From this reference:

When a new object is created, memory for it is allocated, and its instance variables are initialized. First among the object’s variables is a pointer to its class structure. This pointer, called isa, gives the object access to its class and, through the class, to all the classes it inherits from.

From what I could understand reading this and this, it allows, for one, to use introspection but in a pragmatic way (iOS development), what can a programmer benefit from knowing/understanding this special pointer?

  • 7
    read it as "is a". "myObj is a MyClass instance" – vikingosegundo Jun 12 '12 at 14:44
  • do you have example, that what is a isa pointer please? – user454083 Jul 8 '14 at 12:29

The real benefit is a better understanding of the Objective-C runtime, which is actually quite complex compared to static languages like C++. The isa pointer, in practical terms, isn't really used all that much unless you're hacking the runtime to do something special. This guide has more info on how it is used by the runtime.

You shouldn't really use the isa directly in production code. It's like retainCount - it's important you understand it but you shouldn't ever call it.

  • 2
    +1 for the guide. Like many people who dedicate some time to stackoverflow, I like to know how deep the rabbit hole goes. – Rui Peres Jun 12 '12 at 14:49
  • The Objective-C runtime is very much like that! No matter how much you learn, there's probably something else, even if it's a nuanced behaviour or practice. – Ash Furrow Jun 12 '12 at 14:50

On 64-bit environment, an object’s ISA field shouldn’t be accessed. The ISA field no longer holds a pointer. It includes some pointer data and uses the remaining bits to hold other runtime information. CLASS property or OBJECT_GETCLASS function can be used to read an isa field. OBJECT_SETCLASS can be used to write an isa field.

Ref: https://developer.apple.com/library/ios/documentation/General/Conceptual/CocoaTouch64BitGuide/ConvertingYourAppto64-Bit/ConvertingYourAppto64-Bit.html#//apple_ref/doc/uid/TP40013501-CH3-SW1


At runtime, when a message is sent to an object, that object goes to the class that created it and says: "I was sent this message. Run the code of the matching method." This is different than most compile language, where the method to be executed is determined at compile time.


It uses its isa pointer. Every object has an instance variable called isa. When an object is created, the class sets the isa instance variable of the return object to point back at that class. It is called the isa pointer because an object "is a" instance of that class. Although you probably will never explicitly use the isa pointer, it existence gives Objective-C gets much of its power.

An object only responds to a message if its class (pointed to by its isa pointer) implements the associated method. Because this happens at runtime, XCode cannot always figure out at compile time (when the application is built) whether an object will respond to a message. XCode will give you an error if it thinks you are sending message to an object that will not respond, but if it is not sure, it will let the application build.

If, for some reason (and there are many possibilities), you end up sending a message to an object that does not respond, your application will thrown an exception. So the isa pointer is the reason for runtime error . Let's check detail and example here: IOS - Objective-C - Exceptions And Unrecognized Selectors


isa points to the class object so this would work

if(self->isa == [self class])

Understanding how to use this, would have some benefits, such as introspection and tests on the class objects of the created object

  • 3
    I would not recommend using this; if ([self isKindOfClass:[self class]]) is a much better approach, even if checking pointer equality of Class objects is technically correct. – Ash Furrow Jun 12 '12 at 14:45
  • 3
    @AshFurrow what do you think isKindOfClass: uses to implement its behaviour...? ;) – Jasarien Jun 12 '12 at 14:46
  • 3
    Of course! But that's under the hood. Just like you shouldn't call .cxx_destruct or objc_msgSend yourself. – Ash Furrow Jun 12 '12 at 14:47
  • 1
    there might be situations, where isKindOfClass: will fail: If an object neither is a subclass of NSObject nor implements the NSObject protocol. – vikingosegundo Jun 12 '12 at 14:51
  • 4
    The base classes don't implement the isa pointer— it's part of struct objc_object. But the idiomatically correct way to 'use' it is via calling the ObjC runtime APIs directly, as with object_getClass() or class_getSuperclass(). These look at the isa pointer internally, but the NSObject methods all call through to these. Only the ObjC runtime implementation should work with these. – Jim Dovey Jun 12 '12 at 15:00

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.