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I'm looking for a way to write code that tests whether a value is boxed.

My preliminary investigations indicate that .NET goes out of its way to conceal the fact, meaning that GetType() and IsValueType don't reveal the difference between a boxed value and an unboxed value. For example, in the following LinqPad C# expressions, I have faith that o1 is boxed and i1 is not boxed, but I would like a way to test it in code, or, second best, a way to know FOR SURE when looking at any variable or value, even if its type is "dynamic" or "object," whether it's boxed or not boxed.

Any advice?

// boxed? -- no way to tell from these answers!
object o1 = 123;

// not boxed? -- no way to tell from these answers!
int i1 = 123;
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I am wondering why it matters to you? How will you treat a 'boxed' or 'unboxed' object differently? –  Cos Callis Apr 27 '11 at 15:52
@Cos: Boxing has performance implications. –  Robert Harvey Apr 27 '11 at 16:01
you could generate an InvalidCastException inline using some int operator, then catch it. If you try and make it into a function boxing/unboxing will occur on the call. –  Jodrell Apr 27 '11 at 16:26
@Jodrell -- could you elaborate on your suggestion please, perhaps by sketching some code? –  Reb.Cabin Apr 27 '11 at 16:41
@Robert, @Rep... while it looks like you have a good answer, I am still intrigued with the question of "why". Yes, it has performance implications, but that is a design time decision. How will an object be treated differently at runtime if it is or isn't boxed? Are you planning to use something like: if(oThing.isBoxed) {//do this;} else {//do that;}?? –  Cos Callis Apr 27 '11 at 17:24

7 Answers 7

up vote 8 down vote accepted

Here are some simple helper methods to check if a variable is a boxed integer:

public static bool IsBoxed(object item)
    return true;

public static bool IsBoxed<T>(T item) where T : struct
    return false;

Just call IsBoxed(...) on your variable:

IsBoxed(o1) // evaluates to true
IsBoxed(i1) // evaluates to false

This accomplishes nothing, of course. Why exactly do you need to know if a value is boxed or not?

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surely the second could be IsBoxed<T>(T item) where T : struct. –  Random832 Apr 27 '11 at 16:04
@JSBangs, this answer won't be equivalent to mine because it only works for int's. Even with the edits this answer incorrectly flags the following as true: IsBoxed("hello world"); –  JaredPar Apr 27 '11 at 16:12
@JaredPar: The code above is not meant to be serious. It is meant to illustrate the uselessness of checking if a variable is boxed or not. It is equivalent to having a bool IsProgramRunning { return true; } method. Of course the answer is problematic, in the same way the question is. –  Allon Guralnek Apr 27 '11 at 16:17
I don't understand the implementation of the first "IsBoxed". Suppose you pass it null. It returns true. But null is not a boxed anything. Suppose you pass it "hello". It returns true. But "hello" is not a boxed anything. If your point is that the question itself is bizarre, I take your point. But these methods do not do what they advertise. –  Eric Lippert Apr 27 '11 at 20:10
@kvb: No, it could not. There is no such thing as a "boxed nullable". When a nullable int is boxed, it either becomes null, or it becomes a boxed int. It never becomes a "boxed nullable". No such animal. –  Eric Lippert Apr 28 '11 at 1:50

Try the following

public static bool IsBoxed<T>(T value)
        (typeof(T).IsInterface || typeof(T) == typeof(object)) &&
        value != null &&

By using a generic we allow the function to take into account both the type of the expression as viewed by the compiler and it's underlying value.

Console.WriteLine(IsBoxed(42));  // False
Console.WriteLine(IsBoxed((object)42)); // True
Console.WriteLine(IsBoxed((IComparable)42));  // True


A couple of people have asked for clarification on why this needs to be generic. And questioned why this is even needed at all, can't the developer just look at code and tell if a value is boxed? In an attempt to answer both those questions consider the following method signature

void Example<T>(T param1, object param2, ISomething param3) where T : ISomething {
  object local1 = param1;
  ISomething local2 = param1;

In this scenario any of the provided parameters or locals could potentially represent boxed values and could just as easily not be. It's impossible to tell by casual inspection, only an examination of a combination of the runtime type and the reference by which the value is held can determine that.

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Why calculate at runtime what is already known at compile time? –  Allon Guralnek Apr 27 '11 at 16:09
@Allon because to know if a value is boxed you need both runtime and compile time information. This is especially important when dealing with nested generics –  JaredPar Apr 27 '11 at 16:12
@Allon: Assume I'm a library writer, and do not have access to all the code that might use my library. In Debug builds, I wish to advise users that they are incurring a perf penalty by passing boxed values to my library routine. I don't see a way to do this with static checks in my library. –  Reb.Cabin Apr 27 '11 at 17:05
"It's perfectly reasonable to take the stand in an API that you don't want to deal with boxed values" No it's not. Not if you're willing to deal with reference types. Boxing is only a performance penalty compared to dealing directly with value types. –  Random832 Apr 28 '11 at 1:26
@Random832 actually it is a reasonable stance if your constraints dictate it. Performance matters and boxing has a direct impact on performance. –  JaredPar Apr 28 '11 at 15:14

GetType() and IsValueType don't reveal the difference between a boxed value and an unboxed value.

