When I was debugging a few lines of code and asking me why on earth it wasn't working I have stumbled on this situation ...

if(answer.AnswerID == null) 
    // do something

When in fact it should be this way:

if(answer == null)
    // do something
  • answer is an object of the type Answer - a class.
  • AnswerID is a property of type long.

The weird thing is that if you try something like this:

long myLongValue = null;

The compiler will show you an error:

Connot convert null to long ...

So my question is: Why did I not get a compile error when I was trying to compare a long type with null?


This question IS NOT about nullable types.

I'm asking WHY .NET allows me to compare a long variable with null. I'm talking about long type and not about long? type.

  • Is it of type long? or long? – CodeCaster Jan 14 '14 at 10:44
  • Are you asking why answer.AnswerID == null doesn't cause a compilation error because as AnswerID is a long it can never be null? – Liath Jan 14 '14 at 10:47
  • 2
    You get a compiler warning that tells you more. The compiler assumes a Nullable<long> even if it's long. – Tim Schmelter Jan 14 '14 at 10:48
  • @CodeCaster: How does this question duplicate that one? There is no mention of a nullable type within the question (and apparently, it's not a mistake). – BoltClock Jan 14 '14 at 10:48
  • Isn't it long? ? (mind the question mark!) – Delphi.Boy Jan 14 '14 at 10:49

As @Tim pointed out, you won't get an error for the following code:

long foo = 42;

if (foo == null) { }

You'll get a warning instead:

The result of the expression is always 'false' since a value of type 'long' is never equal to 'null' of type 'long?'.

This gives a warning instead of an error because of lifted operators, defined in the C# language specification as such:

Lifted operators permit predefined and user-defined operators that operate on non-nullable value types to also be used with nullable forms of those types. [...] For the equality operators

==  !=

a lifted form of an operator exists if the operand types are both non-nullable value types and if the result type is bool. The lifted form is constructed by adding a single ? modifier to each operand type. The lifted operator considers two null values equal, and a null value unequal to any non-null value. If both operands are non-null, the lifted operator unwraps the operands and applies the underlying operator to produce the bool result.

The "underlying operator" in this case is the predefined value type long's == operator:

For predefined value types, the equality operator (==) returns true if the values of its operands are equal, false otherwise.

Because foo is implicitly converted ("Predefined implicit conversions that operate on non-nullable value types can also be used with nullable forms of those types.") and the null literal is also implicitly converted ("An implicit conversion exists from the null literal to any nullable type."), the expression:

(long)foo == null


(long?)foo == (long?)null

Which, given foo is of type long and thus always has a value, always returns false and won't even apply long's == operator.

I'm not entirely sure, but I suspect this to exist to enable comparison between nullable and non-nullable values without explicit casting:

long? foo = 42;
long bar = 42;

Console.WriteLine(foo == bar); // true

foo = null;
Console.WriteLine(bar == foo); // false

If this wasn't handled by the language as specified above, you'd get "Operator == cannot be applied to operands of type long? and long", because Nullable<T> doesn't have an == operator, and long doesn't have an == operator accepting a long?.

  • 1
    +1 But it's still not clear why == uses CompareTo. I've seen that Int64.CompareTo(object) explicitly allows null or Int64(long). Is this method used, if so, why? – Tim Schmelter Jan 14 '14 at 11:04
  • 1
    @Tim see the last edit, please correct me if I'm wrong. So as far as I understand, no, Int64.CompareTo() is not called, because long's == ("the underlying operator") will only be applied if both operands are not null. – CodeCaster Jan 14 '14 at 11:43
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    @CodeCaster: seems to be the reason. However, i'm still waiting for E. Lippert ;) – Tim Schmelter Jan 14 '14 at 11:54
  • This does not work for user defined structs. So reasoning is not correct. – SergeyS Jan 14 '14 at 11:54
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    It's not even always a mistake to compare a non-nullable type with null, as with generics we could have if(someValue == null) where someValue is of a generic type that might be non-nullable, but we want to do something in the case that it is nullable (and indeed, null). The fact that some instances will mean a non-nullable type is compared with null causes a (different) warning, because often what one really wants is if(someValue == default(T)), but there are times when the comparison to null is indeed exactly what one wants. – Jon Hanna Jan 14 '14 at 14:40

It will compile and it will even execute because the compiler evaluates the == and promotes the long to long? because that is the closest match to an == implementation that exists.

This is indeed not the best of behaviors, it's kind of like VB :-)


Have a look here for information about nullable types. Ordinary value types like long and int can't be made null ordinarily.

The reason it didn't fail when you tried to compare it to null was because it did the comparison and it wasn't null. So no error there.

  • Can't, but can be compared to null, question is different – Kamil Budziewski Jan 14 '14 at 10:48

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