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I am creating an adaptor to custom data from a client. I cannot change their schema or modify the values in their tables, though I can suggest new indices. The approach is to use CTEs to join and reformat the custom data to use our column names, enumerated values, etc. Once the data is reformatted, our standard CTEs can be appended, and a query forged from it that can perform our standard analyses.

Some values resulting from the reformatting are NULL due to LEFT JOINs that had no match, or due to values in their data that are actually NULL.

My task is to substitute default values for NULLs in many fields, and also allow WHERE clauses to be inserted into the query. Currently, ISNULL calls or CASE statements are used to handle the default values. And currently, by the time the WHERE condition is hit, this substitution has already been performed, so that the end user, who has access to our query builder, can filter on a value which might be the default value. If the filter value is the default value, then records with NULL values that were replaced with the default should be selected.

The problem is that if I have myField = ISNULL(myField, 'MyDefault') as my reformatting formula, and later have WHERE myField = 'MyDefault' in an outer layer of the onion (a later CTE), that this where clause is not sargable: the query optimizer does not choose my index on myField.

A partial solution that occurs to me is to not do any NULL replacement in my inner CTEs, then have a CTE that gets the WHERE clauses inserted, then have an outer CTE that performs all the NULL replacements. Such a query could use the indices. (I have verified this.) However, the where clauses could no longer expect that a test of the value against the default value will also pick up the records with NULL values, since that substitution would not yet have occurred.

Is there a way to perform null substitution, allow SARGABLE where filters, and filter on NULL values as though they held the default value?

NOTE on problem size: A typical example involves JOINing a 6 million record table to a 7 million record table with a many-to-many relationship that creates 12 million records. When the filter is SARGABLE, the query takes about 10 seconds. When it is not SARGABLE, it takes over 10 minutes on one machine, and over three minutes on a faster machine.


The clever use of intersection to allow comparison of a field to either a NULL or a non-NULL without ISNULL or other non-sargable functions can be instrumented into our code with the fewest changes to our legacy queries.

COMMENT 2: Missing case

There are these six cases:

  1. Selected value is not null and does not equal the default and does not match the filter value. Should exclude.
  2. Selected value is not null and does not equal the default and DOES match the filter value. Should include.
  3. Selected value is not null and DOES equal the default value and does not match the filter value. Should exclude.
  4. Selected value is not null and DOES equal the default value and DOES match the filter value. Should include.
  5. Selected value is null and the filter value is not the default. Should exclude.
  6. Selected value is null and the filter value is the default. Should include.

Case 4 does not work using the offered solution. The selected field is not null, so the first half of the intersection has a record with anon-null value. But in the second half of the intersection, the NULLIF statement has created a record with a null value. The intersection produces zero records. The record is rejected. I am still looking for a solution that handles this case. So close...

Update Solution:

I have a fix. Say that I am fitering on [County Name] and my default value is 'Unknown'...

where EXISTS (
    select [County Name] 
    (select NULLIF('User selected county name', 'Unknown') union select 'User selected county name')
share|improve this question
In reference to a comment - "so management is strongly resisting a solution that ..." - this is where you need to put in effort. You're working with a management structure that have decided that they can fix problems by banning the use of particular tools. I'm not sure how best you fix that, but it's not a technical problem. You need to somehow remind them that, on the one hand, bad workmen blame their tools, but on the other hand, every tool does exist for a good reason. – Damien_The_Unbeliever Jun 21 '13 at 18:34
You comment is valid. However, we have 500 to 1000 queries built upon this framework, and such a change would require significant QA effort. Adding new features to win new customers and meeting current customer enhancement requests must be balanced against refactoring costs and retesting. – Paul Chernoch Jun 24 '13 at 12:14

4 Answers 4

up vote 3 down vote accepted

It looks like you already are building your query dynamically so when you get a value from your tool that needs to be filtered on you could build a query with a where clause that looks something like this.

