copy creates a new object which is, as the method name suggest, a carbon copy of the receiver (well in fact it depends of the implementation of the
copy method in each class, but that's the aim of the method anyway).
So in fact it does not really "increase the reference count of the by 1" but it rather create a new object, with a refcount of 1 as any newly allocated object, and make it have the same property / ivar values as the original.
So imagine you have a
Person class with the properties
age, if you needed to implement the
copy method yourself it would look sthg like this:
// Create a new instance
Person* mycopy = [[Person alloc] init];
// Make it an exact copy of the original
mycopy.name = self.name;
mycopy.surname = self.surname;
mycopy.age = self.age;
// and return that copy
Note that in this case, if you modify the copy later, the original is not modified, because it is a different instance.
With this principle, the original object does not have its refcount incremented by one, but you have a new object whose refcount is one (as if you just did alloc/init to create this new object yourself) and you still have to release or autorelease it at some point yourself (if you are not using ARC). That's why calling
copy on an object obey the same rules as
alloc regarding the need to call
autorelease to balance the refcount at some point
Note that there is some exceptions / special cases, especially for some classes that are known as "immutable", like
NSString. In such cases, it is reasonable to thingk that making a copy (aka a different object instance) that is a clone of the original, whereas the original cannot be modified, is not really efficient, and can be optimized.
So in cases like
NSString and some other, the
copy method may simply implemented to do a simple
retain as the behavior will be the same as you can't modify the original (and neither the copy) because these are immutable classes by nature.
Of course, the implementation of
mutableCopy (to get an
NSMutableArray from an
NSArray for example) do a real copy and not a simple retain, and the implementation of the
copy method in the mutable subclasses like
NSMutableArray do a real copy too, but for the case that request an immutable copy of an immutable object, the point of allocating a different instance is generally useless and memory-consuming and is thus implemented the same as a
But all this probable optimization does not change neither the behavior (because the classes are immutable) nor the memory management policy (as you still need to
release the object returned by