GetType is a sealed (non-virtual) method on System.Object. Calling this method on a value-type will definitely box it. Not even Nullable<T> is able to get around this - calling GetType on a nullable will return the underlying type if it has a value (boxed as the underlying type) or throw a NullReferenceException if it doesn't (boxed to null, can't dereference a null-reference).

when looking at any variable or value, even if its type is "dynamic" or "object," whether it's boxed or not boxed.

In general, if you have an expression that "holds" a value-type, the value of that expression will be a reference to a box unless the expression's compile-time type is of the value-type itself (generics are slightly more complicated). Common reference-types that can hold references to boxed structures are object, dynamic and interface-types.

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I suppose Intellisense will tell me the static type of an expression, and if it's a value type, and thus that it's not boxed. Good. –  Reb.Cabin Apr 27 '11 at 16:33
Can you elaborate on the Generics issue a bit -- how to tell whether an instantiation of a generic type is statically a value type? This seems related to the problem of writing a generic routine that has arithmetic operators in it ... I gather it's impossible because the compiler cannot generate code unless it knows whether the operators should be intrinsic operators on value types (like + and * on int) or should be operator overloads, which are methods on the type. –  Reb.Cabin Apr 27 '11 at 16:36
Your last paragraph is the right answer, with the slight clarification that when using the generics the "compile time" type may not be determined until runtime. –  supercat Jan 13 '12 at 21:51

Well, let's use the trick ...

What do we know?

  • Value-type variable gets boxed again and again when assigned into reference-type variable
  • Reference-type variable will not get boxed again ...

So we will just check whether it gets boxed again (into another object) ... so we compare references

isReferenceType will be false here, because we compare 2 objects on heap (one boxed in surelyBoxed, one boxed just in call to ReferenceEquals):

int checkedVariable = 123;     //any type of variable can be used here
object surelyBoxed = checkedVariable;
bool isReferenceType = object.ReferenceEquals(surelyBoxed, checkedVariable);

isReferenceType will be true here, because we compare 1 object on heap to itself:

object checkedVariable = 123;     //any type of variable can be used here
object surelyBoxed = checkedVariable;
bool isReferenceType = object.ReferenceEquals(surelyBoxed, checkedVariable);

This works for ANY type, not just for int and object

To put it into well-usable method:

    public static bool IsReferenceType<T>(T input)
        object surelyBoxed = input;
        return object.ReferenceEquals(surelyBoxed, input);

This method can be easily used like this:

int i1 = 123;
object o1 = 123;
bool i1Referential = IsReferenceType(i1);  //returns false
bool o1Referential = IsReferenceType(o1);  //returns true
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If a type is a value type and its static type is 'dynamic' or 'object', or an interface, it is always boxed.

If a type is a value type and its static type is the actual type, it is never boxed.

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Add interfaces to the "always boxed" category. –  supercat Jun 15 '11 at 23:31

I think actually the question is kind of misstated. Isn't the question actually, "How can I tell if an object is a box for another type?"

With reference to Allon's comment, if you have an object of type Object and the object is a primitive value type, it's a box. I'm not certain this is 100% correct, but (similar to Allon's implementation):

// Assume there is some object o.
bool isBoxed = o.GetType().IsPrimitive;
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very helpful. I was using public void test<T>(this T obj) { bool isPrimitive = typeof(T).IsPrimitive; } but, the results were incorrect on a boxed primitive –  Devin Garner Mar 14 '12 at 14:10

Similar to Allon's answer, but should return the correct answer for any type without generating a compile-time error:

int i = 123;
Console.WriteLine(IsBoxed(i));    // false

object o = 123;
Console.WriteLine(IsBoxed(o));    // true

IComparable c = 123;
Console.WriteLine(IsBoxed(c));    // true

ValueType v = 123;
Console.WriteLine(IsBoxed(v));    // true

int? n1 = 123;
Console.WriteLine(IsBoxed(n1));    // false
int? n2 = null;
Console.WriteLine(IsBoxed(n2));    // false

string s1 = "foo";
Console.WriteLine(IsBoxed(s1));    // false
string s2 = null;
Console.WriteLine(IsBoxed(s2));    // false

// ...

public static bool IsBoxed<T>(T item)
    return (item != null) && (default(T) == null) && item.GetType().IsValueType;

public static bool IsBoxed<T>(T? item) where T : struct
    return false;

(Although you could make the argument that the possible compile-time error caused by Allon's code is a feature, not a bug: if you hit a compile-time error then you're definitely not dealing with an unboxed value type!)

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