# How to recursively compute ratio of remaining amounts based on rounded values from preceding rows?

I need to split 1 amount into 2 fields. I know the total sums of the resulting fields = the ratio to split the first row, but i need to round the resulting sums and only then compute the ratio for next row (so the total sum of the rounded values will be correct).

How can i write this algorithm in Oracle 10g PL/SQL? I need to test some migrated data. Here is what i came up with (so far):

``````with temp as (
select 1 id, 200 amount, 642 total_a from dual union all
select 2, 200, 642 from dual union all
select 3, 200, 642 from dual union all
select 4, 200, 642 from dual union all
select 5, 200, 642 from dual
)
select
temp2.*,
remaining_a / remaining_amount ratio,
round(amount * remaining_a / remaining_amount, 0) rounded_a,
round(amount - amount * remaining_a / remaining_amount, 0) rounded_b
from (
select
temp.id,
temp.amount,
sum(amount) over (
order by id
range between current row and unbounded following
) remaining_amount,
case when id=1 then total_a /* else ??? */ end remaining_a
from temp
) temp2
``````

Update: If you can't see the image above, expected rounded_A values are:

``````1 128
2 129
3 128
4 129
5 128
``````
-
Allocations... Not easy to do with just SQL. It might be worth doing in a CURSOR loop instead of a SQL statement. – N West Jul 12 '12 at 14:45
@NWest anything PL/SQL,, i'm just not experienced enough in the PL part to figure it myself ;) oh - simple selects for 1 contract take a few seconds,, i need the solution for all 100 000s of records to finish in a few hours, not days.. – Aprillion Jul 12 '12 at 14:47
Given the sample input in `TEMP`, what is the output that you want? – Justin Cave Jul 12 '12 at 15:25
You can do this, at least for the data you give. Before figuring out how to do it in Oracle with a query, is your real data the same as this, with the same amount on each day and the same proportion on all days? – Gordon Linoff Jul 12 '12 at 15:40
@JustinCave the Rounded_A and Rounded_B columns from the picture – Aprillion Jul 12 '12 at 16:04

Here is my suggestion. It is not getting exactly what you want . . . by my calculation the 129 doesn't come until the 3rd row.

The idea is to add more columns. For each row, calculate the estimated split. Then, keep track of the accumulative fraction. When the cum remainder exceeds an integer, then bump up the A amount by 1. Once you have the A amount, you can calculate the rest:

``````WITH temp AS (
SELECT 1 id, 200 amount, 642 total_a FROM dual UNION ALL
SELECT 2, 200, 642 FROM dual UNION ALL
SELECT 3, 200, 642 FROM dual UNION ALL
SELECT 4, 200, 642 FROM dual UNION ALL
SELECT 5, 200, 642 FROM dual
)
select temp3.*,
sum(estArem) over (order by id) as cumrem,
trunc(estA) + (case when trunc(sum(estArem) over (order by id)) > trunc(- estArem + sum(estArem) over (order by id))
then 1 else 0 end)
from (SELECT temp2.*,
trunc(Aratio*amount) as estA,
Aratio*amount - trunc(ARatio*amount) as estArem
FROM (SELECT temp.id, temp.amount,
sum(amount) over (ORDER BY id range BETWEEN CURRENT ROW AND unbounded following
) remaining_amount,
sum(amount) over (partition by null) as total_amount,
max(total_a) over (partition by null)as maxA,
(max(total_a) over (partition by null) /
sum(amount) over (partition by null)
)  as ARatio
FROM temp
) temp2
) temp3
``````

This isn't exactly a partitioning problem. This is an integer approximation problem.

If you are rounding the values rather than truncating them, then you need a slight tweak to the logic.

``````       trunc(estA) + (case when trunc(sum(0.5+estArem) over (order by id)) > trunc(0.5 - estArem + sum(estArem) over (order by id))
``````

This statement was originally just looking for the cumulative remainder passing over the integer threshhold. This should do rounding instead of truncation.

-
+1, but i'll have to check if i can get it to work - 2nd row should be: 200 * (642 - 128) / 800 = 128.5 => rouded value is 129,, by rounded values i ment to arbitraty precision, not to integers - but technically it is almost the same thing, thanks for the tip :) – Aprillion Jul 12 '12 at 17:58
Very nicely done. Exact allocations are always a B. – N West Jul 12 '12 at 19:34