Looking in the headers, I can see that for the 64-bit system I'm compiling for, both NSUInteger and UInt32 are defined as 32 bit unsigned integers, so why is Xcode claiming a loss in precision in a warning when I assign one to the other?

"Implicit conversion loses integer precision: 'NSUInteger' (aka 'unsigned long') to 'UInt32' (aka 'unsigned int')"

I can see that the warning is referring to one as 'long' and one as 'int', but since they both resolve to the same 32 bit unsigned integer on this system, there should be no loss in precision.

It's not actually causing any problems, but it seems I've probably misunderstood something so would like to better understand.

There was this question, but it addresses safety as opposed to 'why': Can I safely store UInt32 to NSUInteger?

  • Maybe because NSUInteger can become 64 bits long on other systems. – Rakesh Mar 4 '13 at 9:35

NSUInteger and NSInteger can be used even in iOS as well as in OSX.

    typedef long NSInteger; 
    typedef unsigned long NSUInteger;
    typedef int NSInteger; 
    typedef unsigned int NSUInteger;

iOS are 32 bit device whereas OSX is 64 bit(Earlier OSX were 32 bit and even you can opt to make an application for 32 bit OS), therefore it contains an if-else directive based on which it is set.

In OSX I always use %ld with NSInteger but in iOS it has to be %d.

If you use %d for NSInteger it shows the warning Loses integer precision.

  • What about when you are compiling for 32-bit under OSX? – trojanfoe Mar 4 '13 at 9:38
  • OK, thanks Anoop. So regarding how the compiler works, does this mean that it calculates warnings before it's resolved the if-else directive, so doesn't realise yet that it's unnecessary? – Joey FourSheds Mar 4 '13 at 9:40
  • @trojanfoe: in that case it will be 32 bit, as from the if-else directive – Anoop Vaidya Mar 4 '13 at 9:45
  • OK, so the statement "OSX is 64 bit" is inaccurate then. – trojanfoe Mar 4 '13 at 9:54
  • @trojanfoe: Updated my answer :) thanks for suggestion. – Anoop Vaidya Mar 4 '13 at 10:00

On the 64-bit OS X platform:

  • NSUInteger is defined as unsigned long, and
  • unsigned long is a 64-bit unsigned integer.

So UInt32 and NSUInteger do not have the same size, which explains the compiler warning.

See also NSUInteger in the "Foundation Data Types Reference":

When building 32-bit applications, NSUInteger is a 32-bit unsigned integer. A 64-bit application treats NSUInteger as a 64-bit unsigned integer.

Remark: 64-bit OS X uses (as many Unix and Unix-like systems) the LP64 data model, which means that long and pointers have 64-bit. 64-bit Windows uses the IL32P64 data model, where long has 32-bit and pointers have 64-bit.

  • Thanks, I guess I'm a noob at interpreting headers in MacTypes.h: UInt32 32-bit unsigned integer ... typedef unsigned int UInt32; and in NSObjCRuntime.h : #if LP64 || (TARGET_OS_EMBEDDED && !TARGET_OS_IPHONE) || TARGET_OS_WIN32 || NS_BUILD_32_LIKE_64 typedef long NSInteger; typedef unsigned long NSUInteger; – Joey FourSheds Mar 4 '13 at 9:42
  • 1
    @JoeyFourSheds: Yes that is exactly the place where it is defined. __LP64__ is true on a 64-bit platform, NSUInteger is defined as unsigned long, and unsigned long has 64-bit on a 64-bit platform! - Since Uint32 has only 32-bit, you have the possible precision loss. – Martin R Mar 4 '13 at 9:47
  • Thanks. (and sorry for the messy comment, can't seems to make a new line in a comment, hence it got posted about 6 times every time I habitually hit 'return'!). – Joey FourSheds Mar 4 '13 at 9:51
  • @JoeyFourSheds: You are welcome. I have added a little bit information about the size of long. – Martin R Mar 4 '13 at 10:00

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