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# Efficient way to check for inequality

I'm writing a trigger that is doing

``````IF (@A <> @B)
...
``````

but this will not work for NULL values on either @A or @B. The way it's normally done is

``````IF (@A <> @B) OR (@A IS NOT NULL AND @B IS NULL) OR (@A IS NULL AND @B IS NOT NULL)
``````

but this involves up to 9 comparisons versus 1!

I could do

``````SET ANSI_NULLS OFF
``````

but apparently this is not recommended (and to be deprecated).

So what is the best solution for this? Just take 9 comparisons for a simple inequality check when it should be 1? The trigger is not performance critical, but it does need to be fast. When batch loading, this could slow it down considerably.

PEFORMANCE TESTS

Here are the results of a performance test that checks for inequality a million times such that 90% of the time the values are not equal, 10% of the time each value may be null.

``````IF (@A <> @B) OR (@A IS NULL AND @B IS NOT NULL) OR (@A IS NOT NULL AND @B IS NULL)
``````

Result: average 3848ms

``````IF (ISNULL(@A, 0) <> ISNULL(@B, 0))
``````

Result: average 3942ms

``````IF (@A = @B) GOTO Equal ELSE IF @A IS NULL AND @B IS NULL GOTO Equal
``````

Result: average 4140ms

``````IF EXISTS (SELECT @A EXCEPT SELECT @B)
``````

Result: average 7795ms

The times don't really matter, it's the relative difference that counts. Clearly, the classic approach is the fastest. Likely MSSQL has internally optimised for this type of check.

Test run on MacBook Pro (Intel Core 2 Duo, 2.4Ghz, 8GB RAM inside a Vista VM running MSSQL 2008 Express).

-

ANSI SQL has `IS DISTINCT FROM` but this is not implemented in SQL Server. It can be simulated in a way that doesn't rely on magic constants and is sargable if used on columns

``````IF EXISTS (SELECT @A EXCEPT SELECT @B)
PRINT 'Different'
``````
-
very nice - I assume this avoids the possibility of a collision; e.g. defaulting the value to a valid data value or of 2 NULLs being defaulted to the same value. – Karl Mar 18 '13 at 7:49
@Karl - Yes it doesn't rely on there being some sentinel value that can't occur in the data. – Martin Smith Mar 18 '13 at 7:49
Is that faster? – Herman Schoenfeld Mar 18 '13 at 8:09
@HermanSchoenfeld - Unlike the other two answers it is correct for all possible variable values. It will be plenty fast enough. This comparison is something pointless spending any time optimising. It will never be a significant factor. – Martin Smith Mar 18 '13 at 8:12
@HermanSchoenfeld - Instead of guessing how it may be implemented internally you should focus on optimizing proven bottlenecks. This won't be. – Martin Smith Mar 18 '13 at 9:57

In my opinion this is the best way to check for nullability and provide default value.

``````IF ( ISNULL(@A, 0) <> ISNULL(@B, 0) )
``````

General Syntax

``````ISNULL ( check_expression , replacement_value )
``````

The value of check_expression is returned if it is not NULL; otherwise, replacement_value is returned after it is implicitly converted to the type of check_expression, if the types are different. replacement_value can be truncated if replacement_value is longer than check_expression.

Refer: MSDN - ISNULL

-
What if `0` is a legitimate value? If `@A` is `0` and `@B` is NULL it will report they are the same. – Martin Smith Mar 18 '13 at 7:42
Is that faster? – Herman Schoenfeld Mar 18 '13 at 7:43
Maybe by a fraction. But it is more readable and that's what it's all about. – alzaimar Mar 18 '13 at 7:44
I have supposed that @A and @B are `Int` datatype so I have put default value `0` – Harsh Baid Mar 18 '13 at 7:46
Readability is nice, in this situation, performance is more important. I'm checking for inequality average 20 times per record. Most of the time it's not going to match so every "check" results in 9 comparisons. That's already 180 comparisons per row. This trigger runs on every update for all tables. The DB is batch loaded on occassion. Performance matters. – Herman Schoenfeld Mar 18 '13 at 7:47

you can do following

` ISNULL(@A,'N') <> ISNULL(@B,'N')`

-

Here are the results of a performance test that checks for inequality a million times such that 90% of the time the values are not equal, 10% of the time each value may be null.

``````IF (@A <> @B) OR (@A IS NULL AND @B IS NOT NULL) OR (@A IS NOT NULL AND @B IS NULL)
``````

Result: average 3848ms

``````IF (ISNULL(@A, 0) <> ISNULL(@B, 0))
``````

Result: average 3942ms

``````IF (@A = @B) GOTO Equal ELSE IF @A IS NULL AND @B IS NULL GOTO Equal
``````

Result: average 4140ms

``````IF EXISTS (SELECT @A EXCEPT SELECT @B)
``````

Result: average 7795ms

The times don't really matter, it's the relative difference that counts. Clearly, the classic approach is the fastest. Likely MSSQL has internally optimised for this type of check.

Test run on MacBook Pro (Intel Core 2 Duo, 2.4Ghz, 8GB RAM inside a Vista VM running MSSQL 2008 Express).

-

I know many won't like this, but as performance is an important issue I'm using this (unless someone shows a good reason)

``````IF @A = @B GOTO Equal ELSE IF @A IS NULL AND @B IS NULL GOTO Equal
NotEqual:
PRINT 'Different'
Equal:
``````

This is much faster as almost always @A and @B are equal resulting in only 1 comparison. In the minority of cases when @A and @B are not equal, an average of 1.5 further comparisons are required to determine non-equality.

This is for column-level auditing of row updates within a trigger. The comparisons @A and @B denote "old value" and "new value" for every column in every row in every update for every table.

-
-1 As without benchmarks this answer is currently based on nothing else than your guesses. Let me know if you update this answer to include a runnable script that does some actual performance testing. – Martin Smith Mar 18 '13 at 10:04
@MartinSmith OP has got benchmark posted as of now.. – Harsh Baid Mar 19 '13 at 6:36