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I just don't get something in the .NET generic type casting. Can someone explain what happens in the following code snippet?

void Main()
    IEnumerable<int> ints = new List<int>();
    IEnumerable<string> strings = new List<string>();

    var rez1=(IEnumerable<object>)ints; //runtime error
    var rez2=(IEnumerable<object>)strings; //works
    var rez3=(List<object>)strings; //runtime error
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3 Answers 3

up vote 11 down vote accepted

Let's start with the second line which is easiest.

That cast works because the type parameter of IEnumerable<T> is now covariant (that's what the out in out T does). This means you can cast an IEnumerable<Derived> to an IEnumerable<Base> freely.

The first line, which would seem to be the same case, does not work because int is a value type. Interface variance does not work with value types at all because value types do not really inherit from System.Object; they can be boxed into an object, but that's not the same. The documentation mentions that

Variance applies only to reference types; if you specify a value type for a variant type parameter, that type parameter is invariant for the resulting constructed type.

Finally, the third line does not work because the type parameter of List<T> is invariant. You can see there is no out on its type parameter; the rules disallow that because List<T> is not an interface:

In the .NET Framework 4, variant type parameters are restricted to generic interface and generic delegate types.

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But Int32 can be cast to Object. Isn't that sufficient to make a covariance? Or it is a compiler feature? – Vasaka Sep 11 '12 at 18:04
@Vasaka: That's a boxing operation and not a reference conversion. It's technical, but despite the identical syntax what the compiler actually does in each case is totally different. – Jon Sep 11 '12 at 18:05
... as are the type parameters of all generic classes and structs; type variance being supported only for interface and delegate types. – phoog Sep 11 '12 at 18:05
@Vasaka the link in my answer explains why (object)1 doesn't count as "assignment compatible" but (object)"Hello" does. – phoog Sep 11 '12 at 18:06
@Vasaka the first post was the wrong one; I meant to refer you to this one on "Inheritance and Representation":… – phoog Sep 11 '12 at 18:13

This is because interface covariance only works with reference types. Int32, of course, is a value type.

This gives more information:

And so does this:

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The definition of every type which derives from System.ValueType, with the exception of System.Enum, actually defines two kinds of things: a heap object type, and a storage-location type. Instances of the latter may be implicitly converted to the former (making a copy of the data contained therein), and instances of the former may be explicitly typecast to the latter (likewise); even though both kinds of things are described by the same System.Type, and although they have the same members, they behave very differently.

A List<AnyClassType> will expect to hold a bunch of heap-object references; whether the list in question is a List<String>, List<StringBuilder>, List<Button>, or whatever, may be of interest to users of the list, but isn't really of interest to the List<T> itself. If one casts a List<Button> to an IEnumerable<Control>, someone who calls its GetEnumerator() method will expect to get an object which will output references to heap objects that derive from Control; the return from List<Button>.GetEnumerator() will satisfy that expectation. By contrast, if someone were to cast a List<Int32> to List<Object>, someone who called GetEnumerator() would expect something that would output heap object references, but List<Integer>.GetEnumerator will instead yield something that outputs value-type integers.

It's possible to store Int32 values into a List<Object> or a List<ValueType>; storing an integer to such a list will convert it to its heap object form and store a reference to it; calling GetEnumerator() would yield something that outputs heap references. There is no way to specify, however, that such a list will only contain instances of the heap type corresponding to Int32. In C++/CLI, it's possible to declare variables of type "reference to heap-stored valuetype", but the mechanisms behind generic types in .net cannot work with such types.

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