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Why is the row property of NSIndexPath a signed integer?

Could it ever take on a "valid" negative value?

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I haven't thought about this until today when I set LLVM to check sign comparison. This made the compiler spew out warnings whenever there was indexPath.row <= [someArray count] or similar.

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it is readonly, so you don't care about it :) Why do you need negative values for row? –  Valentin Shamardin Nov 27 '12 at 13:44
I don't need negative values for row, I'm just wondering why row isn't a NSUInteger. –  MdaG Nov 27 '12 at 13:51
"it is readonly, so you don't care about it"; you should, initWithRow:section: takes NSIntegers. –  WDUK Nov 27 '12 at 14:12
+1 Good question, my guess (kidding) is because Apple doesn't want you to use tables with more than 2,147,483,647 cells! –  0x7fffffff Nov 27 '12 at 14:30
@0x7fffffff♦ - you made my day :) –  sumofighter666 Jul 24 '14 at 10:06

4 Answers 4

up vote 9 down vote accepted

What happens if you use negative numbers?

It isn't wise to use negative values, if you do, you'll get crazy results

NSIndexPath* path = [NSIndexPath indexPathForRow:-2 inSection:0];

The above results in a section of 0, and a row of 4294967294 (which looks like underflow of an NSUInteger to me!) Be safe in the knowledge that this only occurs within the UIKit Additions category, and not within NSIndexPath itself. Looking at the concept behind NSIndexPath, it really doesn't make sense to hold negative values. So why?

(Possible) Reason for why it is so

The core object NSIndexPath from OS X uses NSUIntegers for its indices, but the UIKit Addition uses NSInteger. The category only builds on top of the core object, but the use of NSInteger over NSUInteger doesn't provide any extra capabilities.

Why it works this way, I have no idea. My guess (and I stipulate guess), is it was a naive API slipup when first launching iOS. When UITableView was released in iOS 2, it used NSIntegers for a variety of things (such as numberOfSections). Think about it: This conceptually doesn't make sense, you can't have a negative number of sections. Now even in iOS 6, it still uses NSInteger, so not to break previous application compatibility with table views.

Alongside UITableView, we have the additions to NSIndexPath, which are used in conjunction with the table view for accessing it's rows and such. Because they have to work together, they need compatible types (in this case NSInteger).

To change the type to NSUInteger across the board would break a lot of things, and for safe API design, everything would need to be renamed so that the NSInteger and NSUInteger counterparts could work safely side by side. Apple probably don't want this hassle (and neither do the developers!), and as such they have kept it to NSInteger.

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Wasn't the behavior changed between iOS 4 and iOS 5? I believe I was fixing some warnings with the transition. –  Sulthan Nov 27 '12 at 14:16
Not sure, they API contracts certainly haven't been updated since iOS 2. The behaviour might have changed, but that shouldn't break the contract between the API and the user. The warnings might have been the compiler being a bit more smart in warning users what they might be getting themselves in for. –  WDUK Nov 27 '12 at 14:28
Nice addition of empirical evidence to the question but not an answer. –  ipmcc Nov 27 '12 at 14:31
The answer is, we don't know (written as "Why it works this way, in that it allows NSInteger I have no idea."). There is no clear documentation or rationale available outside of Cupertino that explains why this is the way it is, we can only speculate. I believe the empirical evidence provided is reasonable, as using common sense I truly believe this was a slip up in API design. It doesn't make sense to have negative indices to sections and rows, but UITableView when released used these types. For numberOfSections to return a signed integer is crazy, for example. –  WDUK Nov 27 '12 at 14:42

One possible reason is that unsigned types underflow very easily. As an example, I had an NSUInteger variable for stroke width in my code. I needed to create an “envelope” around a point painted with this stroke, hence this code:

NSUInteger width = 3;
CGRect envelope = CGRectInset(CGRectZero, -width, -width);
NSLog(@"%@", NSStringFromCGRect(envelope));

With an unsigned type this outputs {{inf, inf}, {0, 0}}, with a signed integer you get {{-3, -3}, {6, 6}}. The reason is that the unary minus before the width variable creates an underflow. This might be obvious to somebody, but will surprise a lot of programmers:

NSUInteger a = -1;
NSUInteger b =  1;
NSLog(@"a: %u, b: %u", a, -b); // a: 4294967295, b: 4294967295

So even in situations where it doesn’t make sense to use a negative value (stroke width can’t be negative) it makes sense to use the value in a negative context, causing an underflow. Switching to a signed type leads to less surprises, while still keeping the range reasonably high. Sounds like a nice compromise.

