Let's start with a very simple piece of code:

decimal d = 2;

Console.WriteLine("d == 2 = {0}", d == 2);
Console.WriteLine("d == (decimal)2 = {0}", d == (decimal)2);
Console.WriteLine("d.Equals(2) = {0}", d.Equals(2));
Console.WriteLine("d.Equals((decimal)2) = {0}", d.Equals((decimal)2));

The result is 4xtrue. Now, let's change a type of a variable d to decimal?:

decimal? d = 2;

This time the result will be True, True, False, True. The explanation of this situation is quite easy. Equals method is implemented as follows for Nullable<T> type:

public override bool Equals(object other)
    if (!this.HasValue)
        return (other == null);
    if (other == null)
        return false;
    return this.value.Equals(other);

If this has a value and other parameter is not null then Decimal.Equals(object value) will be called. Decimal.Equals(object value) method works in this way, that if value parameter is not decimal then the result will be always false.

It seems to me that the current implementation is not intuitive and I wonder why Nullable<T> doesn't provide developers with generic version of Equals method e.g.:

public bool Equals(T other)
    if (!this.HasValue)
        return false;

    return this.value.Equals(other);

Was it done on purpose or is it an omission?

Comment 1:

A brief comment to be clear. I suggested that Nullable<T> should have two Equals methods i.e.: public override bool Equals(object other) and public bool Equals(T other)

  • I don't see how they could provide that. T is not necessarily IEquatable<T> Sep 11, 2013 at 7:57
  • Shouldn't it be a public bool Equals(T? other) method? Otherwise, given declarations decimal? d1, d2;, d1.Equals(d2) would be invalid.
    – user743382
    Sep 11, 2013 at 8:02
  • @hvd I think he wants an additional overload. So your example goes to the Equal(object) overload. But a generic Equals doesn't make sense unless you also have one on T. Sep 11, 2013 at 8:08
  • @mikez T is implicitly convertible to T?, so would still be callable without a specific overload for T. And without an overload for T?, calling decimal?.Equals with an argument of int? would still have the same problem this question asks about, as it would resolve to decimal?.Equals(object) and not convert the contained int value to type decimal.
    – user743382
    Sep 11, 2013 at 8:13
  • theres also an connect entry from 2011, but the state is closed!! connect.microsoft.com/VisualStudio/feedback/details/679706/…
    – Jehof
    Sep 11, 2013 at 12:07

2 Answers 2


Instead of writing (decimal)2 you can write 2m (will use that in the following).

When you use the == operator, no boxing occurs. The C# compiler will choose the pre-defined overload (i.e. the overload defined in the C# Language Specification; this is not necessarily a real .NET method) of operator == which matches best.

There are overloads:

operator ==(int x, int y);
operator ==(decimal x, decimal y);

There are no "mixed" overloads like operator ==(decimal x, int y);. Because an implicit conversion exists from int to decimal, your literal 2 is converted to 2m implicitly when you use ==.

With Equals, in some situations boxing occurs. You don't need nullables for that. To give examples, all of these calls:

object.Equals(2, 2m);
object.Equals(2m, 2);

return false! "Two" of type Int32 is not equal to "two" of type Decimal.

Only when method overloading leads to a conversion between int and decimal will the result be true. For example:

(2m).Equals(2);  // true

So while an extra overload of Equals could be added to Nullable<>, the behavior you describe is not really related to Nullable<>.


Although I like these questions, they can only really be answered by those on the design team responsible for the type. An obvious workaround is to access the Value that is T and use the Equals of that.

My best guess is that it would probably force all T to be IEquatable<T>, in order to generically access Equals<T> on a given type. This would work for the core value types, but other .NET structs wouldn't necessarily implement that interface and enum types don't.

I suppose it could be done via type checking / casting, but this then comes a lot of legwork versus the caller simply doing: myNullable.GetValueOrDefault().Equals().

You can make an extension method to do this task, to get it to call the method you need to specify the generic argument explicitly (otherwise the compiler calls Equals(object):

class Program
    static void Main(string[] args)
        double? d = null;


        d = 0.0;



public static class NullableExtensions
    public static bool Equals<T>(this T? left, T right) where T : struct, IEquatable<T>
        if (!left.HasValue)
            return false;

        return right.Equals(left.Value);

I've asked a question about why this call is needed.

Turns out the reason for having to force it down into the extension method is due to the compiler implementation only using extension methods if no suitable method exists, in this case Equals(object) is considered more suitable than Equals<T>(T) as the latter is an extension method. It's in the spec.

  • 1
    You: My best guess is that it would probably force all T to be IEquatable<T>, in order to generically access Equals<T> on a given type. Not really. The method the Original Poster suggests could be pasted directly into the Nullable<> source, an it would work. If Nullable<> had both overloads as true instance methods, overload resolution would have to choose between the two. It would make the situations entirely analogous to the example (2m).Equals(2) from my answer in this thread. Here there are two overloads to choose from, and the one that takes a decimal is most specific. Sep 11, 2013 at 10:45
  • @JeppeStigNielsen His code wouldn't work as is because the only available method would have been Equals(object), to get it to choose a type-specific version, you need to constrain T somehow, or cast manually and manually call the relevant Equals. I also said "probably", but as you say this isn't strictly true, you could test to see if the type implements IEquatable<T> and cast without the generic constraint. Sep 11, 2013 at 10:50
  • 1
    I am being misunderstood. With the extra overload from the original question, the extra overload would be chosen by overload resolution. Then the 2 argument would be implicitly converted to 2m. You are right it would end up calling Equals(object) (actually ValueType.Equals(object)), but that would be fine, because 2m and 2m are equal as objects. Conclusion: Yes, his code would "work" as is. Sep 11, 2013 at 11:02
  • 1
    @JeppeStigNielsen Oh I see, but you wouldn't get any of the benefits of calling based on knowing T, so boxing would still occur. His code would work as is given the ability to reimplement Nullable<T>, whereas my code works as a workaround. Sep 11, 2013 at 11:05

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