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Good morning. I'll do my best to explain my question without posting the SQL (it's 650 lines). Let me know if more information is needed.

We have an in-house fulfillment system that is allocating inventory in real time. For allocation to work properly, we need to know how much inventory is available each time a user asks what they should be working on (by loading/reloading their task list). The data would look something like this:

ID    ItemID    QtyOrdered    QtyAvailableAfterAllocation    ParentID
1     1234      5             500                            NULL
2     1234      15            485                            1
3     1234      10            475                            2

Currently a while loop is being used to set the QtyAvailableAfterAllocation column. The example above demonstrates the need for the loop. Row 2's QtyAvailableAfterAllocation is dependent on the value of row 1's QtyAvailableAfterAllocation. Row 3 is dependent on row 2 and so on.

This is the (very) simplified version of the logic. It gets infinitely more complicated when you take into account kits (groups of inventory items that belong to a single parent item). There are times that inventory does not need to be allocated to the item because it exists inside of a kit that has sufficient inventory to fulfill the order. This is why we can't do a running total. Also, kits could be nested inside of kits to the Nth level. Therein lies the problem. When dealing with a large amount of orders that have nested kits, the performance of the query is very poor. I believe that the loop is to blame (testing has proved this). So, here's the question:

Is it possible to commit an update, one row at a time and in a specific order (without a loop), so that the child record(s) below can access the updated column (QtyAvailAfterOrder_AllocationScope) in the parent record?


Here is a small portion of the SQL. It's the actual while loop. Maybe this will help show the logic that's needed to determine the allocation for each record.


share|improve this question
Where does the initial 500 comes from? Another table? – ypercubeᵀᴹ Jun 6 '11 at 12:15
@ypercube, yes. It comes from a view. The data that I'm updating is in a temp table that's populated by the view. – James Hill Jun 6 '11 at 12:21
What version of SQL Server? – Andriy M Jun 6 '11 at 13:08
SQL Server 2005. Sorry, thought I tagged it that way. – James Hill Jun 6 '11 at 13:09

Can you cheat and do something like this?

DECLARE @CurrentCount int
SELECT @CurrentCount = QtyAvailableAfterAllocation 
FROM blah 
WHERE <select the parent of the first row>

SET QtyAvailableAfterAllocation = @CurrentCount - QtyOrdered,
    @CurrentCount = @CurrentCount - QtyOrdered
WHERE <it is valid to deduct the count>

This should allow you to keep the update as set based and count downwards from a starting quantity. The crux of the problem here is the WHERE clause.

One method we have been doing is to flatten a hierarchy of values (in your case, the Nth kits idea) into a table, then you can join onto this flat table. The flattening of the hierarchy and the single join should help alleviate some of the performance quirks. Perhaps use a view to flatten the data.

Sorry this isn't a direct answer and only ideas.

If you can provide a sample data structure showing how the kits fit in, I'm sure someone can help thrash out a more specific solution.

share|improve this answer
Good suggestion. That won't work given the kitting issues though. Also, we need to know the value of each parent, not just the first. That's why I'm asking if I can commit each row in order. If the parent record is updated with a new QtyAvailableAfterAllocation, that's not reflected until the whole update statement is commited. – James Hill Jun 6 '11 at 12:43
The update suggestion I posted should keep the quantity accurate for each row without worrying about the parent. It then also doesn't matter what order things go in, but if order is important then you can do an update select with an order by. – Adam Houldsworth Jun 6 '11 at 12:46
See edit above... – James Hill Jun 6 '11 at 13:02

If you do have requests queued up in some structure, you wouldn't employ a SQL statement to process the queue; "queue" and "SQL", conceptually, are at odds: SQL is set-based, not procedural.

So, forget about using a query to manage the queued requests, and process the queue in a procedure, wrapping each part requisition in a transaction:


             begin trans
                execute requisition SQL statements


Your requisition statements (simplified) might look like this:

           update inventory
           set QOH = QOH- {requested amount}
           where  partno = ? and QOH >= {requested amount}

           insert orderdetail
           (customer, orderheaderid, partno, requestedamount)
           (custid, orderheaderid, partno, requested_amount)

Now in a complicated system involving kits and custom business logic, you might have a rule that says not to decrement inventory if every component in a kit is not avaialable. Then you'd have to wrap your kit requisition in a transaction and rollback if you encounter a situation where an individual component in the kit is backordered, say.

