First of all, you shouldn't rebuild all your views to fit a new screen, nor use different views for different screen sizes.
Use the auto-resizing capabilities of iOS, so your views can adjust, and adapt any screen size.
That's not very hard, read some documentation about that. It will save you a lot of time.
iOS 6 also offers new features about this, but this is still under NDA at the moment.
Be sure to read the API changelog on Apple Developer website, if you can access to it.
Edit: As iOS 6 is now out, check the new AutoLayout capabilities.
That said, if you really need to detect the iPhone 5, you can simply rely on the screen size.
[ [ UIScreen mainScreen ] bounds ].size.height
The iPhone 5's screen has a height of 568.
You can imagine a macro, to simplify all of this:
#define IS_IPHONE_5 ( fabs( ( double )[ [ UIScreen mainScreen ] bounds ].size.height - ( double )568 ) < DBL_EPSILON )
The use of
fabs with the epsilon is here to prevent precision errors, when comparing floating points, as pointed in the comments by H2CO3.
So from now on you can use it in standard if/else statements:
if( IS_IPHONE_5 )
Edit - Better detection
As stated by some people, this does only detect a widescreen, not an actual iPhone 5.
Next versions of the iPod touch will maybe also have such a screen, so we may use another set of macros.
Let's rename the original macro
#define IS_WIDESCREEN ( fabs( ( double )[ [ UIScreen mainScreen ] bounds ].size.height - ( double )568 ) < DBL_EPSILON )
And let's add model detection macros:
#define IS_IPHONE ( [ [ [ UIDevice currentDevice ] model ] isEqualToString: @"iPhone" ] )
#define IS_IPOD ( [ [ [ UIDevice currentDevice ] model ] isEqualToString: @"iPod touch" ] )
This way, we can ensure we have an iPhone model AND a widescreen, and we can redefine the
#define IS_IPHONE_5 ( IS_IPHONE && IS_WIDESCREEN )
Also note that, as stated by @LearnCocos2D, this macros won't work if the application is not optimised for the iPhone 5 screen (missing the Defaultfirstname.lastname@example.org image), as the screen size will still be 320x480 in such a case.
I don't think this may be an issue, as I don't see why we would want to detect an iPhone 5 in a non-optimized app.
IMPORTANT - iOS 8 support
On iOS 8, the
bounds property of the
UIScreen class now reflects the device orientation.
So obviously, the previous code won't work out of the box.
In order to fix this, you can simply use the new
nativeBounds property, instead of
bounds, as it won't change with the orientation, and as it's based on a portrait-up mode.
Note that dimensions of
nativeBounds is measured in pixels, so for an iPhone 5 the height will be 1136 instead of 568.
If you're also targeting iOS 7 or lower, be sure to use feature detection, as calling
nativeBounds prior to iOS 8 will crash your app:
if( [ [ UIScreen mainScreen ] respondsToSelector: @selector( nativeBounds ) ] )
/* Detect using nativeBounds - iOS 8 and greater */
/* Detect using bounds - iOS 7 and lower */
You can adapt the previous macros the following way:
#define IS_WIDESCREEN_IOS7 ( fabs( ( double )[ [ UIScreen mainScreen ] bounds ].size.height - ( double )568 ) < DBL_EPSILON )
#define IS_WIDESCREEN_IOS8 ( fabs( ( double )[ [ UIScreen mainScreen ] nativeBounds ].size.height - ( double )1136 ) < DBL_EPSILON )
#define IS_WIDESCREEN ( ( [ [ UIScreen mainScreen ] respondsToSelector: @selector( nativeBounds ) ] ) ? IS_WIDESCREEN_IOS8 : IS_WIDESCREEN_IOS7 )
And obviously, if you need to detect an iPhone 6 or 6 Plus, use the corresponding screen sizes.
Comments and suggestions have been incorporated in this post.
Thanks to everybody.