Using a (Recursive?) CTE + Window Functions to zero out sales orders?

I am trying to use a recursive CTE + window functions to find the last outcome of a series of buy/sell orders.

First, here's some nomenclature:

• field_id is the store's ID.
• Field_number is an order number, but can be reused by the same person
• Field_date is the date of the initial order.
• Field_inserted is when this specific transaction occcurred.
• Field_sale is whether we bought or returned it.

Unfortunately, because of the way the systems work, I do NOT get the cost when an item is returned, so figuring out the last outcome for an order is complicated (did we wind up selling any). I need to match the purchase with the sale, Which normally works pretty well. However, there are cases such as below when it fails, and I'm trying to find a way to do this in one pass, possibly using a recursive CTE.

Here's some code.

DECLARE @tablea TABLE (field_id int, field_number CHAR(3), field_date datetime, field_inserted DATETIME, field_sale varchar(4))
INSERT INTO @tablea
VALUES
(1, 100, '20170311','20170311 01:01:00', 'Retu'),
(1, 100, '20170311','20170311 01:03:00', 'Retu'),
(2, 100, '20170311','20170311 01:03:00', 'REtu'),

Now to remove the buys that were then returned. The ISNULL is because I'm the NOT IN will ignore all the rows that have NULL for the _lead/_lag values.

WITH cte AS
(SELECT
ROW_NUMBER() OVER (PARTITION BY field_id, field_number, field_date ORDER BY field_inserted) AS row_num,
field_id,
field_number,
field_date,
field_sale,
lead(field_sale) OVER (PARTITION BY field_id, field_number, field_date ORDER BY field_inserted) AS field_sale_lead,
lag(field_sale)  OVER (PARTITION BY field_id, field_number, field_date ORDER BY field_inserted) AS field_sale_lag
FROM   @tablea
)
SELECT * FROM cte
AND NOT (cte.field_sale = 'Retu' AND ISNULL(field_sale_lag,'') =  'buy' )--AND field_sale_lag  IS NOT NULL)

And I felt pretty smug and thought I had it. However, that's the simple case. Buy, Return, Buy, Return. Let's try another case, Buy Buy Return Return, which is still valid, but obviously would result in a net of 0..

DECLARE @tablea TABLE (field_id int, field_number CHAR(3), field_date datetime, field_inserted DATETIME, field_sale varchar(4))
INSERT INTO @tablea
VALUES
(1, 100, '20170311','20170311 01:02:00', 'Retu'),
(1, 100, '20170311','20170311 01:03:00', 'Retu'),

WITH cte AS
(SELECT
ROW_NUMBER() OVER (PARTITION BY field_id, field_number, field_date ORDER BY field_inserted) AS row_num,
field_id,
field_number,
field_date,
field_sale,
lead(field_sale) OVER (PARTITION BY field_id, field_number, field_date ORDER BY field_inserted) AS field_sale_lead,
lag(field_sale)  OVER (PARTITION BY field_id, field_number, field_date ORDER BY field_inserted) AS field_sale_lag
FROM   @tablea
)
SELECT * FROM cte
AND NOT (cte.field_sale = 'sell' AND ISNULL(field_sale_lag,'') =  'buy' )--AND field_sale_lag  IS NOT NULL)

When you do this, though, you realize that it found direct matches, but now there's still a Buy/Return pair, and I'd like to cancel that out.

It's at this point I'm stuck. I've done Recursive CTEs before, but for whatever reason I can't figure out how to recurse and make it cancel out 1/1/100 and 4/1/100. All I've managed to do is have it choke on the recursion.

DECLARE @tablea TABLE (field_id int, field_number CHAR(3), field_date datetime, field_inserted DATETIME, field_sale varchar(4))
INSERT INTO @tablea
VALUES
(1, 100, '20170311','20170311 01:02:00', 'Retu'),
(1, 100, '20170311','20170311 01:03:00', 'Retu'),

WITH cte AS
(SELECT
ROW_NUMBER() OVER (PARTITION BY field_id, field_number, field_date ORDER BY field_inserted) AS row_num,
field_id,
field_number,
field_date,
field_sale,
field_inserted,
lead(field_sale) OVER (PARTITION BY field_id, field_number, field_date ORDER BY field_inserted) AS field_sale_lead,
lag(field_sale)  OVER (PARTITION BY field_id, field_number, field_date ORDER BY field_inserted) AS field_sale_lag
FROM   @tablea
--)
--SELECT * FROM cte
--AND NOT (cte.field_sale = 'Retu' AND ISNULL(field_sale_lag,'') =  'buy' )--AND field_sale_lag  IS NOT NULL)