share|improve this answer
@Tim, I believe I'm already doing what you're saying (essentially). Skim the SQL while loop that I posted. I already have the logic working and in production using this method. The issue is performance. The while loop is taking up to 15 seconds to run, depending on the level of kitting involved in the orders. The loop is what I'm trying to avoid. Also, the requests aren't being queued up, they are coming in randomly, whenever an order is marked as complete or the order list loads. – James Hill Jun 6 '11 at 14:03
@Quickfire55: I don't mean to be pedantic but rather to highlight the heart of the question when I say to you that there is no such thing as a "SQL while loop". There is a T-SQL while loop or a PL/SQL while loop or any other procedural language while loop. But SQL has no loops. It isn't the loop per se that is causing the problem, it is the depth of the kit tree. – Tim Jun 6 '11 at 14:43
@Tim, certainly you know what I mean when I say that I'm using a while loop. Did you look at the code that I provided before you answered the question? – James Hill Jun 6 '11 at 14:45
@Quickire55 -- yes I did, but I'm not going to study it. Your problem is very common on MRP systems. You need to be able to explode a kit into its discrete set of components in an efficient manner. You may need to do this with a trigger. – Tim Jun 6 '11 at 14:48
@Quikfire: Google "bill of materials explosion" experts-exchange.com/Microsoft/Development/MS-SQL-Server/… – Tim Jun 6 '11 at 15:02

I think this problem can be solved using purely set-based approach.

Basically, you need to perform these steps:

  1. Obtain the table of currently available quantity for every item.

  2. Obtain the running totals from the ordered quantity due to be processed.

  3. Get QtyAvailableAfterAllocation for every item as the result of subtraction of its running total from its available quantity.

Here's a sample solution:

/* sample data definition & initialisation */
DECLARE @LastQty TABLE (Item int, Qty int);
INSERT INTO @LastQty (Item, Qty) 
  SELECT 0123, 404 UNION ALL
  SELECT 1234, 505 UNION ALL
  SELECT 2345, 606 UNION ALL
  SELECT 3456, 707 UNION ALL
  SELECT 4567, 808 UNION ALL
  SELECT 5678, 909;
DECLARE @Orders TABLE (ID int, Item int, OrderedQty int);
INSERT INTO @Orders (ID, Item, OrderedQty)
  SELECT 1, 1234,  5 UNION ALL
  SELECT 2, 1234, 15 UNION ALL
  SELECT 3, 2345,  3 UNION ALL
  SELECT 4, 1234, 10 UNION ALL
  SELECT 5, 2345, 37 UNION ALL
  SELECT 6, 2345, 45 UNION ALL
  SELECT 7, 3456, 50 UNION ALL
  SELECT 8, 4567, 25 UNION ALL
  SELECT 9, 2345, 30;

/* the actuall query begins here */
WITH RankedOrders AS (
  FROM @Orders
RunningOrderTotals AS (
    RunningTotalQty = OrderedQty,
  FROM RankedOrders
  WHERE rn = 1
    RunningTotalQty = r.RunningTotalQty + o.OrderedQty,
  FROM RankedOrders o
    INNER JOIN RunningOrderTotals r ON o.Item = r.Item AND o.rn = r.rn + 1
  QtyAvailableAfterAllocation = oh.Qty - t.RunningTotalQty
FROM RunningOrderTotals t
  INNER JOIN @LastQty oh ON t.Item = oh.Item

Note: For the purpose of my example I initialised the available item quantity table (@LastQty) manually. However, you are most probably going to derive it from your data.

share|improve this answer
This looks promising. I'll give it a shot an let you know. Thanks! – James Hill Jun 6 '11 at 19:10
thanks for the suggestion. It still doesn't seem like this will work. Because of the kitting, I need to look at several pieces of data before decide to subtract inventory or not. 1. Parent Qty Available After Order, 2. Grandparent Qty Available After Order, 3. Previous Instance Qty Available After Order. With the example given, I can't take those quantites into account. – James Hill Jun 7 '11 at 16:18
@Quickfire55: Would you please extend the example in your original post to include parent and grandparent items? Just for better illustration and understanding of your idea. – Andriy M Jun 8 '11 at 4:27
up vote 0 down vote accepted

Based on the comments/answers above and my inability to accurately represent this complicated issue properly, I've rewritten the processing in C#. Using PLINQ, I've reduced the processing time from 15 seconds to 4. Thanks to all those who tried to help!

If this isn't the appropriate way to close a question, let me know (and let me know the appropriate way so I can do that instead).

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