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I've got some code that relies on comparing two NSIndexPaths and executing different code based on their equality or lack thereof (using -isEqual). Most of the time it works properly, but sometimes it doesn't. I've used the debugger console to test the two indexpaths during code execution, and they look identical to me.

Here's the code:

- (BOOL)selectedStreetIsSameAsLastSelectedStreet
    return [self.indexPathOfSelectedStreet isEqual:self.previousObject.indexPathOfSelectedStreet];

Here's the output during the execution of the code:

(gdb) po self.indexPathOfSelectedStreet
<NSIndexPath 0x60a0770> 2 indexes [26, 1]
(gdb) po self.previousObject.indexPathOfSelectedStreet
<NSIndexPath 0x55b4f70> 2 indexes [26, 1]
(gdb) p (BOOL)[self.indexPathOfSelectedStreet isEqual:self.previousObject.indexPathOfSelectedStreet]
$2 = 0 '\000'

Am I doing something wrong, or is there another way I can reliably test the equality of two NSIndexPaths?

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1 Answer 1

up vote 58 down vote accepted

As of iOS 5 you can just use isEqual: (see comments)

Try [indexPath1 compare: indexPath2] == NSOrderedSame.

Maybe you found a bug in NSIndexPath. If you try to create a new NSIndexPath with a path that already exists you should get that one instead. So isEqual: probably just compares the pointers and not the actual indices stored.

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Perfect. Thanks for the quick response! – JoBu1324 Sep 24 '10 at 21:31
I'm inclined to think this may be a bug as well. I am having the very same issue in iOS 4.2 b3. – Sedate Alien Oct 21 '10 at 5:48
I believe this is because -isEqual: is just doing a pointer comparison of the two index paths. – Brandon Williams Dec 14 '10 at 19:00
As of iOS 5, NSIndexPath now implements an -isEqual: method to do what you're expecting. For backwards compatibility, the -compare: alternative is the best option. – Dave DeLong Nov 8 '11 at 17:27
@Cœur Prior to iOS 5, NSIndexPath instances were uniqued; so requesting an index path of [1, 1] twice would give you the same instance both times. That changed in iOS 5, and thus a stronger equality check was necessary than simple pointer comparison (one that would actually check that the indices were the same, even if the instances were different). Since developers don't really need to worry about pre-iOS 5 devices too much these days, using isEqual: is the correct way to determine if two NSIndexPaths are equal. You only need the -compare: option if you have to support iOS <5. – Dave DeLong Aug 1 '13 at 20:30

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