Within the .net runtime, every non-nullable value type has an associated reference type (often referred to as a "boxed value type") which derives from
Object Foo = 5; won't actually store an
Foo; instead it will create a new instance of the reference type associated with
Int32 and store a reference to that instance. A
class constraint on a generic type specifies that the type in question must be some sort of a reference type, but does not by itself exclude the possibility that the type may be used to pass a reference to a boxed value-type instance. In most contexts outside generic type constraints, interface types are regarded as class types.
It's important to note that not only are boxed value types stored like reference types; they behave like reference types. For example,
List<string>.Enumerator is a value type which implements
IEnumerator<string>. If one has two variables of type
List<string>.Enumerator, copying one to the other will copy the state of the enumeration, such that there will be two separate and independent enumerators which point to the same list. Copying one of those variables to a variable of type
IEnumerator<string> will create a new instance of the boxed value type associated with
List<string.Enumerator and store in the latter variable a reference to that new object (which will be a third independent enumerator). Copying that variable to another of type
IEnumerator<string>, however, will simply store a reference to the existing object (since
IEnumerator<string> is a reference type).
The C# language tries to pretend that value types derive from
Object, but within the guts of the .net Runtime they really don't. Instead, they're convertible to types which derive from
System.ValueType (which in turn derives from
Object). The latter types will satisfy a type constraint, even though the former ones will not. Incidentally, despite its name,
System.ValueType is actually a class type.