Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them, it only takes a minute:

What is the difference between declaring variables in the interface section vs. in the implementation section outside of a method.

share|improve this question
You should show an example of what you mean by outside. –  Joe Jan 10 '12 at 20:36

3 Answers 3

up vote 7 down vote accepted

Do you mean in the ivar block in the implementation, as in

@implementation MyClass {
    id someIvar;
// methods go here

If so, then the only difference is visibility to other code. At runtime, the ivar will be indistinguishable from one declared in the @interface section. However, code outside the class can see ivars declared in @interfaces, and unless those ivars are marked with @protected or @private, then the other classes can reach in and twiddle the ivars. But ivars declared in the @implementation are not even visible to code outside, so they cannot touch the ivars.

For the most part, this is just a code cleanliness issue. Nothing should go in the header file unless it's meant to be public. So why put ivars there?

As Josh Caswell noted, ivars declared in this fashion require a recent version of Clang.

The alternative interpretation of your question is you have code like

@implementation MyClass

- (void)someMethod { /* ... */ }

NSString *var;

- (void)otherMethod { /* ... */ }

If this is what you meant, then the answer is, don't do that. In this code snippet we've declared a global variable named var rather than an instance variable. The location of the variable inside the @implementation block is irrelevant, it's exactly identical to a global variable in C (because that's what it is).

share|improve this answer
I think it should be noted that ivars in the implementation block are a relatively new feature; this won't compile under GCC or (AFAICT) Clang < 2. –  Josh Caswell Jan 10 '12 at 20:45
@JoshCaswell: Fair point. I've added a note to that effect. –  Kevin Ballard Jan 10 '12 at 20:47
Even if those ivars are marked with protected or private, any code can reach in and twiddle the ivars. The compiler will only give a warning –  user102008 Nov 14 '12 at 22:37

A variable declared in the @interface is an instance variable. In more recent compilers instance variables can also be declared in a block in the @implementation in a similar way to doing so in the @interface - this effects their visibility but not their lifetime.

A variable declared "outside of a method" in the implementation, as in:


static int CallCount = 0;

is the closest thing Objective-C has to a class variable - a variable which all instances of a class share, as opposed to instance variables where each object instance has its own variable.

Such a variable has execution lifetime - it exists throughout a single execution of the whole application - just as typical class variables do in other languages. (The lifetime of instance variables is that of the object instance they belong to.)

The use of static further limits the visibility (not its lifetime) of the variable name to just the file containing the declaration - like a private class variable in other languages. Note that, unlike most languages class variables, variables declared in an @implementation without a static qualifier are added to the global namespace and thus increase the opportunities for name collisions - this is why they are not real class variables.

Such class variables are often initialized using the class method + initialize, just as instance variables are initialized using the instance method - init.

share|improve this answer

Declaring them in a class extension is often used in attempt to hide the instance variables and associated accessors from the client. Neither approach truly hides them, but hiding them is usually an improvement, and is available only if all compilers you need support it.

share|improve this answer
An "anonymous category" is actually called a class extension. –  Kevin Ballard Jan 10 '12 at 20:48
@Kevin right - i knew that. thanks for spotting it. (off to make a coffee...) –  justin Jan 10 '12 at 21:01

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

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