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I am new to Objective C and doing some practice with objects. While something like Fraction* f = [[Fraction alloc] init ]; works, whenever I try to do Fraction c; I get Interface type cannot be statically allocated Is there anyway to allocate objects on the stack (like in c++) ? or am I trying the wrong thing ?

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up vote 2 down vote accepted

You cannot allocate an object statically in Objective C. There are a lot of reasons for this. Including the fact that objects should be initialized but initialization methods are allowed to change the address of the object.

In C++ a constructor must initialize the object it's called upon and cannot, in any way, change the object address. This is not true in Objective C. The equivalent of constructors (the alloc+init* sequence or a class level method) are allowed to decide that they are going to change the address of the object they are called upon (they will take care of freeing the original object, of course).

There's no way for them to free the statically allocated memory nor to change the address of your stack, of course.

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No, all objects are allocated on the heap in Obj-C.

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No, you cannot use the stack for the memory of an Objective-C object, it must be the heap (via alloc and init).

While, as pointed out by @wattson12, you can obviously store the object reference (pointer) on the stack, this still does not use the stack for the object's memory.

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The error you are getting is because of a syntax error, you need to be doing:

Fraction *c; 

note the missing * indicating this is a pointer to an object (you are not storing this object on the stack, you are just creating a reference to a (potential) object)

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Technically, you can (see code below), but you shouldn't. Also, be it in the stack or the heap, you only have a pointer to the object, not the object itself. That is, you should write Fraction *c, not Fraction c.

// Allocate an Objective-C object on the stack.
// Original code By Graham Lee: 
// https://gist.github.com/iamleeg/5290797     

#import <Foundation/Foundation.h>
#include <stdlib.h>
#include <objc/runtime.h>

@interface A : NSObject
@property (assign) int meaning;

@implementation A

- (id)init {
    if ([super init]) {
        _meaning = 42;
    return self;


int main(int argc, char *argv[]) {
    @autoreleasepool {

        // allocate and zero stack memory
        size_t size = class_getInstanceSize([A class]);
        id obj = (__bridge_transfer id) alloca(size);
        memset((__bridge void*)obj, 0, size);

        // set class and initialize the object
        object_setClass(obj, [A class]);
        obj = [obj init];

        NSLog(@"meaning: %d", [obj meaning]);

        // transfer ownership from ARC to CF so ARC doesn't 
        // try to improperly free the stack allocated memory
        CFTypeRef ref = (__bridge_retained CFTypeRef) obj;

alloca() is non standard, unsafe, non portable, and prone to stack overflows.

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There is a big big problem in your code. The call to [obj init] may try to deallocate the object and return a completely different object. – Analog File Aug 15 '14 at 11:22
Apple discourages splitting alloc and init (Foo *bar = [Foo alloc]; [bar init];) because in some rare cases init may alter object allocation, for example to re-use memory of old objects (UITableViewCell maybe?). But who cares, just a crazy example allocating objects in the stack. :) – Jano Aug 16 '14 at 9:02
There are a lot of cases where init may reallocate the underlying memory, and even more ones where it may just free it and return something completely different. And you cannot even rely on testing as this may (and actually did) change depending on the version of the operating system and libraries. It's not just a question of separating them. It's more that init assumes memory that can be freed just as much as release and autorelease do. – Analog File Aug 17 '14 at 17:36
Nice, this code is a double threat then! – Jano Aug 17 '14 at 18:46

All objective-c objects are allocated in heap, except for block objects. The major reason for this is:

  1. pointers to an object are not tracked in Objective-C(Instead Objective-C uses a reference counting system for memory management); they can't be updated if you move the object around.
  2. stack objects will get destroyed when the function which created them returns.

A post from Mike Ash is helpful to understand this.

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