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What is the main difference between int, NSInteger and NSUInteger in Objective-C?

Which one is better to use in an application and why?

share|improve this question
There's no such thing as NSInt. – BoltClock Oct 2 '11 at 12:48
NSInteger not NSInt .. – Hitarth Oct 2 '11 at 12:55
See the documentation – Jiri Oct 2 '11 at 12:59
up vote 28 down vote accepted

In such cases you might right click and go to definition:

typedef long NSInteger;
typedef unsigned long NSUInteger;
typedef int NSInteger;
typedef unsigned int NSUInteger;
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ok thanx i got it – Hitarth Oct 2 '11 at 13:11
easy and correct – Jakub Truhlář Dec 5 '14 at 22:16

The point is to abstract types and their associates sized from the hardware in a manner that we don't have to worry what size an int is now how big a pointer is on any particular hardware.

"C" is bad at this, only stating that a long is at lease as big as an int, that an int is the "natural" integer size of the hardware (whatever that means), that an int is at least as long as a short--a big mess. This seemed like a good idea at the time coming from Fortran but did not age well.

One could use the POSIX defines, things like uint32_t, int16_t, etc but this too does not address how big a pointer needs to be on any particular hardware.

So, if Apple defines the return type to be an NSUInteger you just use that and you don't need to know if it is 16, 32 or 64 bits in size for your particular hardware. (I picked those values out-of-the-air just for an example).

As you can see in @Bastian the actual size depends on hardware.

The documentation answers the "letter of the question" but does not provide an understanding of "why"?

share|improve this answer
you r right .we get only the difference between them but why ? i m still not getting please suggest me – Hitarth Oct 2 '11 at 13:40
It's API standardization. These frameworks ship on multiple architectures -- it's nice for API to be the same across them all. By having these typedefs, Apple is abstracting platform differences away from API consumers. If you only speak to the API in terms of these types, then (in theory) you don't need to think about platform differences when compiling the same code for i386, x86_64, ppc, arm7, or whatever. It's an abstraction. It's been said that you should use the highest level of abstraction that gets the job done. So unless you have a reason NOT to use these types, I say use 'em. – ipmcc Oct 2 '11 at 14:34

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