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Maybe this is a dumb question, but I really want to figure this one out.

For example I have the following setup:

// .h
@interface MyClass : NSObject
   NSView *myView;

// .m

@implementation MyClass


   myView = [[NSView alloc] init];

   // AND THIS ?

   myView = [myView init]; // assuming that myView was allocated somewhere earlier in init method
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3 Answers 3

up vote 2 down vote accepted

init methods tend to assume that you only send init once to every object.

Sending init again to a previously-allocated-and-initialized myView will break this assumption, causing memory leaks and possibly subsequent weird behavior. Both result from your second init message to myView creating objects, adding observers, etc. that the same object had already set up before.

That's what the second line in someMethod does.

The first line creates a new view, this being the impact of the alloc/init one-two punch. This view is a different object from the view you entered someMethod with (if any), so sending init to that object as part of its creation is not a problem.

Remember: the object is not the variable. myView is the name of the variable; when we say “myView”, we really mean “the object that myView holds”.

(It may be a good idea to re-read this answer from the top with the concept from the last paragraph firmly in mind.)

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Great explanation! Thank you Peter! I have another follow up question. What if I want to change the contents of a view object? For example: NSView *iv = arrOfSubvs[0]; iv = [iv initWithFrame:[[[self playerView] layer] bounds]]; - so I want to grab particular view that is sitting in the array and change its contents, is the second line a valid thing to do or it introduces some negative effect? –  Eugene Gordin Apr 26 '13 at 16:15
@EugeneGordin: It's invalid, for the same reasons why doing the same thing with init is invalid. Any initializer (init…) message should only be sent to each object no more than once. This is why alloc and init is written as a one-two punch: you initialize it then, literally in the same line in which you allocated it, and never again because you never do it separately. –  Peter Hosey Apr 26 '13 at 19:54
Got it! Thank you! –  Eugene Gordin Apr 26 '13 at 20:02

This statement myView = [[NSView alloc] init]; is just a nested method call to this following

NSView *myView =[NSView alloc]; //line 1
myView=[myView init];//line 2

If you do it in a single line or in multiple lines it doesn't do any thing specific.

line 1 : here a new memory location is allocated for the object.

line 2 : An init is sent to the object, to initialize the object.

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That doesn't answer what the effect is of doing line 2 without line 1, as shown in the question. –  Peter Hosey Apr 26 '13 at 7:20
@PeterHosey: He mentioned in comments that alloc is done somewhere else, so alloc + init in 2 lines, this is what I understood and answered. –  Anoop Vaidya Apr 26 '13 at 8:22

Objective-C differs from many other object-oriented languages in making object creation an explicit two stage process, allocation and initialisation.

If you are familiar with languages such as Java, C# and C++ then the allocation part of object creation is indivisible from initialisation. So for example in Java you might write:

class Tree {

// constructor/initialiser
public Tree ()
   // whatever is needed to initialise a Tree


Tree myTree = new Tree(); // allocate and initalise a tree

Java's new expression allocates memory for a Tree and then invokes the constructor to setup up that memory correctly.

The above languages are recognising that allocation and initialisation are just two parts of what is really a single operation: object creation.

In Objective-C the above example would be:

@implementation Tree

// constructor/initialiser
(id) init ()
   // whatever is needed to initialise a Tree


Tree *myTree = [[Tree alloc] init]; // allocate and initalise a tree

Here you could in theory separate the allocation and the initialization but that is not to be advised. The reason for this is [Tree alloc] doesn't usually return a fully formed Tree, it allocates some memory and marks it as a Tree but any instance variables owned by Tree, or the super classes of Tree are not initialised - to do the initialisation init must be called. If you separate the two operations then you potentially have incomplete objects lying around which will not behave as expected. So though you can separate them doing so is so unwise that Apple's documentation for init states:

An init message is coupled with an alloc message in the same line of code

That is Apple tells a small untruth to prevent you making a big mistake.

Objective-C does also provide a single operation form of creation:

Tree *myTree = [Tree new]; // alloc + init

However unlike Java et al if you write an initializer which takes arguments you don't get automatically get a version of new which takes arguments - you need to write that yourself (as a class method using alloc and the initializer which takes the arguments).


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