Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I am trying to create a structure that has several different variable of different types in it.

several of the types are of NSString, but trying to do this was causing an error

ARC forbids Objective-C objects in structs or unions

so having read about the error I see its sensible to add


before the NSString declaration, However I have no idea what the ramifications of this will be, I have had a quick read around and found this detailed post about the differences of

  • __strong
  • __weak
  • __unsafe_unretained

however it was still abit vague about whats going on with a NSString thats in a struct with __unsafe_unretained infront of it and was hoping someone can tell me whats going on and what I need to think about in the future regarding memory and stopping any leaks.

any help would be appreciated.

share|improve this question
possible duplicate of ARC - The meaning of __unsafe_unretained? – CodaFi Aug 8 '12 at 3:14
up vote 9 down vote accepted

Suppose, under ARC, you could declare a struct like this:

typedef struct {
    __strong NSObject *someObject;
    int someInteger;
} MyStruct;

Then you might write code like this:

MyStruct *thing = malloc(sizeof(MyStruct));

Problem: malloc doesn't zero-fill the memory it returns. So thing->someObject is some random value - not necessarily NULL. Then you assign a value to it like this:

thing->someObject = [[NSObject alloc] init];

Under the covers, ARC will turn that into code like this:

NSObject *temporary = [[NSObject alloc] init];
[thing->someObject release];
thing->someObject = temporary;

The problem here is that your program just sent release to some random value! Your app will probably crash at this point.

You might say that ARC should recognize the call to malloc and take care of setting someObject to NULL to prevent this. The problem is that malloc might be wrapped in some other function, like this:

void *myAllocate(size_t size) {
    void *p = malloc(size);
    if (!p) {
        // malloc failed.  Try to free up some memory.
        p = malloc(size);
    return p;

OK, now ARC has to know about your myAllocate function too... and that might be inside some static library that you got as a binary.

Your app might even have its own memory allocators that recycle old allocations without using free and malloc every time. So even changing malloc to zero-fill the memory before returning it would not work. ARC would have to know about any custom allocators in your program.

It would be very, very hard to make this work reliably. So instead, the creators of ARC just gave up and said “Forget it. We're not going to let you put __strong and __weak references in structs.”

That's why you can only put an object pointer into a struct if you use __unsafe_unretained to tell ARC “Don't try to manage ownership of the object that this references.”

You can try to use a struct containing __unsafe_unretained object references, perhaps using CFRetain and CFRelease to manually retain and release them. Then you can create an array of such structs. This is error-prone, so you should only do it if the profiler tells you that it's critical for performance.

Instead, just create a new Objective-C class instead of a struct. Give the class an @property for each field you would have put in the struct. The use an NSMutableArray to manage an array of instances of this new class.

share|improve this answer
Oh good lawd. Only ARC could break malloc! – CodaFi Aug 8 '12 at 4:37
Well, ARC is actually built into the language, whereas malloc is just a lowly library function. Who's breaking whom? ;-> – Jody Hagins Aug 8 '12 at 4:42
@JodyHagins I worry about that question a little too much... And besides, if malloc fails, the general response is to quit, run and hide in a corner until that wormhole you just created goes away. – CodaFi Aug 8 '12 at 4:52
lol... cool, thanks for your response, I understand my mistake now. the funny thing is I actually created a new Object class and tried to declare a struct in it.. lol I know what I need to do I loose it with the execution.. which I am trying to figure out by reading lots then presenting issues I am stuck with to helpfull people such as yourself on stakoverflow. – HurkNburkS Aug 8 '12 at 4:53
Ownership qualifiers are for the pointers not the types, so use it that way NSString * __string aString. Apple allows the other way but advises not to write it that way, because it is simply wrong. – Godric Jan 5 '14 at 13:07

Just more food for thought...

If you really need ARC pointers in non-objective-c code, you can use them natively in C++.

