I have the following (slightly simplified in the columns returned) query.
select Products.Product, Products.ID, Products.Customers from Products where Products.orderCompleteDate is null
This would return, as an example
productA 1 Bob productA 1 Jane productB 2 John,Dave
Note that Customers can be a comma delimited list. What I want to add, is a column 'Customer Locations', so the above becomes
productA 1 Bob Ireland productA 1 Jane Wales productB 2 John,Dave Scotland,England
I created a function below, where fn_split returns a single row per delimited item.
create FUNCTION [dbo].[GetLocations] (@CustomerNames Varchar(256) ) RETURNS @TempLocations table (CustomerLocations varchar(256)) AS begin declare @NameStr varchar(256) declare @temp table(singleLoc varchar(256)) insert into @temp select CustomerLocation.Location from CustomerLocation INNER JOIN Customers ON Customers.ID = CustomerLocation.ID INNER JOIN dbo.fn_Split(@CustomerNames,',') split ON split.Item = Customers.Name SELECT @NameStr = COALESCE(@NameStr + ',', '') + singleLoc FROM @temp insert into @TempLocations values (@NameStr) return end
And applied it to the original query as follows
select Products.product, Products.ID, Products.Customers, Locations.CustomerLocations from Products OUTER APPLY dbo.GetLocations(Products.Customers,',') AS Locations where Products.orderCompleteDate is null
However, this is extremely slow, with the query taking ~10seconds on a table with a mere 2000 rows (initial query runs almost instantly). This suggests that the query was unable to be optimised, and is being generated row by row. I stayed away from scalar value functions for this reason, and tried to stick to table value functions. Is there any glaring fault in my logic/code?