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I recently started learning Objective-C 2.0, with a book, and I want to know if I got this concept right.

So here is the code, which causes an error for releasing an object that was not allocated:

int main (int argc, const char * argv[]) {
    NSAutoreleasePool * pool = [[NSAutoreleasePool alloc] init];
    Fraction *aFraction = [[Fraction alloc] init];
    Fraction *sum = [[Fraction alloc] init], *sum2;
    int n, i, pow2;

    [sum setTo: 0 over: 1];

    NSLog (@"Enter a value for n");
    scanf ("%i", &n);

    pow2 = 2;
    for ( i = 1; i <= n; ++i ) {
        [aFraction setTo: 1 over: pow2];
        sum2 = [sum add: aFraction];
        [sum release];
        sum = sum2;
        pow2 *= 2;

    NSLog (@"After %i iterations, the sum is %g and the fraction is %i/%i.", n, [sum convertToNum], [sum numerator], sum.denominator);
    [aFraction release];
    [sum release];

    [pool drain];
    return 0;

I am wondering about sum and sum2. Here is the method add:

- (Fraction *) add: (Fraction *) f
    Fraction *resultFraction = [[Fraction alloc] init];
    int resultNum, resultDenom;
    resultNum = numerator * f.denominator + denominator * f.numerator;
    resultDenom = denominator * f.denominator;

    [resultFraction setTo: resultNum over: resultDenom];
    [resultFraction reduce];

    return resultFraction;

Let me explain what I think is going on.

For the first iteration of the loop, sum is allocated, then I enter the add: method, and the resultFraction is allocated. It is returned to sum2, meaning that resultFraction does not take any memory after being returned.

The first sum, allocated before the loop, is released and sum = sum2, meaning that the object "in" sum2 is now "in" sum, and sum2 does not take any memory after the assignment. Next, a new resultFraction is allocated and returned to sum2, which is free until now, and so on, until sum is released after exiting the loop.

Now there is just one object (the one returned by add:), and it is just being assigned to sum / sum2 (pointers? or ?). However, it is not like I thought it was -- that when sum2 is being assigned a new object (the one returned by add:), and not being released, even after assigning that object to sum, the previous one is still there. This means that after n assignments there will be n objects "in" sum2. and because of that when I try to release both sum and sum2 before pool drain I get the error. The error is from the second object I try to release, and I just can release either sum or sum2, because they both are connected to the last object returned by the add: method?

I hope I was clear enough, because I've been banging my head against the wall all day long, and it just came to me and I really hope I got this right so I can continue with the book. :)

share|improve this question
Can I ask what the book is? – markhunte Apr 3 '11 at 17:20
Do you realize that you have one sentence with 230 words? I'd write an answer, but I'm too busy looking for some aspirin. I do love that your very next line starts: "I hope I was clear enough..." ;-) – Caleb Apr 3 '11 at 17:44
up vote 2 down vote accepted

What book is that? That is some distinctly non-standard memory management patterns.

First, this method:

- (Fraction *) add: (Fraction *) f

Should be returning an auto-released object. It currently isn't. This leads to mass confusion on the calling side in that the mantra is no longer "if you want to keep an object return value (beyond NARC), you must retain it".

Next, when you see an expression like sum = sum2; (where both variables are object references; Foo*), that is exactly like the expression x = 5;. It is a simple numerical assignment; no retain/release implied.

Thu, if you have:

sum = [[Fraction alloc] init];
sum2 = [[Fraction alloc] init];
sum = sum2;

You've just leaked the Fraction instance that sum2 was referring to. So:

  • think of retains/releases as deltas; you increase or decrease the count. As long as your increases are exactly balanced with your decreases, you are doing it right.

  • think of the sum in Fraction *sum; as a potential reference to an object. When declared, it is nothing. When you assign it to the result of [[Fraction alloc] init];, there is no magic -- sum just holds the address of the Fraction object in memory.

Are you referring to this?

    sum2 = [sum add: aFraction];
    [sum release];
    sum = sum2;

The release releases the old sum before overwriting that pointer with a reference to a new object on the next line.

Try build and analyze on that code. It will produce warnings. The book is teaching you how to do memory management using a pattern that doesn't leak, but is decidedly not standard. I'm not convinced that going down that path is useful; the reality is that you will always have autorelease in play and, thus, should always follow the standards of the system, even in your own totally isolated code. Why spend the time learning, then un-learning, a different pattern at this point? (I'm all for learning different patterns and systems... just not in this context).

share|improve this answer
+1 Not that @bbum needs help with memory management from me, but the lack of autorelease in -add: was the first thing that jumped out at me too. – Caleb Apr 3 '11 at 17:49
The book is "Programming in Objective-C 2.0" Second Edition, by Stephen Kochan. I'm still in the first chapters so maybe that's why this "autorelease object" was not used. I have some experience in C and since Objective-C is like it, I noticed some things that should've been done but were not, however they were explained/added later. As to bbum`s explanations: 1. sum points to x, sum2 to y, next sum points to what sum2 points, so isn't what was in sum leaked? 2. Since sum2 is starting as a pointer and was not increased, I should not be concerned about releasing it? – iapplethis Apr 3 '11 at 19:10
I thought that may be the book. I suggest you go to the official site for the book. It has plenty of help on each chapter and you can put your code up for peers and Stephen Kochan to look at and help with. One tip by the way is Try not to over complicate or think to far ahead of whats requied for your answers. The first lot of chapters are only looking for simple solutions – markhunte Apr 3 '11 at 22:23
Neat. If the support community is good, then the dichotomy between the first chapters and reality are probably not an issue. – bbum Apr 3 '11 at 23:14
Hey, thank you very much. I myself thought that this was the case. I guess it's too early to get things especially like that settled down in my head. Furthermore my goal is to become an iOS developer and as of right now I have two more books on the subject. So I guess I`ll go through all of them and then get things settled down in my head. Thanks :) – iapplethis Apr 4 '11 at 9:13

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