UNION ALL
SELECT
ROW_NUMBER() OVER (PARTITION BY  cte.field_id, cte.field_number, cte.field_date ORDER BY cte.field_inserted) AS row_num,
cte.field_id,
cte.field_number,
cte.field_date,
cte.field_sale,
cte.field_inserted,
lead(cte.field_sale) OVER (PARTITION BY cte.field_id, cte.field_number, cte.field_date ORDER BY cte.field_inserted) AS field_sale_lead,
lag(cte.field_sale)  OVER (PARTITION BY cte.field_id, cte.field_number, cte.field_date ORDER BY cte.field_inserted) AS field_sale_lag
FROM   @tablea INNER JOIN cte ON cte.field_date = [@tablea].field_date AND cte.field_id = [@tablea].field_id AND cte.field_number = [@tablea].field_number
)
SELECT * FROM cte
AND NOT (cte.field_sale = 'Retu' AND ISNULL(field_sale_lag,'') =  'buy' )--AND field_sale_lag  IS NOT NULL)
• @serg good question. I would think it would be the last two – mbourgon Mar 11 '17 at 9:03

We can tackle this without loops or recursion by using a common table expression and row_number() like so:

If I am understanding your question correctly, you want to remove sales that have been returned , and for each 'retu' it should remove the most recent 'buy'.

First we will add id using row_number() to our rowset so we can uniquely identify our rows.

Next, we add br_rn (short for Buy/Return RowNumber) partitioned by field_id, field_number, field_date, but we will also add field_sale to the partition; and we will order it by field_inserted desc. This will let us match each 'retu' with the most recent 'buy', and once we can do that, we can eliminate all of the pairs with not exists():

;with cte as (
select
id = row_number() over (
order by field_id, field_number, field_date, field_inserted asc
)
, field_id
, field_number
, field_date
, field_inserted
, field_sale
, br_rn = row_number() over (
partition by field_id, field_number, field_date, field_sale
order by field_inserted desc
)
from @tablea
)
select
id
, field_number
, field_date
, field_inserted
, field_sale
from cte
where not exists (
select 1
from cte as i
where i.field_id = cte.field_id
and i.field_number = cte.field_number
and i.field_date = cte.field_date
and i.br_rn = cte.br_rn
and i.id <> cte.id
)
order by id

rextester demo: http://rextester.com/TKXOC61533

For this input:

, (1, 100, '20170311','20170311 01:01:00', 'Buy')
, (1, 100, '20170311','20170311 01:02:00', 'Retu')
, (1, 100, '20170311','20170311 01:03:00', 'Retu')
, (2, 100, '20170311','20170311 01:03:00', 'Buy')
, (1, 110, '20170311','20170311 01:03:00', 'Buy');

returns:

+----+----------+--------------+------------+---------------------+------------+
| id | field_id | field_number | field_date |   field_inserted    | field_sale |
+----+----------+--------------+------------+---------------------+------------+
|  5 |        1 |          110 | 2017-03-11 | 2017-03-11 01:03:00 | Buy        |
|  6 |        2 |          100 | 2017-03-11 | 2017-03-11 01:03:00 | Buy        |
+----+----------+--------------+------------+---------------------+------------+

and for this input:

, (1, 100, '20170311','20170311 01:02:00', 'Buy')
, (1, 100, '20170311','20170311 01:03:00', 'Buy')
, (1, 100, '20170311','20170311 01:04:00', 'Retu')
, (1, 100, '20170311','20170311 01:05:00', 'Buy')
, (1, 100, '20170311','20170311 01:06:00', 'Retu')
, (1, 100, '20170311','20170311 01:07:00', 'Retu')
, (2, 100, '20170311','20170311 01:03:00', 'Buy')
, (1, 110, '20170311','20170311 01:03:00', 'Buy');

returns:

+----+----------+--------------+------------+---------------------+------------+
| id | field_id | field_number | field_date |   field_inserted    | field_sale |
+----+----------+--------------+------------+---------------------+------------+
|  1 |        1 |          100 | 2017-03-11 | 2017-03-11 01:01:00 | Buy        |
|  8 |        1 |          110 | 2017-03-11 | 2017-03-11 01:03:00 | Buy        |
|  9 |        2 |          100 | 2017-03-11 | 2017-03-11 01:03:00 | Buy        |
+----+----------+--------------+------------+---------------------+------------+

for this input:

, (1, 100, '20170311','20170311 01:02:00', 'Buy')
, (1, 100, '20170311','20170311 01:04:00', 'Retu')
, (1, 100, '20170311','20170311 01:05:00', 'Retu')
, (1, 100, '20170312','20170311 01:06:00', 'Buy')
, (1, 100, '20170312','20170311 01:07:00', 'Buy')
, (2, 100, '20170311','20170311 01:03:00', 'Buy')
, (1, 110, '20170311','20170311 01:03:00', 'Buy')

returns:

+----+----------+--------------+------------+---------------------+------------+
| id | field_id | field_number | field_date |   field_inserted    | field_sale |
+----+----------+--------------+------------+---------------------+------------+
|  5 |        1 |          100 | 2017-03-12 | 2017-03-11 01:06:00 | Buy        |
|  6 |        1 |          100 | 2017-03-12 | 2017-03-11 01:07:00 | Buy        |
|  7 |        1 |          110 | 2017-03-11 | 2017-03-11 01:03:00 | Buy        |
|  8 |        2 |          100 | 2017-03-11 | 2017-03-11 01:03:00 | Buy        |
+----+----------+--------------+------------+---------------------+------------+

It may help illustrate what we are doing to take a look what the cte is returning before we eliminate any pairs.