SQL Fiddle

MS SQL Server 2008 Schema Setup:

create table YourTable
  ID int identity primary key,
  Name varchar(20)

create index IX_YourTable_Name on YourTable(Name)

insert into YourTable values

Query 1:

declare @Param varchar(20)
set @Param = 'DefaultName'

select ID,
       coalesce(Name, 'DefaultName') as Name
from YourTable
where exists(select Name intersect select nullif(@Param, 'DefaultName'))


| ID |        NAME |
|  3 | DefaultName |

Query 2:

declare @Param varchar(20)
set @Param = 'Name1'

select ID,
       coalesce(Name, 'DefaultName') as Name
from YourTable
where exists(select Name intersect select nullif(@Param, 'DefaultName'))


| ID |  NAME |
|  1 | Name1 |

The query plan for the query above will use IX_YourTable_Name for a seek.

enter image description here

Ref: Undocumented Query Plans: Equality Comparisons

share|improve this answer
Very interesting approach. Yes, we build our queries dynamically. The default values are currently sprinkled thoughout the templates, but we could gather them together and modify the where condition generator to do it this way. I will check my actual query to see if this uses the index. – Paul Chernoch Jun 24 '13 at 12:10
It works! This even has benefits for fields that are not indexed, because it allows filtering of low-level table records before all the joins are applied, sorting, etc. This means fewer records survive the initial joins, leading to many fewer records going almost all the way throiugh the pipelein before being discarded. – Paul Chernoch Jun 24 '13 at 13:29
I found a case where this fails, which I now address in my comments above. – Paul Chernoch Jun 25 '13 at 17:40

You said you can't change the schema, but I'm thinking outside the box here. You could add a new database that has views that look into the existing database. For example:

use NewViewDb

CREATE VIEW dbo.[T1T2View]
SELECT field1, field2, COALESCE(field3, 'default value'), ...
FROM RealDb.dbo.Table1 t1 LEFT JOIN RealDb.dbo.Table2 t2 
ON t1.Id = t2.Id

share|improve this answer
You could also look into making the view's indexed/materialized and do some performance tests. This sometimes improves performance significantly. – AaronLS Jun 21 '13 at 18:21
@AaronLS - Using the view should use any indices that are already in the existing tables. What you suggest is a definite possibility, if the existing indices don't suffice. – chue x Jun 21 '13 at 18:27
True, but there's a fairly significant difference between using the table's underlying index, and an indexed view. An indexed view when setup and queried properly is "materialized" and can perform much better since alot of the processing is already materialized in the view. It's sort of like a dynamic temp table. – AaronLS Jun 21 '13 at 18:36
During installation, we are permitted by our customers to install a few application specific databases that hold our metadata and proprietary information. The approach you suggest requires that we create one peer database for each of their DBs. We generally do not have permissions to do that, due to security. If we put the views into our app DBs, we would have to name them so they correspond to the DB they point to, since our customers have multiple databases that they access with our product. Instrumenting such a naming scheme in our application would be a substantial refactoring exercise. – Paul Chernoch Jun 24 '13 at 12:31

If you use temp tables instead of CTEs, you can populate the data and then index it.

share|improve this answer
Good suggestion. I would dearly love to do that. Our current architecture does not make use of temp tables, so management is strongly resisting a solution that requires them. – Paul Chernoch Jun 21 '13 at 17:58

So, ultimately the problem isn't using ISNULL (or COALESCE) when emitting the data, it's with the filtering. The problem there is that you usually cannot use an index if using OR clauses in the predicate, and that's pretty much what those statements are.

The solution, ultimately, is to use dynamic sql if you have to do this inside sql server, or just build the end query if you are outside of sql server. If you are doing this from within a stored procedure, you'll end up just making the sql query and then calling sp_executesql on the generated query.

The key points in what you would be doing here is that you will inspect the value you want to filter on (i.e. 'My Default') and if it's that value then you will either add the predicate to filter on the value or you will add the predicate to constrain the value to IS NULL

If you need more information on how this would be done, I can provide a sample query.

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