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In iPhone development, speed is of the essence. Does anyone know if there is a speed difference between using a CoreFoundation type (like CFMutableDictionaryRef) versus a Foundation type (its counterpart, NSMutableDictionary).

I would think manipulating the CF type would be faster as it doesnt have to throw around ObjC runtime messages, is this an unfounded assumption, has anyone actually looked in to this?

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    When you say speed is of the essence, do you mean speed of development or speed of developed application? – JeremyP Sep 23 '10 at 9:55
  • Speed in the application itself. – grmartin Sep 23 '10 at 12:14
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In a technical sense, yes, it is faster, for exactly that reason.

In a practical sense, no, it's not faster. For one thing, the speed difference is tiny. We're talking milliseconds saved over the life of the entire process.

The savings might be bigger on the iPhone, but it's still pretty much the tiniest speed gain you can get. Your time is much better spent profiling your app in Instruments and going where it tells you and ironing out the hot spots in your own code.

And that's where Foundation becomes faster: Your time.

Code that uses Foundation's autorelease feature whenever feasible saves you a lot of time and headaches by avoiding easily-avoidable memory leaks (namely, forgetting to write or failing to reach release messages). CF does not have autorelease, so you have to remember to explicitly CFRelease everything you create or copy with it—and when you forget or fail to reach that code (and I do mean when—I speak from experience), you will spend much more time hunting down the memory leak. The static analyzer helps, but it will never be able to catch everything.

(You technically can autorelease CF objects, but the code to do so is terribly ugly and you're only watering down your already-minuscule speed gain.)

So, stick to Foundation as much as possible. Don't go overboard with the autorelease; even in pure Cocoa, there are still times when explicitly releasing objects is warranted (mostly tight loops), and this goes double for Cocoa Touch (since iOS will kill your app if you allocate too much memory, so you'll want to release big objects like images as soon as possible). But usually, autorelease saves you far more time than CF will ever save your users.

The non-time-related reason is that Objective-C code, with argument names (from the message selector) mixed in with values, is far easier to read than C function-based code. This may not make your work go any faster, but it certainly makes it more fun.

  • When I use CF objects, I alway use a C++ wrapper whose destructor takes care of the CFRelease, and which also has copy constructors and such that do the right thing. Remembering to put a CF object in such a wrapper as soon as it's created is not any harder than remembering to autorelease Foundation objects, at least for me. But I agree that any time difference is probably minimal, and that one should let a profiler guide one's optimization efforts. – JWWalker Sep 23 '10 at 6:03
  • I am looking to convert a ton of data from a custom structured text format in to true objects for the iPhone to use. I am however going to mark this as answered. – grmartin Sep 23 '10 at 12:15
  • @JWWalker: If you're going to wrap a CoreFoundation object, why not just wrap it in Objective-C? In fact, classes with CF analogues are most often just wrappers around the CF class anyway. (For example, NSMutableDictionary is a class cluster that often returns an object whose actual class is NSCFDictionary, which is basically just an ObjC class that uses a CFDictionary as its backing store.) – mipadi Sep 23 '10 at 15:33
  • Well in my case, the idea would be, dont use cocoa, avoid throwing around messages to gain some speed. – grmartin Sep 23 '10 at 16:22
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    Years later, but one thing to realize: large chunks of CF are actually written in ObjC these days. By going through the C API, you may in fact be taking a small perf hit, rather than getting a speedup. – Catfish_Man May 6 '13 at 3:13
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Writing code in CF functions will indeed bring a performance boost to your app, however there's another better approach for improving the performance: writing directly in assembly would bring even more performance benefits (though this is an extreme approach).

High-level language constructs are preferable to the low-level ones for at least the reasons Peter Hosey mentioned. To this we can add the premature optimization which can easily lead to the failure of the project, as the developer is more concerned with the non-functional aspects of the application instead of the functional ones.

If, after you have a fully functional app, you feel that some parts of the code have performance bottlenecks, you can try to optimize those, by rewriting them to low-level language constructs. You'll at least have a comparison point with the current code, to make sure the low-level code behaves as expected (either manual or unit tests will do the trick here).

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