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gcc features likely/unlikely hints that help the compiler to generate machine code with better branch prediction.

Is there any data on how proper usage or failure to use those hints affects performance of real code on some real systems?

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I don't think there would be strong metrics, as it is a micro-optimization, and it will depend on how often the hint is correct or not, the size of the binary code in the if/else blocks and maybe even the phase of the moon – David Rodríguez - dribeas Sep 30 '11 at 8:54
Essentially this maps to the CPU's branch predictor; the size of the binary code is irrelevant. – MSalters Sep 30 '11 at 9:04
For the performance I have no benchmarks, but a thing that I can say that the assembler that is produced by gcc with such hints is much clearer. – Jens Gustedt Sep 30 '11 at 11:12
@Jens Gustedt: AFAIK hints only lead to swapping branches. How does code get much cleaner? – sharptooth Sep 30 '11 at 11:39
Exactly by that. It is much easier to follow the main branch, since this is contiguous, then, and the parts that are considered "unliked" are swapped behind, out of view. – Jens Gustedt Sep 30 '11 at 12:02

The question differs, but Peter Cordes's answer on this question gives a clear hint ;) . Modern CPU's ignore static hints and use dynamic branch prediction.

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Looks like it's not about hints only - hyhtech.blogspot.com/2008/08/… - it affects which branch code is placed on the path that is defaulted to when CPU executes code for the first time and has no idea of how that code behaves yet. – sharptooth Sep 30 '11 at 9:21

I don't know of any thorough analysis of such particular hints. In any case, it would be extremely CPU-specific. In general, if you are sure about the likelyhood (e.g., > 90%) then it is probably worthwhile to add such annotations, although improvements will vary a lot with the specific use case.

Modern Desktop CPUs tend to have very good branch prediction. If your code is on a hot path anyway, the dynamic branch predictor will quickly figure out that the branch is biased on its own. Such hints are mainly useful to help the static predictor which kicks in if no dynamic branch information is available.

On x86, the static predictor predicts forward branches not to be taken and backward branches to be taken (since they usually indicate loops). The compiler will therefore adjust static code layout to match the predictions. (This may also help putting the hot path on adjacent cache lines, which may help further.)

On PPC, some jump instructions have a bit to predict their likelyhood. I don't know if the compiler will rearrange code, too.

I don't know how ARM CPUs predict branches. As a low-power device it may have less sophisticated branch prediction and static prediction could have more impact.

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