81

The title of the question might be a bit strange, but the thing is that, as far as I know, there is nothing that speaks against tail call optimization at all. However, while browsing open source projects, I already came across a few functions that actively try to stop the compiler from doing a tail call optimization, for example the implementation of CFRunLoopRef which is full of such hacks. For example:

static void __CFRUNLOOP_IS_CALLING_OUT_TO_AN_OBSERVER_CALLBACK_FUNCTION__() __attribute__((noinline));
static void __CFRUNLOOP_IS_CALLING_OUT_TO_AN_OBSERVER_CALLBACK_FUNCTION__(CFRunLoopObserverCallBack func, CFRunLoopObserverRef observer, CFRunLoopActivity activity, void *info) {
    if (func) {
        func(observer, activity, info);
    }
    getpid(); // thwart tail-call optimization
}

I would love to know why this is seemingly so important, and are there any cases were I as a normal developer should keep this is mind too? Eg. are there common pitfalls with tail call optimization?

17
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    One possible pitfall might be that an application works smoothly on several platforms and then suddenly stops working when compiled with a compiler that doesn't support tail call optimization. Remember that this optimization can actually not only increase performance, but prevent runtime errors (stack overflows).
    – Niklas B.
    May 28, 2012 at 21:51
  • 5
    @NiklasB. But isn't this a reason to not try to disable it?
    – JustSid
    May 28, 2012 at 21:54
  • 4
    A system call might be a sure way of wharting TCO, but also a pretty expensive one.
    – Fred Foo
    May 28, 2012 at 21:54
  • 39
    This is a great teachable moment for proper commenting. +1 for partially explaining why that line is there (to prevent tail-call optimization), -100 for not explaining why tail-call optimization needed to be disabled in the first place...
    – Mark Sowul
    May 28, 2012 at 22:09
  • 16
    Since the value of getpid() is not being used, couldn't it be removed by an informed optimizer(since getpid is a function that is known to have no side effects), therefore allowing the compiler to do a tail call optimization anyway? This seems a really fragile mechanism.
    – luiscubal
    May 28, 2012 at 23:26

3 Answers 3

Reset to default
83

My guess here is that it's to ensure that __CFRUNLOOP_IS_CALLING_OUT_TO_AN_OBSERVER_CALLBACK_FUNCTION__ is in the stack trace for debugging purposes. It has __attribute__((no inline)) which backs up this idea.

If you notice, that function just goes and bounces to another function anyway, so it's a form of trampoline which I can only think is there with such a verbose name to aid debugging. This would be especially helpful given that the function is calling a function pointer that has been registered from elsewhere and therefore that function may not have debugging symbols accessible.

Notice also the other similarly named functions which do similar things - it really looks like it's there to aid in seeing what has happened from a backtrace. Keep in mind that this is core Mac OS X code and will show up in crash reports and process sample reports too.

5
  • Yes, that's consistent with __attribute__((noinline)). I think you're spot on here.
    – Niklas B.
    May 28, 2012 at 22:04
  • Yes, makes sense indeed. But if you look where these functions are called from, you will see that they are always only called from one function, for example my example function is only called from __CFRunLoopDoObservers which definitely shows up in the stack trace...
    – JustSid
    May 28, 2012 at 22:21
  • 1
    Sure, but I guess it's another marker for exactly where the observer callback / block / etc is getting run.
    – mattjgalloway
    May 28, 2012 at 22:25
  • 2
    I think this is the best answer. +1
    – R.. GitHub STOP HELPING ICE
    May 28, 2012 at 23:43
  • @R.. I can only accept one answer though and Andrew White also named other cases where tail call optimization might not be wanted. Remember, I didn't ask why the function did it but why it might not be desired in general and gave the function as real world example.
    – JustSid
    May 29, 2012 at 1:38
34

This is only a guess, but maybe to avoid an infinite loop vs bombing out with a stack overflow error.

Since the method in question doesn't put anything on the stack it would seem possible for the tail-call recursion optimization to produce code that would enter an infinite loop as opposed to the non-optimized code which would put the return address on the stack which would eventually overflow in the event of misuse.

The only other thought I have is related to preserving the calls on the stack for debugging and stacktrace printing.

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    I think the stacktrace/debugging explanation is much more likely (and I was about to post it). An infinite loop isn't really worse than crashing, since the user can force the application to quit. That would also explain the noinline.
    – ughoavgfhw
    May 28, 2012 at 21:59
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    @ughoavgfhw: maybe, but when you get into threading and such, infinite loops are really hard to track down. I've always been of the mindset that misuse should trigger an exception. Since I've never had to do this, it's still just a guess.
    – Andrew White
    May 28, 2012 at 22:02
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    synchronicity, sort of... I've just run into a bad bug that kept an application opening new windows. This makes me think, if the application would have crashed before trying to saturate "the heap" (my memory) and choking X, I would have not needed to switch to the terminal to abruptly kill the crazy app (since X started soon to become unresponsive). So maybe, it would be a reason to prefer the "fail fast" approach that could come with a stack overflow and no optimization...? or maybe it's just a different matter, though...!
    – ShinTakezou
    May 28, 2012 at 22:03
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    @AndrewWhite Hmm I totally love infinite loops - I can't think of a single thing that's easier to debug, I mean you can just attach your debugger and get the exact position and state of the problem without any guessing. But if you want to get stacktraces from users I agree that an infinite loop is problematic, so that seems logical - an error will appear in your log, an infinite loop won't.
    – Voo
    May 28, 2012 at 23:16
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    This assumes that the function is recursive in the first place – but it isn’t; neither directly nor (by looking at the context where the function comes from) indirectly. I made the same mistaken assumption initially.
    – Konrad Rudolph
    May 29, 2012 at 10:50
21

One potential reason is to make debugging and profiling easier (with TCO, the parent stack frame disappears, which makes stack traces harder to make sense of.)

7
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    making profiling easier at the cost of slowing down the program is kinda weird though. It makes as much sense as diluting your oil before measuring how far your car can go :x
    – Matthieu M.
    May 29, 2012 at 7:45
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    @MatthieuM.: Such a thing wouldn't make sense if the added call was performed millions of times in a loop, but if it's executed a few hundred times a second or less, it may be better to leave it in the real system and be able to examine how the real system behaves, than to take it out and risk having such removal make a subtle but important change in system behavior.
    – supercat
    Feb 24, 2015 at 0:26
  • @MatthieuM. If diluting your oil is the prerequisite for any measurement at all, then it actually makes perfect sense.
    – Dmitry Grigoryev
    Nov 25, 2016 at 10:44
  • @DmitryGrigoryev: No, it doesn't. No measure is annoying, but a wrong measure is from useless to dangerous (depending how much trust you put in it). Continuing with the oil analogy: if it slows you down, then you might get measures that indicate that weight is more important than aerodynamics, and thus remove weight and worsen aerodynamics to optimize for what you've measured... however with real oil, when you go faster, it turns out that aerodynamics were more important and your "improvement" is worse than doing nothing!
    – Matthieu M.
    Nov 25, 2016 at 12:55
  • @MatthieuM. Are you familiar with the uncertainty principle? Any measurement is wrong to some degree, because there's no way to measure anything without interacting with the object being measured. So, even if you don't alter the oil in your example, instrumenting the car will change aerodynamics anyway.
    – Dmitry Grigoryev
    Nov 25, 2016 at 13:01

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