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why is typeof int? variable is Int32

int? x = 1;
Console.WriteLine(x.GetType().Name);

If it is okey then whats the use of Nullable.GetUnderlyingType

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2  
Err - Whats the question? –  m.edmondson Dec 23 '10 at 10:57
1  
I think the question is why does the code write out "Int32" instead of "Nullable<Int32>" –  Martin Brown Dec 23 '10 at 11:01
    
I think what he means is this: If calling x.GetType().Name can get you Int32 in above example, why do we need Nullable.GetUnderlyingType() to find out that its Int32. –  decyclone Dec 23 '10 at 11:02
    
i meant both ... :) –  Mubashir Khan Dec 23 '10 at 11:06

5 Answers 5

up vote 15 down vote accepted

Calling GetType() boxes your variable. The CLR has a special rule that Nullable<T> gets boxed to T. So x.GetType will return Int32 instead of Nullable<Int32>.

int? x = 1;
x.GetType() //Int32
typeof(int?) //Nullable<Int32>

Since a Nullable containing null will be boxed to null the following will throw an exception:

int? x = null;
x.GetType() //throws NullReferenceException

To quote MSDN on Boxing Nullable Types:

Objects based on nullable types are only boxed if the object is non-null. If HasValue is false, the object reference is assigned to null instead of boxing

If the object is non-null -- if HasValue is true -- then boxing occurs, but only the underlying type that the nullable object is based on is boxed. Boxing a non-null nullable value type boxes the value type itself, not the System.Nullable<T> that wraps the value type.

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some code formatting would improve your answer :) –  Peter Lillevold Dec 23 '10 at 11:09

This example is a bit confused, because:

int? x = 1;

creates a Nullable<int> like you expect; however:

Type tupe = x.GetType();

is a call to a non-virtual method on object, which isn't (and can't be) overridden - therefore this is a boxing operation; and Nullable<T> has special boxing rules:

  • if it is empty, it boxes to null
  • if it has a value, the value is boxed and returned

i.e.

int? x = 1;
int y = 1;

box to exactly the same thing.

Therefore, you are passing typeof(int) to GetUnderlyingType.

A more illustrative example of when this helps is when using reflection:

class Foo {
    public int? Bar {get;set;}
}
...
Type type = typeof(Foo); // usually indirectly
foreach(var prop in type.GetProperties()) {
     Type propType = prop.PropertyType,
          nullType = Nullable.GetUnderlyingType(propType);

     if(nullType != null) {
         // special code for handling Nullable<T> properties;
         // note nullType now holds the T
     } else {
         // code for handling other properties
     }
}
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GetUnderlingType - my favorite typo of the day. Also, tupe. –  BoltClock Dec 23 '10 at 11:07
    
@Marc: Actually, GetType is not virtual and that's why it requires boxing (it calls the implementation of Object.GetType and that requires the receiver to be of type Object). If it were virtual, and was overridden in the derived class, it wouldn't require boxing. –  Mehrdad Afshari Dec 23 '10 at 11:09
    
@Mehrdad - I was unclear in my terminology; it is a virtcall, but it is to a non-virtual method that resolves to object hence needs boxing. As would a virtcall to a virtual method that hasn't been overridden. I know you know that - I'm just adding full context ;p –  Marc Gravell Dec 23 '10 at 11:11
    
you mean that x.GetType() and x.Value.GetType() are the same? strange isnt it. and when you do reflection on some method returning nullable type, you get something like Nullable'1 –  Mubashir Khan Dec 23 '10 at 11:12
    
@Mubashir if you think that's strange, it has another consequence: stackoverflow.com/questions/194484/… –  Marc Gravell Dec 23 '10 at 11:13

Its for when you don't know its Int32.

Example:

    public Type GetNullableUnderlyingType<T>(Nullable<T> obj) 
        where T : struct
    {
        return Nullable.GetUnderlyingType(typeof(Nullable<T>));
    }

Here, you can pass any Nullable object and get it to return it's underlying type.

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1  
The problem here is; to call that method in regular code, the generics must be resolved at the caller. Which means that the caller already knows the type. And (to match the signature) they must already know it is nullable etc. If they already know... why are they asking? –  Marc Gravell Dec 23 '10 at 11:17
    
@Mark: I agree with you. –  decyclone Dec 23 '10 at 11:22

When you write int? it's as if you've written Nullable<int>. That's the type you're looking for, I think.

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exactly, should it not be something like Nullable'1 like i have for List<int> as List'1 –  Mubashir Khan Dec 23 '10 at 11:05

Mainly its for dealing with a generic method:: e.g.

public static void SomeMethod<T>(T argument)
{
     if(Nullable.GetUnderlyingType(typeof(T) != null)
     {
             /* special case for nullable code go here */
     }
     else
     {
            /* Do something else T isn't nullable */
     }
}

It's important to know this, as certain things that are very cheap can be wildly expensive on nullable's. For instance, if(argument == null) is normally super cheap, but when done in a generic method on a Nullable<T> is forced to box the argument to get a null reference. Your best bet is to use EqualityComparer<T>.Default which will slow everything else down, but makes nullable's not suffer.

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