Looking at just the set that needs filtering, before we filter it:

+----+----------+--------------+------------+---------------------+------------+-------+
| id | field_id | field_number | field_date |   field_inserted    | field_sale | br_rn |
+----+----------+--------------+------------+---------------------+------------+-------+
|  1 |        1 |          100 | 2017-03-11 | 2017-03-11 01:01:00 | Buy        |     4 |
|  2 |        1 |          100 | 2017-03-11 | 2017-03-11 01:02:00 | Buy        |     3 |
|  3 |        1 |          100 | 2017-03-11 | 2017-03-11 01:03:00 | Buy        |     2 |
|  4 |        1 |          100 | 2017-03-11 | 2017-03-11 01:04:00 | Retu       |     3 |
|  5 |        1 |          100 | 2017-03-11 | 2017-03-11 01:05:00 | Buy        |     1 |
|  6 |        1 |          100 | 2017-03-11 | 2017-03-11 01:06:00 | Retu       |     2 |
|  7 |        1 |          100 | 2017-03-11 | 2017-03-11 01:07:00 | Retu       |     1 |
+----+----------+--------------+------------+---------------------+------------+-------+

Looking at it like this, we can easily see that the 'buy' order id 1 has a br_rn of 4 and there is no associated 'retu'.

• I found an odd case where it doesn't work. Writing up details now. – mbourgon Mar 11 '17 at 18:15
• unsure why this set doesn't work right. I'd expect it to give the buys on 1/100/20170312, but only the last two show. Rereading the explanation now. (1, 100, '20170311','20170311 01:01:00', 'Buy'), (1, 100, '20170311','20170311 01:02:00', 'Buy'), (1, 100, '20170311','20170311 01:04:00', 'Retu'), (1, 100, '20170311','20170311 01:05:00', 'Retu'), (1, 100, '20170312','20170311 01:06:00', 'Buy'), (1, 100, '20170312','20170311 01:07:00', 'Buy'), (2, 100, '20170311','20170311 01:03:00', 'Buy'), (1, 110, '20170311','20170311 01:03:00', 'Buy') – mbourgon Mar 11 '17 at 18:16
• This solution doesn't take into account field_inserted of the paired buy/return. My guess is a return must be paired with a buy which precedes it according to field_inserted, as you can not return what was not bought yet. – Serg Mar 11 '17 at 18:32
• @mbourgon I have updated the answer to correct my oversight. I initially failed to include and i.field_date = cte.field_date in the not exists() even though it is in the partition by. I have also updated the rextester demo with your additional data set and included the results in the answer. – SqlZim Mar 12 '17 at 11:51
• Makes sense, and that fixes the problem! If you go to NTSSUG or the DFW SQLSat, let me know and I'll buy you a drink or something at the next after-party! – mbourgon Mar 13 '17 at 5:57

One thing i can suggest delete pairs of sequential buy/return while it's possible. Try

DECLARE @tablea TABLE (field_id int, field_number CHAR(3), field_date datetime, field_inserted DATETIME, field_sale varchar(4))
INSERT INTO @tablea
VALUES
(1, 100, '20170311','20170311 01:04:00', 'Retu'),
(1, 100, '20170311','20170311 01:06:00', 'Retu'),
(1, 100, '20170311','20170311 01:07:00', 'Retu'),

select * from @tablea
order by field_id,
field_number,
field_inserted

declare @eoj int =1;
while @eoj > 0
begin
WITH cte AS
(
SELECT
lead (field_sale)  OVER (PARTITION BY field_id, field_number  ORDER BY field_inserted)
when 'Retu' then
lag (field_sale)  OVER (PARTITION BY field_id, field_number  ORDER BY field_inserted)
end nbr_type,
field_id,
field_number,
field_date,
field_sale,
field_inserted
FROM   @tablea
)
delete
from cte
where nbr_type is not null and nbr_type <> field_sale;
set @eoj = @@rowcount;
-- check it
select * from @tablea
order by field_id,
field_number,
field_inserted;
end;

It will be repeated N+1 times where N is the length of the longest sequence of returns. N=2 in the above example.

• Ah! I hadn't considered doing it deletes to get that way. Thanks for looking at it. – mbourgon Mar 11 '17 at 17:56