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I'm trying to define a generic class that takes any type that can be set to null:

public abstract class BundledValue_Classes<T> 
    where T : class
{
    private Tuple<T, object> _bundle= new Tuple<T, object>();
    public T Value
    { 
        get { return _bundle == null ? null : _bundle.Item1; }
        set { _bundle = new Tuple<T, object>(value, obj); }
    }
    //...

This works fine. I also want to create a derived class that can take any primitive type (int, double, etc), and simply resolve that into the same as the above class, but where the primitive is wrapped in a Nullable

public abstract class BundledValue_Structs<T> 
    : BundledValue_Classes<T?> 
    where T : struct
{
   //...
}

But for some reason, this doesn't work. I get the error: The type 'T?' must be a reference type in order to use it as parameter 'T' in the generic type or method 'BundledValue_Classes<T>'

Is it clear what I'm trying to do here? I don't want to have to copy paste the contents of the whole BundledValue_Classes<T> class just to handle the case of a primitive wrapped in a Nullable<T>.

Perhaps there's some way to set the type constraint on BundledValue_Classes<T> so that it will not only accept classes, but any type that can be assigned a null value (including Nullable<T> types, which appear to be the only exception to the rule.)

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1  
Side-note: I'd strongly advise you to follow .NET naming conventions. The name customTuple<T> doesn't do so... – Jon Skeet Dec 14 '13 at 22:00
    
@JonSkeet That was just me removing a lot of cruft from the class to make the example more clear. – Alain Dec 15 '13 at 16:57
    
It's fine to give clean, short examples - but you're not adding to the clarity by ignoring normal naming conventions. – Jon Skeet Dec 15 '13 at 18:52
    
Why is there a Java tag? Removing it.. – Narendra Pathai Dec 20 '13 at 7:26
up vote 12 down vote accepted

Nullable<T> is a struct, as per the documentation. It simply isn't a class. It's a value type, which looks a bit like this in terms of fields:

public struct Nullable<T>
{
    private readonly T value;
    private readonly bool hasValue;
}

The null value for a Nullable<T> type isn't a null reference, it's just a value where the hasValue field is false.

Note that Nullable<T> doesn't satisfy a condition for a constraint of where TFoo : struct however, as that's actually a non-nullable value type constraint. Basically Nullable<T> doesn't satisfy either the class or the struct constraint. There's no constraint which does only allow for nullable types (reference or Nullable<T>).

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So Nullable<T> is magic beyond having special syntax? It's a type which is neither : class nor : struct? – delnan Dec 14 '13 at 22:08
    
@delnan: It's a type which satisfies neither of those type constraints, yes. It also has special boxing behaviour. – Jon Skeet Dec 14 '13 at 22:09
    
Thanks @JonSkeet - posted a followup question asking if there's a workaround to duplicating the class: stackoverflow.com/questions/20597586/… – Alain Dec 15 '13 at 17:42
    
No workaround necessary. See my reply to your followup question. Nullable<T> is a struct, but nullable types i.e) int? or double?, are types that satisfy the <T> specifier. – drankin2112 Dec 15 '13 at 21:34
    
@drankin2112: The OP wants to restrict the type parameter to nullable types. You simply can't do that. Saying "just don't use Bundled<float>" isn't a good answer, IMO. – Jon Skeet Dec 15 '13 at 21:38

As noted, the type Nullable<T> is a struct which encapsulates a T and a flag which indicates whether it is valid. Because the implementers of .NET didn't see any usefulness to being able to have a type which could encapsulate a thing of any thing and indicate whether it was valid, they decided that they didn't want to allow Nullable<Nullable<T>> [a decision I dislike, by the way], and rather than come up with a special constraint just for the generic parameter in Nullable<T>, they decided that even though Nullable<T> is a struct, it shouldn't satisfy a struct type constraint.

Personally, I'd have rather seen Nullable<T> either simply be an "ordinary" struct with exposed fields of type bool and unconstrained T, which could be used by e.g. Dictionary.TryGetValue to return a value and indicate whether it was valid (regardless of whether TValue was a class, a non-nullable struct, or a Nullable<T>), or else have it be a class containing a T. The value of being able to say someNullable != null as a shortcut is minuscule compared to the confusion and complications it causes compared with someNullable.HasValue. Still, .NET is what it is. Personally, I would suggest generally avoiding nullable types, since one can't do much of anything with a nullable type without copying out the value first. Such types also have some weird quirks with regard to thread safety (e.g. code that receives a Nullable<T> and observes that HasValue cannot safely assume that GetValueOrDefault will return Default(T), even if nothing can possibly have modified the Nullable<T> since it was received).

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