# Generating order statistics grouped by order total

Hopefully I can explain this correctly. I have a table of line orders (each line order consists of quantity of item and the price, there are other fields but I left those out.)

table 'orderitems':

``````orderid | quantity | price
1       | 1        | 1.5000
1       | 2        | 3.22
2       | 1        | 9.99
3       | 4        | 0.44
3       | 2        | 15.99
``````

So to get order total I would run

``````SELECT     SUM(Quantity * price) AS total
FROM          OrderItems
GROUP BY OrderID
``````

However, I would like to get a count of all total orders under \$1 (just provide a count).

My end result I would like would be able to define ranges: under \$1, \$1 - \$3, 3-5, 5-10, 10-15, 15.. etc;

and my data to look like so (hopefully):

``````tunder1 | t1to3 | t3to5 | t5to10 | etc
10      | 500   | 123   | 5633   |
``````

So that I can present a piechart breakdown of customer orders on our eCommerce site. Now I can run individual SQL queries to get this, but I would like to know what the most efficient 'single sql query' would be. I am using MS SQL Server.

Currently I can run a single query like so to get under \$1 total:

``````SELECT     COUNT(total) AS tunder1
FROM         (SELECT     SUM(Quantity * price) AS total
FROM          OrderItems
GROUP BY OrderID) AS a
WHERE     (total < 1)
``````

How can I optimize this? Thanks in advance!

-

``````select
count(case when total < 1 then 1 end) tunder1,
count(case when total >= 1 and total < 3 then 1 end) t1to3,
count(case when total >= 3 and total < 5 then 1 end) t3to5,
...
from
(
select sum(quantity * price) as total
from orderitems group by orderid
);
``````
-
you need to name the derived table, or you get an error, replace `);` with `) dt`. Also, this will also produce the annoying warning: `Warning: Null value is eliminated by an aggregate or other SET operation.` Using `SUM()` like I do in my answer with `ELSE 0` will eliminate this. – KM. Feb 26 '10 at 16:59
Hmmm, I much prefer Oracle ;-). – a'r Feb 26 '10 at 17:02

you need to use HAVING for filtering grouped values.

-

try this:

``````DECLARE @YourTable table (OrderID int, Quantity int, Price decimal)
INSERT INTO @YourTable VALUES (1,1,1.5000)
INSERT INTO @YourTable VALUES (1,2,3.22)
INSERT INTO @YourTable VALUES (2,1,9.99)
INSERT INTO @YourTable VALUES (3,4,0.44)
INSERT INTO @YourTable VALUES (3,2,15.99)

SELECT
SUM(CASE WHEN TotalCost<1 THEN 1 ELSE 0 END) AS tunder1
,SUM(CASE WHEN TotalCost>=1 AND TotalCost<3 THEN 1 ELSE 0 END) AS t1to3
,SUM(CASE WHEN TotalCost>=3 AND TotalCost<5 THEN 1 ELSE 0 END) AS t3to5
,SUM(CASE WHEN TotalCost>=5 THEN 1 ELSE 0 END) AS t5andup
FROM (SELECT
SUM(quantity * price) AS TotalCost
FROM @YourTable
GROUP BY OrderID
) dt
``````

OUTPUT:

``````tunder1     t1to3       t3to5       t5andup
----------- ----------- ----------- -----------
0           0           0           3

(1 row(s) affected)
``````
-
``````WITH    orders (orderid, quantity, price) AS
(
SELECT  1, 1, 1.5
UNION ALL
SELECT  1, 2, 3.22
UNION ALL
SELECT  2, 1, 9.99
UNION ALL
SELECT  3, 4, 0.44
UNION ALL
SELECT  4, 2, 15.99
),
ranges (bound) AS
(
SELECT  1
UNION ALL
SELECT  3
UNION ALL
SELECT  5
UNION ALL
SELECT  10
UNION ALL
SELECT  15
),
rr AS
(
SELECT  bound, ROW_NUMBER() OVER (ORDER BY bound) AS rn
FROM    ranges
),
r AS
(
SELECT  COALESCE(rf.rn, 0) AS rn, COALESCE(rf.bound, 0) AS f,
rt.bound AS t
FROM    rr rf
FULL JOIN
rr rt
ON      rt.rn = rf.rn + 1
)
SELECT  rn, f, t, COUNT(*) AS cnt
FROM    r
JOIN    (
SELECT  SUM(quantity * price) AS total
FROM    orders
GROUP BY
orderid
) o
ON      total >= f
AND total < COALESCE(t, 10000000)
GROUP BY
rn, t, f
``````

Output:

``````rn      f       t       cnt
1       1       3       1
3       5       10      2
5       15      NULL    1
``````

, that is `1` order from `\$1` to `\$3`, 2 orders from `\$5` to `\$10`, `1` order more than `\$15`.

-
woah... can you maybe explain what some of that means? I am looking at `ar`'s answer for now, as that works. Just curious how this functions? – Jakub Feb 26 '10 at 16:53
@Jakub: first, it builds a recordset of ranges, based on the bounds provided in `ranges`. Second, it calculates the totals of all orders. Third, it just join the ranges and the total, and calculates the count within each range. – Quassnoi Feb 26 '10 at 16:55