROUP BY CustomerID
``````

However, I think you mean that you want a table that appears like this

``````Customer  Payment  HighPoint  RunningTotal
123       5        5          5
123       5        10         10
123       -3       10         7
``````

In which case I would create a view with the two selects above so that the view is something like.

``````SELECT CusotmerID,
PaymentDate,
Ammount,
(SELECT SUM(Ammount)
FROM table as ALIAS
WHERE ALIAS.Amount > 0
AND ALIAS.PaymentDate <= PaymentDate
AND ALIAS.CustomerID = CustomerID),
(SELECT SUM(Ammount)
FROM table as ALIAS
WHERE ALIAS.CustomerID = CustomerID
AND ALIAS.PaymentDate <= PaymentDate)
FROM table
``````

Also, you may consider a non-unique index on the Amount column of the table to speed up the view.

-
This doesn't answer the question at all – Louis May 2 '09 at 3:46
how does it not answer the question? – jellomonkey May 2 '09 at 3:47
wtf... did you edit? PaymentDate wasn't even in your select let alone any clear formatting pre comment.. SO bug? – Louis May 2 '09 at 3:51
I did edit, I copied and pasted and then realized I grabbed the wrong thing. – jellomonkey May 2 '09 at 3:52
Haha that explains the confusion! – Louis May 3 '09 at 8:36

The operation is linear in the number of payments for each customer. So, you are going to have to go over each payment, keeping a running total and a high water mark and at the end of all the payments, you will have your answer. Whether you do that in a CLR stored procedure (immediately jumped to mind for me) or use a cursor or temp table or whatever, it's probably not going to be fast.

If you have to run this report over and over again, you should seriously consider keeping a high water mark field and update it (or not) whenever a payment comes in. That way, your report will be trivial -- but this is what data marts are for.

-
JP, thanks for this. I've never tried a CLR stored procedure. My understanding is that in general, for things like this you want to avoid CLR because it just won't be as fast as TSQL optimized. I think we're going to end up storing the precalculated data somewhere. – Linus May 2 '09 at 21:10

As an alternative to subqueries, you can use a running total query. Here's how I set one up for this case. First create some test data:

``````create table #payments (
paymentid int identity,
customerid int,
paymentdate datetime,
amount decimal
)

insert into #payments (customerid,paymentdate,amount) values (1,'2009-01-01',1.00)
insert into #payments (customerid,paymentdate,amount) values (1,'2009-01-02',2.00)
insert into #payments (customerid,paymentdate,amount) values (1,'2009-01-03',-1.00)
insert into #payments (customerid,paymentdate,amount) values (1,'2009-01-04',2.00)
insert into #payments (customerid,paymentdate,amount) values (1,'2009-01-05',-3.00)
insert into #payments (customerid,paymentdate,amount) values (2,'2009-01-01',10.00)
insert into #payments (customerid,paymentdate,amount) values (2,'2009-01-02',-5.00)
insert into #payments (customerid,paymentdate,amount) values (2,'2009-01-03',7.00)
``````

Now you can execute the running total query, which calculates the balance for each customer after each payment:

``````select cur.customerid, cur.paymentdate, sum(prev.amount)
from #payments cur
inner join #payments prev
on cur.customerid = prev.customerid
and cur.paymentdate >= prev.paymentdate
group by cur.customerid, cur.paymentdate
``````

This generates data:

``````Customer  Paymentdate        Balance after payment
1         2009.01.01         1
1         2009.01.02         3
1         2009.01.03         2
1         2009.01.04         4
1         2009.01.05         1
2         2009.01.01         10
2         2009.01.02         5
2         2009.01.03         12
``````

To look at the maximum, you can do a group by on the running total query:

``````select customerid, max(balance)
from (
select cur.customerid, cur.paymentdate, balance = sum(prev.amount)
from #payments cur
inner join #payments prev
on cur.customerid = prev.customerid
and cur.paymentdate >= prev.paymentdate
group by cur.customerid, cur.paymentdate
) runningtotal
group by customerid
``````

Which gives:

``````Customer   Max balance
1          4
2          12
``````

Hope this is useful.

-
Thank you Andomar. I'll give this a shot. – Linus May 2 '09 at 21:22
+1 i like this much better than the sub queries – dotjoe May 2 '09 at 22:12
I like the #payments self-join. I still think MS should support "sum(x) over(order by xx)" though. (Can't that be used here where there is a column to partition on?) – araqnid May 22 '09 at 13:08
``````list = list of amounts ordered by date
foreach in list as amount
running += amount
if running >= high
high = running
``````

To keep it fast, you will require a running total incremented with amount on a trigger, and a high value for each customer (can also be updated by a trigger to make the re-query even simpler).

I don't think you can do this type of thing without code (stored procedures are code)

-
Lou, I'm actually fine with the idea of using a stored procedure or a function that returns the data. What I sort of wanted to avoid was using cursors in the stored proc. Thanks. – Linus May 2 '09 at 21:12

like Andomar's answer. You can do the running total for each payment. Then find the max peak payment...

``````with
rt as (
select
Payments.*,
isnull(sum(p.Amount), 0) + Payments.Amount as running
from
Payments
left outer join Payments p on Payments.CustomerID = p.CustomerID
and p.PaymentDate <= Payments.PaymentDate
and p.PaymentID < Payments.PaymentID
),
highest as
(
select
CustomerID, PaymentID, running as peak_paid
from
rt
where
PaymentID = (select top 1 rt2.PaymentID
from rt rt2
where rt2.CustomerID = rt.CustomerID
order by rt2.running desc, rt2.PaymentDate, rt2.PaymentID)
)

select
*,
(select sum(amount) from Payments where Payments.CustomerID = highest.CustomerID) as total_paid
from
highest;
``````

however, since you have around 1 million payments, this could be quite slow. Like others are saying, you would want to store the CustomerID, PaymentID and peak_paid in a separate table. This table could be updated on each Payment insert or as a sqljob.

Updated query to use join instead of subqueries. Since the PaymentDate does not have a time, I filter out multiple payments on the same day by the PaymentId.

-
dotjoe, that looks pretty good. The report is not run too often, so it maybe worth benchmarking this query. The one issue I see with this query is the calculation of the running total amount does not work if a customer makes more than one payment on a single day (which happens quite often), and we do not store the time component on payment date. Details.. we can figure something out from this. – Linus May 2 '09 at 21:17
if the PaymentID is auto-incremented maybe you could use that? – dotjoe May 2 '09 at 22:12