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Question is simple and asked in the title.

C# 4.0 Specification says: (§4.2.2)

The object class type is the ultimate base class of all other types. Every type in C# directly or indirectly derives from the object class type.

Eric Lippert says:

Interface types, not being classes, are not derived from object.

Reality says:

Type t = typeof(ICloneable).BaseType;
Console.WriteLine(t == null);


So is spec wrong or what? Whom to believe?

share|improve this question
"Every type in C#...", well, I know pointers don't derive directly from System.Object; so is this an example of the "indirectly derives" case, or are pointers not a type? – codekaizen Jul 13 '10 at 10:58
@codekaizen Pointers are standalone topic. They are aliens to .net world, so they don't fit into main OO concepts. – Andrey Jul 13 '10 at 10:59
@codekaizen from Eric "Unsafe pointer types are explicitly outside of the normal type rules for the language." – Andrey Jul 13 '10 at 11:00
Well, then... (§4.2.2) ... Every normal type in C# directly or indirectly derives from or is convertable to the object class type. There, I fixed it. – codekaizen Jul 13 '10 at 11:03
up vote 26 down vote accepted

It's not quite as simple a question as you might think :)

Interfaces don't derive from object but you can call the members of object on them. So you can call ToString() on an expression which has a compile-time type of IDisposable, for example.

Coincidentally, I overhead a conversation between Neal Gafter and Eric at NDC discussing exactly this point...

I believe section 4.2.2 of the spec is over simplified, unfortunately. Hopefully Mads and Eric will fix it up for a future release - I'll mail them to make sure they see this question.

I'm also struggling to find anything in the spec to back up the rest of this answer. Section 3.4.5 of the C# 4 spec comes as close as I can find:

The members of an interface are the members declared in the interface and in all base interfaces of the interface. The members in class object are not, strictly speaking, members of any interface (13.2). However, the members in class object are available via member lookup in any interface type (7.4).

The conversion from an interface type to object is covered by section 6.1.6:

The implicit reference conversions are:

  • From any reference-type to object and dynamic.
share|improve this answer
Anything that implements an interface (classes or structs) is going to derive from object. I'm not aware of the other non-object types (e.g. pointers) being able to implement interfaces. – Tim Robinson Jul 13 '10 at 10:55
Would you say the spec is correct in that an interface indirectly inherits? Well, it doesn't inherit in the technical sense, but the end result appears to behave as such. – Adam Houldsworth Jul 13 '10 at 10:56
I can't catch difference between derive and have an effective base type. Even if declaration of class and interface looks very similar they are essentially different, interface is just a contract. So since in .net no class can derive from something different than Object every interface reference can be cast to object. but this doesn't mean for me that they actually derive from object. – Andrey Jul 13 '10 at 10:57
@Andrey: Effective base classes come into play in type inference and various things. However, I'm not sure that I was right about that section. Editing... – Jon Skeet Jul 13 '10 at 11:02
@BlackCamel: Sort of. As Andrey's own comment a bit earlier says, the spec defines that all the members of System.Object are always available via member lookup. – Jon Skeet Sep 25 '14 at 20:16

Jon is (as usual) spot on. It is not as easy as you think!

The spec is vague and slightly contradictory. In this particular case it is probably best to squint a little bit and get the gist of what the spec means to convey rather than narrowly parsing it for precise definitions.

The simple fact of the matter is that "inheritance" is a very overused term in object-oriented programming. (I seem to recall that C++ has six different kinds of inheritance, though I'd be hard pressed to name them all on short notice.)

If I had my druthers then the C# specification would clearly call out a difference between inheritance and interface implementation. Inheritance is *a code-sharing technique for class (and delegate) and struct (and enum) types"; its mechanism is that all heritable members of a base type become members of a derived type. That is in contrast with interface implementation which is a requirement that an implementing type have a certain set of public members. Those two things seem conceptually very different to me; one is about sharing existing members and the other is about requiring certain members.

However, the spec does not do so; it conflates the two under the rubric of inheritance. Given that these two somewhat different things have the same name in the spec, it is hard to reason clearly and precisely about the differences between them.

I personally prefer to think that object is not the "base type" of any interface, and that the members of object are not inherited by the interface. That you can call them on an instance of an interface is more like a courtesy extended to you by the compiler so that you do not have to insert a cast to object in there.

share|improve this answer
C++ has the same number of kinds of inheritance as C#- two. – Puppy May 13 '13 at 22:16
@DeadMG: C++ has public, private and protected inheritance, which C# does not -- C# has only public inheritance on classes. C++ has "virtual inheritance", which C# does not. C++ has multiple inheritance, which C# does not. – Eric Lippert May 13 '13 at 22:39

Interface types do not inherit from Object, but storage locations of interface types hold references to class-type objects which (if non-null) are guaranteed to inherit from System.Object.

I think understanding what's going on will be easiest if one starts by examining the difference between value types and class types. Suppose I have a structure:

public struct SimplePoint {public int x,y;}

and I have two methods

public doSomethingWithPoint(SimplePoint pt) ...
public doSomethingWithObject(Object it) ...

and cal each method:

SimplePoint myPoint = ...;

The first call does not pass a thing that derives from Object. It instead passes the contents of all of SimplePoint's public and private fields. The second call needs a thing which derives from Object, so it generates a new heap object instance of type SimplePoint which contains all the public and private fields of the value-type SimplePoint, and loads all those fields with the corresponding values from myPoint, and passes a reference to that object.

Note that the type SimplePoint actually describes two different kinds of things: a collection of fields (i.e. the value type) and a heap-object type. Which meaning is applicable depends upon the context where the type is used.

Interface types have a similar wrinkle: when used as storage-location types, they specify that the storage location will hold an object reference. When used as a generic constraint, they say nothing about how the type will be stored. Thus, a storage location of an interface type will hold a reference to a heap object that genuinely does inherit from System.Object, but a variable of a type constrained to an interface might hold either a reference or a bunch of fields.

share|improve this answer
The first call does pass a thing that derives from object: for example, you can call ToString() on it. – svick Feb 3 '13 at 22:04
@svick: It is only possible to call ToString directly on value types which define their own implementation of that method; if one writes 3.ToString();, it won't be performed as a virtual call to Object.ToString(), but will simply be performed as a direct call to the ToString() method which is defined for Int32; such a call is allowed not because Int32 derives from Object, but because Int32 defines its own ToString() method. Invoking ToString on a value type which does not define its own version will cause the system to create a new heap object instance which... – supercat Feb 3 '13 at 22:50
...holds data copied from the value type (and which does derive from Object), and will then call ToString on that. It does that because the unboxed value type is convertible to object. Some people try to pretend that boxed and unboxed structures are the same type. It is true that they are described by the same Type instance, but given their different behavior, I think it's more helpful to regard them as being different types. – supercat Feb 3 '13 at 22:55
"such a call is allowed not because Int32 derives from Object, but because Int32 defines its own ToString() method." - Can you clarify this? Both the System.ValueType and Int32 override ToString() method. They do not use 'new' to hide the method, if that's what you mean by "int32 defines its own ToString()". – thewpfguy Apr 9 '13 at 16:06
@thewpfguy: An instance method on a class T behaves as though there's a hidden parameter of type T. So Object.ToString() has a "hidden" parameter of type Object, StringBuilder.ToString() has a hidden parameter of type StringBuilder, etc. An instance member on a value types S will have a hidden parameter of type ref S, so Int32.ToString() has a parameter of type ref Int32. Note that unlike the other parameters in a virtual function, the hidden parameter's type is different in every override. – supercat Apr 9 '13 at 16:28

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