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For UITableView to return NSInteger for a method such as a (NSInteger)numberOfSections makes sense to you? If you needed to perform arithmetic, convert the NSUInteger to NSInteger yourself. The table (and its respective NSIndexPath) needn't be concerned with the user level arithmetic. –  WDUK Nov 27 '12 at 14:55
Of course I can cast the number myself, the point is that I need to be aware of the problem to do that. An unsigned type really doesn’t offer any advantage here, does it? –  zoul Nov 27 '12 at 15:02
It's conceptually correct; you can't have a negative number of sections, hence the type should try and enforce that. –  WDUK Nov 27 '12 at 15:09
Unsigned types don’t enforce anything, the compiler is happy with NSUInteger foo = -1. (Is there a warning for that?) It’s a documentation measure, nothing more. And all I’m saying is that given the potential headaches with sign overflow, I can understand why Apple would rather go with a signed type by default. –  zoul Nov 27 '12 at 15:36
Then why would NSArray count return NSUInteger if they wanted to avoid the headaches of sign overflow? This is probably a more commonly used value in arithmetic to boot. –  WDUK Nov 27 '12 at 15:41

I think UIKit Additions on NSIndexPath use NSInteger type intentionally. If for some reason negative row would be passed as parameter to any method (I see none at the moment, though...), autocast to NSIntegerMax + parameter value would not happen and any possible object would not look for a ridiculously large parameter that does not exist. Still, there are other ways to prevent this, so it might be just a matter of taste.

I, for example, would not take NSUInteger as parameters in NSIndexPath class, but rather NSInteger and checked for a sign and wouldn't create NSIndexPath at all, if any parameter was negative.

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The row property is part of the UIKit Additions category on NSIndexPath. These behaviors are specific to NSIndexPath's use with UITableView and UICollectionView objects.

My guess as to why the return type is NSInteger (and not NSUInteger) here is to allow the return of NSNotFound in situations where a particular instance of NSIndexPath isn't germane to the UITableView and UICollectionView uses of it. For instance, it is possible to create an instance of NSIndexPath with zero indexes in the path. If row returned an NSUInteger what would it return when there are zero indexes in the NSIndexPath? Row 0 is a real, valid row (given standard C array indexing behavior) so returning 0 is a bit specious.

Since NSNotFound is defined to be NSIntegerMax (which is, unsurprisingly, an NSInteger) it follows that properties which want to return NSNotFound as a special "sentinel" or "marker" value should be typed as NSInteger.

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NSNotFound is definitely not the reason. –  Sulthan Nov 27 '12 at 14:16
I would be more convinced of your assertion had you given any supporting evidence whatsoever. –  ipmcc Nov 27 '12 at 14:18
Really? The UITableView convention for indicating that something doesn't exist/not use it is to return nil instead of an NSIndexPath object. (See tableView:willSelectRowAtIndexPath: on UITableViewDelegate). This is possible because NSIndexPath is an object, whereas other types that use NSNotFound are typically structs/non object types (Ranges come to mind). –  WDUK Nov 27 '12 at 14:19
NSNotFound is widely used with NSUInteger - you can find examples in NSString, NSArray etc. –  Sulthan Nov 27 '12 at 14:20
UITableView may return a nil NSIndexPath but that doesn't prevent users from passing in invalid instances of NSIndexPath to UITableView API that takes them as parameters. –  ipmcc Nov 27 '12 at 14:21

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