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Look into following code block:

//Declaring nullable variables.
//Valid for int, char, long...
Nullable<int> _intVar;
Nullable<char> _charVar;

//trying to declare nullable string/object variables
//gives compile time error. 
Nullable<string> _stringVar;
Nullable<object> _objVar;

While compiling code compiler gives following error message:

The type 'string'/'object' must be a non-nullable value type in order to use it as parameter 'T' in the generic type or method 'System.Nullable'

I read it several times but still unable to understand. Can anyone clarify this? Why object or string dont support nullable reference type?

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marked as duplicate by Rawling, wudzik, Dmitry Bychenko, Will Eddins, mustaccio Mar 6 at 18:35

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

Because yiu can assign null directly: String value = null; Object o = null; On the contrary, you can't to this with strcutures, e.g. int = null; is a compile time error –  Dmitry Bychenko Jan 20 at 11:35
Because they're already nullable? string _stringVar = null; compiles fine. –  Damien_The_Unbeliever Jan 20 at 11:35
you can't concatenate null strings for example –  Weyland Yutani Jan 20 at 11:36
@WeylandYutani: What do you mean by that, and how is it relevant? –  Jon Skeet Jan 20 at 11:37
@WeylandYutani yes you can; the result is well defined (all null strings act the same as "" as far as concatenation is concerned) –  Marc Gravell Jan 20 at 11:37

3 Answers 3

up vote 8 down vote accepted

object and string are reference types, so they're already nullable. For example, this is already valid:

string x = null;

The Nullable<T> generic type is only for cases where T is a non-nullable value type.

In the declaration for Nullable<T> there is a constraint on T:

public struct Nullable<T> where T : struct

That where T : struct is precisely the part that constrains T to be a non-nullable value type.

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And the constraint is probably there to make sure you don't do anything too crazy. .NET has tons of optimizations to make sure using Nullable isn't a significant performance hit. After all, Nullable is itself a value-type (a struct), but you can't do a nullable of a nullable - the compiler probably has an extra validation somewhere not covered by C# generic constraints - just using decompiled code of Nullable will let you do a eg. MyNullable<MyNullable<int>>. –  Luaan Jan 20 at 11:38
@Luaan: No, there's no "extra validation" here: where T : struct already prevents Nullable<Nullable<int>> because Nullable<int> isn't a non-nullable value type. I suspect your decompiled version didn't include the constraint. –  Jon Skeet Jan 20 at 11:40
@Luaan the "extra validation" there is specifically for the Nullable<T> case - the where T : struct explicitly has rules about that, which do not apply to MyNullable<T> / MyNullable<MyNullable<T>> - but it would prevent MyNullable<Nullable<T>>. –  Marc Gravell Jan 20 at 11:40
The constraint is there. The signature is public struct Nullable<T> where T : struct, ie. it's also a struct, and thus a valid value-type. What's wrong with my logic/understanding? –  Luaan Jan 20 at 11:44
@Luaan: Your assumption that where T : struct means that T just needs to be a struct. It must be a non-nullable value type. Nullable<int> isn't a non-nullable value type. But yes, thinking about it, your MyNullable<T> wouldn't be considered a nullable value type, so both MyNullable<MyNullable<int>> and Nullable<MyNullable<int>> would be okay, but MyNullable<Nullable<int>> wouldn't. –  Jon Skeet Jan 20 at 11:46

Nullable<T> is defined as:

public struct Nullable<T> where T : struct

meaning: it only works on value-type T (excluding Nullable<TSomethingElse> itself).

You cannot use Nullable<T> on reference-types (or on Nullable<T>), but you don't need to since all reference-types (including object and string) are already "nullable", in that you can assign null to them.

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string and object are reference types, and therefore are "nullable" already. The Nullable<T> type exists as a wrapper around value types that don't support null out of the box.

string myString = null //fine
int myInt = null //compiler error
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