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I tend to use CGFloat all over the place, but I wonder if I get a senseless "performance hit" with this. CGFloat seems to be something "heavier" than float, right? At which points should I use CGFloat, and what makes really the difference?

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2 Answers 2

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As @weichsel stated, CGFloat is just a typedef for either float or double. You can see for yourself by Command-double-clicking on "CGFloat" in Xcode — it will jump to the CGBase.h header where the typedef is defined. The same approach is used for NSInteger and NSUInteger as well.

These types were introduced to make it easier to write code that works on both 32-bit and 64-bit without modification. However, if all you need is float precision within your own code, you can still use float if you like — it will reduce your memory footprint somewhat. Same goes for integer values.

I suggest you invest the modest time required to make your app 64-bit clean and try running it as such, since most Macs now have 64-bit CPUs and Snow Leopard is fully 64-bit, including the kernel and user applications. Apple's 64-bit Transition Guide for Cocoa is a useful resource.

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I think I get it now. But on the iPhone it seems to not matter much, right? –  HelloMoon Aug 12 '09 at 20:08
On the iPhone as we know it, no. However, it's always wise to future-proof code, and this would make it easier to safely reuse the same code for OS X. –  Quinn Taylor Aug 12 '09 at 20:31
so you're saying, basically, NEVER use a float or double directly since then you'd be tied to the processor architecture (and I thought fast JVMs solved this years ago :)). So what primitives are safe? int? –  Yar Jul 9 '10 at 15:21
I didn't say NEVER use a primitive directly. There are times that straight primitives can be problematic, such as if a variable may conceivably be used to store data which could overflow, such as on 64-bit. In general, using architecture-dependent typedefs is safer, in that code is less likely to explode on a different architecture. However, sometimes using a 32-bit type can be completely safe and save you memory. The size of primitives may be less of an issue in a JVM, but Obj-C and C are compiled, and mixing 32 and 64 bit libraries and code is indeed problematic. –  Quinn Taylor Jul 9 '10 at 22:10
@QuinnTaylor can you provide a practical example of how float would overflow while CGFloat would not? Both float and CGFloat have a finite number of bits. You can overflow both of them by needing to store more bits than they can hold. –  Pwner Feb 24 at 19:55

CGFloat is a regular float on 32-bit systems and a double on 64-bit systems

typedef float CGFloat;// 32-bit
typedef double CGFloat;// 64-bit

So you won't get any performance penalty.

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Well, you use twice as much memory, if you're worried about memory. –  Tyler Aug 12 '09 at 8:58
Only on 64-bit, though. –  Quinn Taylor Aug 12 '09 at 13:09
Correct, iPhone OS is 32-bit. If you think about it, the iPhone isn't pushing the 4GB RAM limitation of 32-bit, nor is it using an Intel processor (for which 64-bit is faster than 32-bit). Plus, it's using Modern Runtime (as opposed to Legacy Runtime of 32-bit on the desktop — wearch SO for these terms if you're curious) so it can do basically everything 64-bit OS X can. Perhaps someday we'll see a device that runs iPhone OS and is 64-bit, but currently there are none. –  Quinn Taylor Aug 12 '09 at 20:35
Enter: the iPhone 5S –  DGund Dec 1 '13 at 20:02
5S is now in 64 bit, last time I entered the conference (london), they said the way they run 32-bit apps on ios7 is to init another shared cache pool in memory, which can result in using more memory overall. so its def worth to convert everything up to 64-bits. (unless you want to support 5.1+ or 6.0+ still) –  phil88530 Dec 30 '13 at 14:26

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