I've got a query that uses several subqueries. It's about 100 lines, so I'll leave it out. The issue is that I have several rows returned as part of one subquery that need to be joined to an integer value from the main query. Like so:
Select ... columns ... from ... tables ... ( select ... column ... from ... tables ... INNER JOIN core.Type mt on m.TypeID = mt.TypeID where dpt.[DataPointTypeName] = 'TheDataPointType' and m.TypeID in (100008, 100009, 100738, 100739) and datediff(d, m.MeasureEntered, GETDATE()) < 365 -- only care about measures from past year and dp.DataPointValue <> '' ) as subMdp ) as subMeas on (subMeas.DataPointValue NOT LIKE '%[^0-9]%' and subMeas.DataPointValue = cast(vcert.IDNumber as varchar(50))) -- THIS LINE ... more tables etc ...
The issue is that if I take out the
cast(vcert.IDNumber as varchar(50))) it will attempt to compare a value like 'daffodil' to a number like 3245. Even though the datapoint that contains 'daffodil' is an orphan record that should be filtered out by the
INNER JOIN 4 lines above it. It works fine if I try to compare a string to a string but blows up if I try to compare a string to an int -- even though I have a clause in there to only look at things that can be converted to integers:
NOT LIKE '%[^0-9]%'. If I specifically filter out the record containing 'daffodil' then it's fine. If I move the
NOT LIKE line into the subquery it will still fail. It's like the
NOT LIKE is evaluated last no matter what I do.
So the real question is why SQL would be evaluating a JOIN clause before evaluating a WHERE clause contained in a subquery. Also how I can force it to only evaluate the JOIN clause if the value being evaluated is convertible to an INT. Also why it would be evaluating a record that will definitely not be present after an INNER JOIN is applied.
I understand that there's a strong element of query optimizer voodoo going on here. On the other hand I'm telling it to do an INNER JOIN and the optimizer is specifically ignoring it. I'd like to know why.