Could someone please explain the following behavior in SQL?
SELECT * FROM MyTable WHERE MyColumn != NULL (0 Results) SELECT * FROM MyTable WHERE MyColumn <> NULL (0 Results) SELECT * FROM MyTable WHERE MyColumn IS NOT NULL (568 Results)
<> is Standard SQL-92;
!= is its equivalent. Both evaluate for values, which
NULL is not --
NULL is a placeholder to say there is the absence of a value.
Which is why you can only use
IS NOT NULL as predicates for such situations.
This behavior is not specific to SQL Server. All standards-compliant SQL dialects work the same way.
Note: To compare if your value is not null, you use
IS NOT NULL, while to compare with not null value, you use
<> 'YOUR_VALUE'. I can't say if my value equals or not equals to NULL, but I can say if my value is NULL or NOT NULL. I can compare if my value is something other than NULL.
NULL has no value, and so cannot be compared using the scalar value operators.
In other words, no value can ever be equal to (or not equal to) NULL because NULL has no value.
Hence, SQL has special IS NULL and IS NOT NULL predicates for dealing with NULL.
Note that this behavior is the default (ANSI) behavior.
SET ANSI_NULLS OFF
You'll get different results.
SET ANSI_NULLS OFF will apparently be going away in the future...
In SQL, anything you evaluate / compute with
NULL results into UNKNOWN
This is why
SELECT * FROM MyTable WHERE MyColumn != NULL or
SELECT * FROM MyTable WHERE MyColumn <> NULL gives you 0 results.
To provide a check for
NULL values, isNull function is provided.
Moreover, you can use the
IS operator as you used in the third query.
Hope this helps.
The only test for NULL is IS NULL or IS NOT NULL. Testing for equality is nonsensical because by definition one doesn't know what the value is.
Here is a wikipedia article to read:
SELECT * FROM MyTable WHERE ISNULL(MyColumn, ' ') = ' ';
to return all rows where MyColumn is NULL or all rows where MyColumn is an empty string. To many an "end user", the NULL vs. empty string issue is a distinction without a need and point of confusion.
NULL Cannot be compared to any value using the comparison operators. NULL = NULL is false. Null is not a value. The IS operator is specially designed to handle NULL comparisons.
I just don't see the functional and seamless reason for nulls not to be comparable to other values or other nulls, cause we can clearly compare it and say they are the same or not in our context. It's funny. Just because of some logical conclusions and consistency we need to bother constantly with it. It's not functional, make it more functional and leave it to philosophers and scientists to conclude if it's consistent or not and does it hold "universal logic". :) Someone may say that it's because of indexes or something else, I doubt that those things couldn't be made to support nulls same as values. It's same as comparing two empty glasses, one is vine glass and other is beer glass, we are not comparing the types of objects but values they contain, same as you could compare int and varchar, with null it's even easier, it's nothing and what two nothingness have in common, they are the same, clearly comparable by me and by everyone else that write sql, because we are constantly breaking that logic by comparing them in weird ways because of some ANSI standards. Why not use computer power to do it for us and I doubt it would slow things down if everything related is constructed with that in mind. "It's not null it's nothing", it's not apple it's apfel, come on... Functionally is your friend and there is also logic here. In the end only thing that matter is functionality and does using nulls in that way brings more or less functionality and ease of use. Is it more useful?
Consider this code:
SELECT CASE WHEN NOT (1 = null or (1 is null and null is null)) THEN 1 ELSE 0 end
How many of you knows what will this code return? With or without NOT it returns 0. To me that is not functional and it's confusing. In c# it's all as it should be, comparison operations return value, logically this too produces value, because if it didn't there is nothing to compare (except. nothing :) ). They just "said": anything compared to null "returns" 0 and that creates many workarounds and headaches.
This is the code that brought me here:
where a != b OR (a is null and b IS not null) OR (a IS not null and b IS null)
I just need to compare if two fields (in where) have different values, I could use function, but...
Old question, but the following might offer some more detail.
null represents no value or an unknown value. It doesn’t specify why there is no value, which can lead to some ambiguity.
Suppose you run a query like this:
SELECT * FROM orders WHERE delivered=ordered;
that is, you are looking for rows where the
delivered dates are the same.
What is to be expected when one or both columns are null?
Because at least one of the dates is unknown, you cannot expect to say that the 2 dates are the same. This is also the case when both dates are unknown: how can they be the same if we don’t even know what they are?
For this reason, any expression treating
null as a value must fail. In this case, it will not match. This is also the case if you try the following:
SELECT * FROM orders WHERE delivered<>ordered;
Again, how can we say that two values are not the same if we don’t know what they are.
SQL has a specific test for missing values:
Specifically it is not comparing values, but rather it seeks out missing values.
Finally, as regards the
!= operator, as far as I am aware, it is not actually in any of the standards, but it is very widely supported. It was added to make programmers from some languages feel more at home. Frankly, if a programmer has difficulty remembering what language they’re using, they’re off to a bad start.
NULL is not anything...it is unknown. NULL does not equal anything. That is why you have to use the magic phrase IS NULL instead of = NULL in your SQL queries
You can refer this: http://weblogs.sqlteam.com/markc/archive/2009/06/08/60929.aspx
I would like to suggest this code I made to find if there is a change in a value,
i being the new value and
d being the old (although the order does not matter). For that matter, a change from value to null or vice versa is a change but from null to null is not (of course, from value to another value is a change but from value to the same it is not).
CREATE FUNCTION [dbo].[ufn_equal_with_nulls] ( @i sql_variant, @d sql_variant ) RETURNS bit AS BEGIN DECLARE @in bit = 0, @dn bit = 0 if @i is null set @in = 1 if @d is null set @dn = 1 if @in <> @dn return 0 if @in = 1 and @dn = 1 return 1 if @in = 0 and @dn = 0 and @i = @d return 1 return 0 END
To use this function, you can
declare @tmp table (a int, b int) insert into @tmp values (1,1), (1,2), (1,null), (null,1), (null,null) ---- in select ---- select *, [dbo].[ufn_equal_with_nulls](a,b) as [=] from @tmp ---- where equal ---- select *,'equal' as [Predicate] from @tmp where [dbo].[ufn_equal_with_nulls](a,b) = 1 ---- where not equal ---- select *,'not equal' as [Predicate] from @tmp where [dbo].[ufn_equal_with_nulls](a,b) = 0
The results are:
---- in select ---- a b = 1 1 1 1 2 0 1 NULL 0 NULL 1 0 NULL NULL 1 ---- where equal ---- 1 1 equal NULL NULL equal ---- where not equal ---- 1 2 not equal 1 NULL not equal NULL 1 not equal
The usage of sql_variant makes it compatible for variety of types