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I was just looking at this answer, which contains the code for Nullable<T> from .NET Reflector, and I noticed two things:

  1. An explicit conversion is required when going from Nullable<T> to T.
  2. The == operator is not defined.

Given these two facts, it surprises me that this compiles:

int? value = 10;
Assert.IsTrue(value == 10);

With the code value == 10, either value is being magically converted to an int (hence allowing int's == operator to be used, or the == operator is being magically defined for Nullable<int>. (Or, I presume less likely, Reflector is leaving out some of the code.)

I would expect to have to do one of the following:

Assert.IsTrue((value.Equals(10)); // works because Equals *is* defined
Assert.IsTrue(value.Value == 10); // works because == is defined for int
Assert.IsTrue((int?)value == 10); // works because of the explicit conversion

These of course work, but == also works, and that's the part I don't get.

The reason I noticed this and am asking this question is that I'm trying to write a struct that works somewhat similarly to Nullable<T>. I began with the Reflector code linked above, and just made some very minor modifications. Unfortunately, my CustomNullable<T> doesn't work the same way. I am not able to do Assert.IsTrue(value == 10). I get "Operator == cannot be applied to operands of type CustomNullable<int> and int".

Now, no matter how minor the modification, I would not expect to be able to do...

CustomNullable<T> value = null;

...because I understand that there is some compiler magic behind Nullable<T> that allows values to be set to null even though Nullable<T> is a struct, but I would expect I should be able to mimic all the other behaviors of Nullable<T> if my code is written (almost) identically.

Can anyone shed light on how the various operators of Nullable<T> work when they appear not to be defined?

share|improve this question
Perhaps the Nullable class is override the == operator. Perhaps that is what is going on? – Malk Jan 26 '12 at 1:41
Good question. Now ask yourself this question: why can you add an int and a nullable int and get a nullable int? The Nullable<T> class does not define an addition operator. – Eric Lippert Jan 26 '12 at 1:55
@Eric, I was going to experiment with the other operators, but I figured that I'd start by posting my findings about ==. In any case, it seems to be that Nullable<T> is a "privileged" struct that the compiler treats differently than any struct I would write myself. I already knew about the magic that allows you to set a nullable to null, but I guess there is yet more magic. Am I on the right track? – devuxer Jan 26 '12 at 1:59
@DanM: Nullable is nothing but magic. See my answer for details. My recommendation for you is to thoroughly acquaint yourself with all the rules for operator overloading and nullable lifting before you attempt to emulate them; the specification makes fascinating reading. – Eric Lippert Jan 26 '12 at 2:06
up vote 21 down vote accepted

Given these two facts, it surprises me that this compiles

Given only those two facts, that is surprising.

Here's a third fact: in C#, most operators are 'lifted to nullable'.

By "lifted to nullable", I mean that if you say:

int? x = 1;
int? y = 2;
int? z = x + y;

then you get the semantics of "if either x or y is null then z is null. If both are not null then add their values, convert to nullable, and assign the result to z."

The same goes for equality, though equality is a bit weird because in C#, equality is still only two-valued. To be properly lifted, equality ought to be three-valued: x == y should be null if either x or y is null, and true or false if x and y are both non-null. That's how it works in VB, but not in C#.

I would expect I should be able to mimic all the other behaviors of Nullable<T> if my code is written (almost) identically.

You are going to have to learn to live with disappointment because your expectation is completely out of line with reality. Nullable<T> is a very special type and its magical properties are embedded deeply within the C# language and the runtime. For example:

  • C# automatically lifts operators to nullable. There's no way to say "automatically lift operators to MyNullable". You can get pretty close by writing your own user-defined operators though.

  • C# has special rules for null literals -- you can assign them to nullable variables, and compare them to nullable values, and the compiler generates special code for them.

  • The boxing semantics of nullables are deeply weird and baked into the runtime. There is no way to emulate them.

  • Nullable semantics for the is, as and coalescing operators are baked in to the language.

  • Nullables do not satisfy the struct constraint. There is no way to emulate that.

  • And so on.

share|improve this answer
Thanks for your detailed explanation. It's great to have an insider answering our questions. I figured I was going to need to write my own operator overloads, but it's helpful to understand why I'm not getting (nearly) equivalent results from (nearly) equivalent code. – devuxer Jan 26 '12 at 2:22
You may also want to see this answer: stackoverflow.com/a/24238812/79485 – Marcel Jun 16 '14 at 9:31
Could an assignment to a Nullable<ulong> be accidentally atomic depending on the C#/.NET versions and target architecture? I wrote a little WPF program in C# 5.0, Visual Studio 2013, .NET 4.5.2, targeting x64, to try to demonstrate tearing on regular ulong and Nullable<ulong>. I had no problem getting tearing with the regular ulong in a very short amount of time, but so far I have had no luck getting tearing with a Nullable<ulong>. Is it possible that the CLR is magically making the assignment atomic? – Kal Jul 16 '15 at 2:20

Well, if you can use reflector why don't you compile this code:

int? value = 10;
Console.WriteLine(value == 10);

and then open it in reflector? You'll see this (make sure to select 'None' as .net version to decompile to):

int? value;
int? CS$0$0000;
&value = new int?(10);
CS$0$0000 = value;
Console.WriteLine((&CS$0$0000.GetValueOrDefault() != 10) ? 0 : &CS$0$0000.HasValue);

So basically the compiler does the heavy lifting for you. It understands what '==' operation means when used with nullables and compiles the necessary checks accordingly.

share|improve this answer
because I don't have Reflector...I was getting the reflected code from a different SO answer, as I mentioned at the beginning of my question. – devuxer Jan 26 '12 at 1:46
Anyway, +1. I guess it's more compiler magic. – devuxer Jan 26 '12 at 1:55

This is language dependent. C# and Visual Basic emit different code when dealing with operators on nullable value types. To udnerstand it you need to look at the actual IL code.

share|improve this answer
You're right, but I think in this case, the issue is that the compiler is doing some special stuff for Nullable<T> that it's not doing for my code. – devuxer Jan 26 '12 at 1:56

Nullable<T> has this method:

public static implicit operator T?(T value)
  return new T?(value);

It looks like there is an implicit conversion from it 10 to Nullable<int> 10

To make == / != work for you. You can add

public static bool operator ==(MyNullable<T> left, MyNullable<T> right) {}
// together with:
public static implicit operator MyNullable<T>(T value) {}

should give you support for myNullable == 10 operation

share|improve this answer
Yes, but as I said in my question, the == operator is not defined for Nullable<T>, so if you have two Nullable<T>s, you shouldn't be able to do ==. – devuxer Jan 26 '12 at 1:54
Right. I included operator == just to show how you can do it. – THX-1138 Jan 26 '12 at 4:02

Because the compiler converts Nullable<T> to T and then performs the comparison.

share|improve this answer
Judging from @zespri's answer, that appears to be the case. +1 – devuxer Jan 26 '12 at 1:54

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