In fact, you can store ARC pointers in all the standard template containers, and they still retain (ha ha) their proper semantics.

struct Foo {
    NSDictionary *dictionary;
    NSString *string;
    __weak UIViewController *viewController;

std::list<UIView*> views;

Since the compiler treats ARC pointers as objects with non-trivial constructors, they can have their normal semantics.

All their ARC glory will be magically handled.

share|improve this answer
ha ha indeed! :P rhank you very much :) but I think for my own sake I should stick with Objective C class objects. however thank you for helping with my understanding of the situation.. I am still reading through your guys comments looking up the meaning of some of the tearms you are using I am unfamiliar with. – HurkNburkS Aug 8 '12 at 5:02

ARC just loves to complain! Actually, we have to look at this historically. In the old-style Manual Reference Counted environment from way back, the compiler didn't complain because it knew everything memory related was going to be your job, and your job alone. But that changed when Apple introduced Automatic Reference Counting, because the compiler needed to get substantially more anal about what type an object was and what it was contained in, so that it knew how to properly manage the memory for said object efficiently. When you place an Objective-C object into a C-struct, you're sort of sticking out your tongue at the compiler because a struct implies that you will own and manage the memory of the items inside of it yourself (that and ARC doesn't touch malloc and free). That's where __unsafe_unretained comes in. With it, we tell the compiler that any and all memory operations will be your responsibility, just like in MRC. ARC literally "can't guarantee the safety" of the object's pointer being nil after deallocation, so it makes you explicitly declare it as such.

If you want to avoid all of this nonsense, just make your struct into a lightweight class and declare your objects normally. After all, classes in Objective-C are just C-structs-(ish) with a lot of Apple magic thrown in.

share|improve this answer
Classes are not “just C-structs with a little Apple magic thrown in.” Under the modern runtime, they are not structs at all. – rob mayoff Aug 8 '12 at 4:02
So what are classes if not a (complicated) struct (id, objc_class, isa, @defs) then? – CodaFi Aug 8 '12 at 4:08
@rob while that may be the case sometimes, you can still actually create a strict with a isa pointer as it's first member and you can be darned sure that it will work just fine as an objective C object.. Where things get weird is subclassing. – Richard J. Ross III Aug 8 '12 at 4:33
@RichardJ.RossIII You can get a block of memory any way you want, put a class reference in its first four bytes, then cast the pointer to an object pointer. So what? I could do that with a union. Is a class therefore a union? I could do it with a carefully-crafted float or double. Is a class therefore a floating-point type? – rob mayoff Aug 8 '12 at 4:40
@CodaFi I can create a struct-typed variable on the stack, but I can't create a class instance on the stack. I can use offsetof on a struct field, but I can't use it on a class instance variable. I can create an array of structs (e.g. MyStruct *p = malloc(10 * sizeof *p)), but I can't create an array of instances. When I access a struct field, the compiler generates code that hardcodes the field offset at compile time, but when I access an instance variable, the compiler generates code that looks up the field offset at runtime. How exactly is a class a struct? – rob mayoff Aug 8 '12 at 4:44

Dont put objective C objects in structs. Thats why Obj C supports classes. You are coding C.

share|improve this answer
so, what do i put my objective C objects into.. having a brain fade.... – HurkNburkS Aug 8 '12 at 3:23
the thing thats confusing me is I want to create an array of object that contain the variables initalised in the class.. I had planned to just make a struct of variables then use the struct in the array.. how can i do this without a struct – HurkNburkS Aug 8 '12 at 3:31
Classes are contained by classes in objective C not structs. – deleted_user Aug 8 '12 at 3:39
I guess then the thing confusing me is how do I create an array of the classes that contain the variables. – HurkNburkS Aug 8 '12 at 3:41
Classes are just structs, albeit with more fancy compiler nonsense. And what's wrong with coding in C? I can write an NSString or an NSCFString, and it don't make a gal-durn difference to the compiler (with proper casting). – CodaFi Aug 8 '12 at 3:42

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.