I have a situation where I need to take a "quantity consumed" from one table, and apply it against a second table that has 1 or more rows that are "pooled lots" of quantities. I'm not sure how to describe it better, here's what I mean from a table perspective:
Table Pooled_Lots
----------------------------
Id Pool Lot Quantity
1 1 1 5
2 1 2 10
3 1 3 4
4 2 1 7
5 3 1 1
6 3 2 5
Table Pool_Consumption
----------------------------
Id PoolId QuantityConsumed
1 1 17
2 2 8
3 3 10
I need a resulting rowset from a SQL query that would look like:
Pool Lot Quantity QuantityConsumed RunningQuantity RemainingDemand SurplusOrDeficit
1 1 5 17 0 12 NULL
1 2 10 17 0 2 NULL
1 3 4 17 2 0 2
2 1 7 8 0 1 -1
3 1 1 10 0 9 NULL
3 2 5 10 0 4 -4
So, Pool_Consumption.QuantityConsumed needs to be a "depleting value" subtracted over the rows from Pooled_Lots where Pool_Consumption.PoolId = Pooled_Lots.Pool. I can't figure out how you would state a query that says:
Assume Id is a primary key, and the target DB is SQL 2005.
Edit: Since people are proclaiming I am "not giving enough information, please close this" Here is more: There is NO set lot that the Pool_Consumption draws from, it needs to draw from all lots where Pool_Consumption.PoolId = Pooled_Lots.Pool, until QuantityConsumed is either completely depleted or I am subtracting against the last subset of Pooled_Lots rows where Pool_Consumption.PoolId = Pooled_Lots.Pool
I don't know how more to explain this. This is not a homework question, this is not a made-up "thought exercise". I need help trying to figure out how to properly subtract QuantityConsumed against multiple rows!
Left as an exercise to the OP: Figuring out the correct results given the sample data and summarizing the results of the following query:
-- Create some test data.
declare @Pooled_Lots as table ( Id int, Pool int, Lot int, Quantity int );
insert into @Pooled_Lots ( Id, Pool, Lot, Quantity ) values
( 1, 1, 1, 5 ), ( 2, 1, 2, 10 ), ( 3, 1, 3, 4 ),
( 4, 2, 1, 7 ),
( 5, 3, 1, 1 ), ( 6, 3, 2, 5 );
declare @Pool_Consumption as table ( Id int, Pool int, QuantityConsumed int );
insert into @Pool_Consumption ( Id, Pool, QuantityConsumed ) values
( 1, 1, 17 ), ( 2, 2, 8 ), ( 3, 3, 10 );
select * from @Pooled_Lots order by Pool, Lot;
select * from @Pool_Consumption order by Pool;
with Amos as (
-- Start with Lot 1 for each Pool.
select PL.Pool, PL.Lot, PL.Quantity, PC.QuantityConsumed,
case
when PC.QuantityConsumed is NULL then PL.Quantity
when PL.Quantity >= PC.QuantityConsumed then PL.Quantity - PC.QuantityConsumed
when PL.Quantity < PC.QuantityConsumed then 0
end as RunningQuantity,
case
when PC.QuantityConsumed is NULL then 0
when PL.Quantity >= PC.QuantityConsumed then 0
when PL.Quantity < PC.QuantityConsumed then PC.QuantityConsumed - PL.Quantity
end as RemainingDemand
from @Pooled_Lots as PL left outer join
@Pool_Consumption as PC on PC.Pool = PL.Pool
where Lot = 1
union all
-- Add the next Lot for each Pool.
select PL.Pool, PL.Lot, PL.Quantity, CTE.QuantityConsumed,
case
when CTE.RunningQuantity + PL.Quantity >= CTE.RemainingDemand then CTE.RunningQuantity + PL.Quantity - CTE.RemainingDemand
when CTE.RunningQuantity + PL.Quantity < CTE.RemainingDemand then 0
end,
case
when CTE.RunningQuantity + PL.Quantity >= CTE.RemainingDemand then 0
when CTE.RunningQuantity + PL.Quantity < CTE.RemainingDemand then CTE.RemainingDemand - CTE.RunningQuantity - PL.Quantity
end
from Amos as CTE inner join
@Pooled_Lots as PL on PL.Pool = CTE.Pool and PL.Lot = CTE.Lot + 1
)
select *,
case
when Lot = ( select max( Lot ) from @Pooled_Lots where Pool = Amos.Pool ) then RunningQuantity - RemainingDemand
else NULL end as SurplusOrDeficit
from Amos
order by Pool, Lot;
If you love us? You can donate to us via Paypal or buy me a coffee so we can maintain and grow! Thank you!
Donate Us With