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Is it possible to detect a Nullable type (cast into an object) when it is null?

Since Nullable<T> is really a struct I think it should be possible.

double? d = null;
var s = GetValue(d); //I want this to return "0" rather than ""

public string GetValue(object o)
{
    if(o is double? && !((double?)o).HasValue) //Not working with null
       return "0";
    if(o == null)
       return "";
    return o.ToString();
}  
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If a routine which accepts a parameter of type 'object' is passed a variable of type Nullable<double>, then the routine will either receive a null object reference (if the variable was null), or a reference to a System.Double (if the variable was not null). It will not box an instance of Nullable<System.Double>. –  supercat Feb 6 '12 at 18:45

6 Answers 6

up vote 5 down vote accepted

http://msdn.microsoft.com/en-us/library/ms228597(v=vs.80).aspx

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

and

If the object is non-null -- if HasValue is true -- then boxing takes place, but only the underlying type that the nullable object is based upon is boxed.

So you either have a double or a null.

public string GetValue(object o)
{
    if(o == null) // will catch double? set to null
       return "";

    if(o is double) // will catch double? with a value
       return "0";

    return o.ToString();
} 
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So the answer is No, it is not possible unfortunately. Thanks for the explanation. –  Magnus Aug 31 '11 at 12:01
    
@Magnus But remember what Skeet told you. There is a way, but not through boxing. In the end all depends on exactly what you want to do. –  xanatos Aug 31 '11 at 12:03

You have the method GetValueOrDefault for every Nullable type, isn't it enough ?

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Since I take it object in my function I would need to cast it to Nullable<T> to be able to use that function. (as in my example) –  Magnus Aug 31 '11 at 11:08
1  
You don't need your function with this method, you can do GetDateOrDefault().ToString() –  remi bourgarel Aug 31 '11 at 11:11
    
Yeh, but this is a generic formatting function for all types. And I want to be able to detect all Nullable numeric types that are null and return "0" instead. –  Magnus Aug 31 '11 at 11:14
    
all "nullable type" are not numeric (ie GUID) –  remi bourgarel Aug 31 '11 at 11:35
    
Not, but those are the only ones i'm interested in (for example double? as in the example) –  Magnus Aug 31 '11 at 11:58

Your method currently takes object, which means the nullable value will be boxed... and will no longer be a nullable value. The value of o will either be a boxed value of the non-nullable type, or a null reference.

If at all possible, change your method to be generic:

public string GetValue<T>(T value)
{
    // Within here, value will still be a Nullable<X> for whatever type X
    // is appropriate. You can check this with Nullable.GetUnderlyingType
}
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Just to make this more clear, this means that there's no difference between a boxed nullable type that is null, and a null reference, in the memory. So there's no way to tell from within the method. –  Iravanchi Aug 31 '11 at 11:35
2  
@Iravanchi: I'd put it more strongly than that: there's no such thing as a boxed nullable type at all. The result of boxing a nullable type value is either a boxed non-nullable type, or a null reference. –  Jon Skeet Aug 31 '11 at 11:46
    
Thanks for the answer. Unfortunately the object is boxed before it reaches the GetValue function, so I cant use your generic example. –  Magnus Aug 31 '11 at 12:04
    
@Magnus: In that case there is no way of detecting the difference between a value which was originally a null double? and a value which was a normal null reference. –  Jon Skeet Aug 31 '11 at 12:05

If o is null then o is double? will be false. No matter the value of your input parameter double? d

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var s = d ?? GetValue(d);

if(o != null && o is double?)

I find this is interesting Which 1 to use, ?? or GetValueOrDefault()

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From what I understand, if you are trying to detect if ANY object is nullable, this can be written fairly easily.

try this...

public static bool IsNullable(dynamic value)
{
    try
    {
        value = null;
    }
    catch(Exception)
    {
        return false;
    }
    return true;
}

Simple!

share|improve this answer
    
Even if one calls IsNullable(5), the value = null statement will overwrite a storage location of type object, rather than one of type int. –  supercat Feb 6 '12 at 18:43
    
You are correct. In hindsight I had not double-checked this. Ideally the most elegant solution (at least in .net) should check to see if the object is a class or struct, and determine the "nullability" of the object. I believe my understanding is correct that structs cannot be null since they are value types which exist on the stack, and classes are reference types which exist on the heap, and therefore are references as opposed to absolute values. I am going to go away and investigate further. –  series0ne May 9 '12 at 15:09
    
There are three kinds of things in .net that are convertible to Object: Nullable value types, non-nullable value types, and objects. Note that value types are not objects, even though every non-nullable value type has an associated "boxed" object type to which it is implicitly convertible, and every non-null nullable value type is implicitly convertible to the object type associated with its non-nullable equivalent. C# defines "derive" in such a way that value types "derive" from Object, but they don't do so in the sense that other inherited class types define from their bases. –  supercat May 9 '12 at 15:25
    
It is useful to define inheritance in such a way that if X is inherits from Y, copying a variable xx of type X to a variable yy of type Y will make yy refer to the same object instance as xx, so Object.ReferenceEquals(xx,yy) will be true. Defining "interitance" in such a way that the above behavior always applies, and saying unboxed value types don't inherit from Object but boxed ones do, is more helpful IMHO than saying that all value types derive from Object, but some inheritance relations don't behave like normal ones. –  supercat May 9 '12 at 15:37
    
Parting note: the distinction between non-nullable value types, nullable value types, and objects, is applicable to <i>storage locations</i> (variables, parameters, fields, or array slots) and not instances. A storage location of one of those kinds will always hold things of that kind or (for the latter two kinds) null. Generic type parameters can refer to any of those kinds of things, however. Note also that storage locations of interface types are always object references, but generic types which are constrained to interfaces may be value types or class types. –  supercat May 9 '12 at 15:44

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