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We have a macro for error-checking that goes like this:

#define CheckCondition( x ) \
    if( x ) { \
    //okay, do nothing \
    } else { \
       CallFunctionThatThrowsException(); \

and normally the condition has to be true and we'd like the CPU branch prediction to always select this path, and if it happens to be false we don't really care of a misprediction - throwing an exception and massive stack unwinding will cost a fortune anyway.

According to CPU hardcore descriptions branch prediction will treat forward jumps and backward jumps slightly differently (something like a backward jump is always performed and a forward jump is never performed) and the compiler could improve branch prediction by generating code that will give right hints to the CPU branch predictor.

gcc seems to have likely and unlikely hints for that. Is there anything like that in Visual C++? Can __assume keyword be used for that?

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Reading the documentation it's clear __assume cannot be used, because it makes the compiler skip the other branch altogether. – Jan Hudec Feb 22 '11 at 7:23
Sounds like a micro optimization – BЈовић Feb 22 '11 at 7:42
@VJo: Well, kind of. But the intention is to change one macro and have an impact on all code that uses it. If this gives us even a slightest gain in execution speed it's not that bad. – sharptooth Feb 22 '11 at 7:46
@VJo Micro optimizations can be important if you're trying to save microseconds. – Crashworks Feb 22 '11 at 8:06
Just an FYI: here's an interesting article with some analysis of the effect of __builtin_expect in GCC: blog.man7.org/2012/10/how-much-do-builtinexpect-likely-and.html – Michael Burr Dec 1 '12 at 22:44
up vote 8 down vote accepted

Not in MSVC, unfortunately, according to their developer center.

It's very frustrating because we'd like to use it in a couple of cases where the equivalent GCC intrinsic has saved us a critical few microseconds in inner loops, but the closest we can get is to swap the if and else clauses so that the more likely case is in the forward-jump-not-taken branch.

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How can I achieve that swapping if one branch is empty? The compiler seems to emit exactly the same code for if( !condition ) { action(); } else {} and if( condition ) {} else { action(); }. – sharptooth Feb 22 '11 at 8:12
@sharptooth We've never had to do it for that -- our cases all had code in both blocks. I'm afraid this is just Yet Another MSVC Shortcoming. – Crashworks Feb 22 '11 at 8:14
So there is an implicit hint in the ordering of the conditions. So you effectively have the same ability. – Loki Astari Feb 22 '11 at 8:20
@sharptooth If one of the branches is empty there is only one branch, right? The optimizer isn't stupid! – Bo Persson Feb 22 '11 at 18:43
@NikBougalis That assumes that the CPU's branch history is large enough to remember this particular instruction every time it is called. If this error-checking macro occurs many different places in the code, the CPU will not be able to store all of them in its prediction table. – Crashworks Aug 29 '13 at 21:47

Enable Profile-Guided Optimization. The compiler not only will maximize branch prediction, but may move the cold code out of the way entirely. This channel 9 video explains the various optimizations.

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PGO requires a separate pass and also I'll have to cover all those statements in my test run to have them all PGOed. – sharptooth Dec 3 '12 at 6:38
It's more work to setup, but also generates better code. Microsoft won't implement the likely hint, as PGO dominates it. Note that you don't want to use your tests to train PGO. Tests cover border cases. Train PGO on your common cases. – Bruno Martinez Dec 3 '12 at 21:15
Nope, PGO does not dominate likely hint - they are just different things. – sharptooth Dec 4 '12 at 7:07

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