What does "@private" mean in Objective-C?
What does @private
mean in Objective-C?
It's a visibility modifier—it means that instance variables declared as @private
can only be accessed by instances of the same class. Private members cannot be accessed by subclasses or other classes.
For example:
@interface MyClass : NSObject
{
@private
int someVar; // Can only be accessed by instances of MyClass
@public
int aPublicVar; // Can be accessed by any object
}
@end
Also, to clarify, methods are always public in Objective-C. There are ways of "hiding" method declarations, though—see this question for more information.
As htw said, it's a visibility modifier. @private
means that the ivar (instance variable) can only be accessed directly from within an instance of that same class. However, that may not mean much to you, so let me give you an example. We'll use the init
methods of the classes as examples, for simplicity's sake. I'll comment inline to point out items of interest.
@interface MyFirstClass : NSObject
{
@public
int publicNumber;
@protected // Protected is the default
char protectedLetter;
@private
BOOL privateBool;
}
@end
@implementation MyFirstClass
- (id)init {
if (self = [super init]) {
publicNumber = 3;
protectedLetter = 'Q';
privateBool = NO;
}
return self;
}
@end
@interface MySecondClass : MyFirstClass // Note the inheritance
{
@private
double secondClassCitizen;
}
@end
@implementation MySecondClass
- (id)init {
if (self = [super init]) {
// We can access publicNumber because it's public;
// ANYONE can access it.
publicNumber = 5;
// We can access protectedLetter because it's protected
// and it is declared by a superclass; @protected variables
// are available to subclasses.
protectedLetter = 'z';
// We can't access privateBool because it's private;
// only methods of the class that declared privateBool
// can use it
privateBool = NO; // COMPILER ERROR HERE
// We can access secondClassCitizen directly because we
// declared it; even though it's private, we can get it.
secondClassCitizen = 5.2;
}
return self;
}
@interface SomeOtherClass : NSObject
{
MySecondClass *other;
}
@end
@implementation SomeOtherClass
- (id)init {
if (self = [super init]) {
other = [[MySecondClass alloc] init];
// Neither MyFirstClass nor MySecondClass provided any
// accessor methods, so if we're going to access any ivars
// we'll have to do it directly, like this:
other->publicNumber = 42;
// If we try to use direct access on any other ivars,
// the compiler won't let us
other->protectedLetter = 'M'; // COMPILER ERROR HERE
other->privateBool = YES; // COMPILER ERROR HERE
other->secondClassCitizen = 1.2; // COMPILER ERROR HERE
}
return self;
}
So to answer your question, @private protects ivars from access by an instance of any other class. Note that two instances of MyFirstClass could access all of each other's ivars directly; it is assumed that since the programmer has complete control over this class directly, he will use this ability wisely.
It important to understand what it means when somebody says that you can't access a @private
instance variable. The real story is that the compiler will give you an error if you attempt to access these variables in your source code. In previous versions of GCC and XCode, you would just get a warning instead of an error.
Either way, at run time, all bets are off. These @private
and @protected
ivars can be accessed by an object of any class. These visibility modifiers just make it difficult to compile the source code into machine code that violates the intent of the visibility modifiers.
Do not rely on ivar visibility modifiers for security! They provide none at all. They are strictly for compile-time enforcement of the class-builder's wishes.