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Do interface variables have value-type or reference-type semantics?

Interfaces are implemented by types, and those types are either value types or reference types. Obviously, both int and string implement IComparable, and int is a value type, and string is a reference type. But what about this:

IComparable x = 42;
IComparable y = "Hello, World!";

(The question I was trying to answer was presumably deleted because it asked whether interfaces are stored on the stack or the heap, and, as we should all be aware, it's more constructive to think of differences between value and reference types in terms of their semantics rather than their implementation. For a discussion, see Eric Lippert's The stack is an implementation detail.)

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Since Peter O. deleted the preamble explaining why I posted this question, I'll add that information in a comment: I wrote up an answer to a similar question that was deleted before I could post the answer. Noting that it is encouraged to ask a question you know the answer to if it's not already on SO, I searched, and found some related questions, but none really emphasized the central point. – phoog Dec 16 '11 at 23:01
a simple search on SO could have yielded: all answering the same question and there's pleanty more – Rune FS Dec 16 '11 at 23:12
@RuneFS I saw those questions before I posted. The first link discusses boxing generally; only one of its seven examples concerns an interface reference to a value type. The second link asks whether assigning a class instance to an interface constitutes boxing, which doesn't address the value-type part of the question. – phoog Dec 16 '11 at 23:16
The first link has exactly the information needed to answer this question (as part of the question itself): that casting a ValueType to an interface type is a boxing operation. The second link is to an answer (not a question) and the answer quotes the specifications and thereby explains that it's a boxing operation – Rune FS Dec 16 '11 at 23:21
up vote 10 down vote accepted

Usually, as per the existing answers, it is a reference-type and requires boxing; there is an exception though (isn't there always?). In a generic method with a where constraint, it can be both:

void Foo<T>(T obj) where T : ISomeInterface {

This is a constrained operation, and is not boxed even if it is a value-type. This is achieved via constrained. Instead, the JIT performs the operation as virtual-call for reference-types, and static-call for value-types. No boxing.

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@phoog indeed, it is an odd level in-between - but IMO it is an important aspect, that deserves a mention in the context of the question title. – Marc Gravell Dec 16 '11 at 23:15
@supercat hmmm... they won't really exhibit reference semantics... concrete example? – Marc Gravell Dec 19 '11 at 7:50
@supercat no, that is smoke and mirrors; you are talking about the semantics of an unrelated object (TheList), and has nothing to do with the semantics of the struct. It is only meaningful to talk about the semantics in terms of first-order changes to values of the entity, i.e. change the value of TheList. – Marc Gravell Dec 19 '11 at 8:18
@supercat but again you're talking about an unrelated object (the list); the semantics of the list are not in question. The only interesting change in your example is : assigning the field I a different list (or null). Anything else is talking about something else completely. – Marc Gravell Dec 19 '11 at 15:57
@MarcGravell: My point is that a struct which holds a private immutable reference to a class instance will behave semantically more like the class type it wraps than like a value type. Change the ListWrapStruct above so that the indexed setter will invoke the indexed setter of the wrapped list. Set element 0 of a ListWrapStruct<int> to 3, make a copy of that struct, change element 0 of the copy to 8, and read element 0 of the original. If the ListWrapStruct<int> had value semantics, the original would still read 3. Instead it will read 8. The original example wasn't the greatest... – supercat Dec 19 '11 at 16:04

This is about understanding boxing and unboxing of types. In your example, the int is boxed upon assignment and a reference to that "box" or object is what is assigned to x. The value type int is defined as a struct which implements IComparable. However, once you use that interface reference to refer to the value type int, it will be boxed and placed on the heap. That's how it works in practice. The fact that using an interface reference causes boxing to occur by definition makes this reference type semantics.

MSDN: Boxing and Unboxing

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"the value type int is not a class and therefore does not implement any interfaces": The value type int most assuredly implements several interfaces. You might want to check the documentation: public struct Int32 : IComparable, IFormattable, IConvertible, IComparable<int>, IEquatable<int> from – phoog Dec 16 '11 at 22:55
You're a little bit right - int === struct Int32. There's no difference until you cast it as one of the implementing interfaces at which point it becomes boxed. – Eben Geer Dec 16 '11 at 23:03
phoog is right. The idea that only classes implement interfaces is completely wrong. Structs and arrays are not classes, but they also implement interfaces. (And of course, interfaces inherit from other interfaces.) – Eric Lippert Dec 18 '11 at 15:53
Yes, I see that part of what I said was completely wrong. I'll edit my answer again to be more correct. – Eben Geer Dec 18 '11 at 22:41

Variables of interface type will have always have either immutable semantics, mutable reference semantics, or "oddball" semantics (something other than normal reference or value semantics). If variable1 and variable2 are both declared as the same interface type, one performs variable2 = variable1, and one never again writes to either variable, the instance referred to by variable1 will always be indistinguishable from the one referred to be variable2 (since it will be the same instance).

Generic types with interface constraints may have immutable semantics, mutable reference semantics, or "quirky" semantics, but may also have mutable value semantics. This can be dangerous if the interface is not documented as having mutable value semantics. Unfortunately, there is no way to constrain an interface to have either immutable semantics or mutable value semantics (meaning that following variable2 = variable1, it should not be possible to change variable1 by writing variable2, nor vice versa). One could add a "struct" constraint along with the interface constraint, but that would exclude classes which have immutable semantics while not excluding structs that have reference semantics.

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A variable or field whose type is IComparable is a reference-type variable or field, regardless of the type of the value assigned to that field. This means that x in the sample code is boxed.

A simple test will demonstrate that. The test is based on the fact that you can only unbox a value type to its original type (and the nullable version of that type):

    [TestMethod, ExpectedException(typeof(InvalidCastException))]
    public void BoxingTest()
        IComparable i = 42;
        byte b = (byte)i;      //exception: not allowed to unbox an int to any type other than int
        Assert.AreEqual(42, b);


On top of that, the C# specification specifically defines reference-type as comprising class types, interface types, array types and delegate types.


As Marc Gravell points out in his answer, a generic type with an interface constraint is a different case. This doesn't cause boxing.

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why would you want to post a question only to answer it immediately afterwards? – Rune FS Dec 16 '11 at 22:56
@RuneFS Peter O. edited my question, deleting the explanation and the link to…. If you click on the time where it says "edited 10 mins ago" or whatever, you can see the version history -- a fact that took me several months to stumble upon. – phoog Dec 16 '11 at 22:58
@RuneFS: Because, as the questioner originally wrote, "it is encouraged to ask a question you know the answer to". – Peter O. Dec 16 '11 at 22:59
A good question is often more valuable an answer. You have achieved neither..... – Tony Hopkinson Dec 16 '11 at 23:10
@PeterO. if the answer is not already on SO already – Rune FS Dec 16 '11 at 23:18

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