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If I'm not mistaken, structs mean objects, and struct pointers mean pointer to objects right? In an article, It says that classes are structs which means that they are objects.

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The traditional definition of a class in Objective-C looks like this:

struct objc_class {
    Class isa;
    Class super_class;
    const char *name;
    long version;
    long info;
    long instance_size;
    struct objc_ivar_list *ivars;
    struct objc_method_list **methodLists;
    struct objc_cache *cache;
    struct objc_protocol_list *protocols;

So, if it says that classes are structs, then how will they fit in the argument of objc_msgSend(id self, SEL_cmd) which requires a struct pointer which is of type id?

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Do understand that there's a difference between a C++ "class" and "object" and the same terms in Objective-C. An Objective-C "object" is a very specific sort of structure that conforms to Objective-C specifications. It is implemented using C struct entities, but that fact can/should be ignored most of the time. C and struct are, in essence, the "assembly language" underlying Objective-C. –  Hot Licks Oct 19 '13 at 21:01

2 Answers 2

up vote 8 down vote accepted

Classes are structs, but Class is a pointer type, being defined as

typedef struct objc_class *Class;

and this answers the first part of the question.

Now, if you take a look at <objc/objc.h> you'll find

struct objc_class {

 #if !__OBJC2__
    Class super_class                                        OBJC2_UNAVAILABLE;
    const char *name                                         OBJC2_UNAVAILABLE;
    long version                                             OBJC2_UNAVAILABLE;
    long info                                                OBJC2_UNAVAILABLE;
    long instance_size                                       OBJC2_UNAVAILABLE;
    struct objc_ivar_list *ivars                             OBJC2_UNAVAILABLE;
    struct objc_method_list **methodLists                    OBJC2_UNAVAILABLE;
    struct objc_cache *cache                                 OBJC2_UNAVAILABLE;
    struct objc_protocol_list *protocols                     OBJC2_UNAVAILABLE;


and in <obj/runtime.h> you'll find

/// Represents an instance of a class.
struct objc_object {

meaning that in Objective-C 2.0 objc_object and objc_class are identical structs, both having an isa field.

That's why you can pass a Class where an id is required: classes are objects after all.

You would normally expect a warning about the incompatible pointers type, but apparently the Obj-C compiler uses an ad-hoc treatment this specific case. I have no references to support this, though.


I finally found a reference in the clang source code:

In ASTContext.cpp, this is the Class declaration

TypedefDecl *ASTContext::getObjCClassDecl() const {
  if (!ObjCClassDecl) {
    QualType T = getObjCObjectType(ObjCBuiltinClassTy, 0, 0);
    T = getObjCObjectPointerType(T);
    TypeSourceInfo *ClassInfo = getTrivialTypeSourceInfo(T);
    ObjCClassDecl = TypedefDecl::Create(const_cast<ASTContext &>(*this),
                                        SourceLocation(), SourceLocation(),
                                        &Idents.get("Class"), ClassInfo);

  return ObjCClassDecl;

and this is the id declaration

TypedefDecl *ASTContext::getObjCIdDecl() const {
  if (!ObjCIdDecl) {
    QualType T = getObjCObjectType(ObjCBuiltinIdTy, 0, 0);
    T = getObjCObjectPointerType(T);
    TypeSourceInfo *IdInfo = getTrivialTypeSourceInfo(T);
    ObjCIdDecl = TypedefDecl::Create(const_cast<ASTContext &>(*this),
                                     SourceLocation(), SourceLocation(),
                                     &Idents.get("id"), IdInfo);

  return ObjCIdDecl;

In both cases the type is set to the result of getObjCObjectPointerType. This causes the compiler to consider both Class and id as pointers to Objective-C objects.

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If I'm not mistaken, structs mean objects, and struct pointers mean pointer to objects right?

Mostly, yes. But since in Objective-C, objects (including classes) can only be manipulated using pointers, the shorthand "object" is used instead of a more correct "pointer to an object", even in pieces of official documentation.

So, if it says that classes are structs, then how will they fit in the argument of objc_msgSend()?

They pass a pointer to a struct which is an object. Class is a typedef for struct objc_class *, whereas id is a typedef for struct objc_object *. Both are (non-function) pointers, and both structures contain an isa field, they can be used interchangeably as far as you know what you are doing.

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I wrote pretty much the same thing, but I have a doubt: why isn't the compiler throwing an Incompatible pointer types when you pass a struct objc_class * to a function expecting a struct objc_object *? Having an identical layout shouldn't matter at compiler time, so I would expect a warning. What's the trick? –  Gabriele Petronella Oct 19 '13 at 18:32
@GabrielePetronella The trick is that the compiler knows that Class and id are special types. With the same reasoning, you could expect objc_msgSend(@"foo", @selector(length)) to emit a warning, because struct __NSCFConstantString * is not compatible with struct objc_object *, but these are built-in types as well. –  user529758 Oct 19 '13 at 18:34
Thanks, this confirms my intuition. Do you have any reference to support this? –  Gabriele Petronella Oct 19 '13 at 18:35
@GabrielePetronella Um, not any particular reference off the top of my head. You may find something interesting in the source of clang, though. –  user529758 Oct 19 '13 at 18:50
@GabrielePetronella Yay, that's nice! :) I've replied too. –  user529758 Oct 25 '13 at 16:40

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