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GCC compiler supports __builtin_expect statement that is used to define likely and unlikely macros.

eg.

#define likely(expr)    __builtin_expect((expr), !0)
#define unlikely(expr)  __builtin_expect((expr), 0)

Is there an equivalent statement for the Microsoft Visual C compiler, or something equivalent ?

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4 Answers 4

up vote 12 down vote accepted

I say just punt

The only thing close is the semi-intrinsic __assume(), but don't use it, it is dangerous. You can get incorrect code generated if the expression turns out to be different.

Really, the reason the gnu builtin is wrapped in a macro is so you can just get rid of it automatically if __GNUC__ is not defined. There isn't anything the least bit necessary about those macros and I bet you will not notice the run time difference.

Summary

Just get rid of (null out) *likely on non-GNU. You won't miss it.

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I have a hardware device, after ever function call I need to perform a check like safeCall(mDevice.doit()), my safeCall is in-lined which increases performance, but only when I have likely/unlikely branch. I want to say that these macros can be useful. –  Mikhail Jan 4 at 23:41
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__assume should be similar.

However, if you want to do this really well you should use Profile Guided Optimization rather than static hints.

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I think this might be dangerous. According to Microsoft: "Because the compiler generates code based on __assume, that code might not run correctly if the expression inside the __assume statement is false at run time." –  DigitalRoss Sep 17 '09 at 19:38
    
@Digital - Very true, the linked to MSDN article describes the pitfalls. Again, static hints like this should be avoided and you should try to use PGO if at all possible. –  Michael Sep 17 '09 at 20:30
    
Good point. I won't argue with profiling. –  DigitalRoss Sep 17 '09 at 20:42
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According to http://www.akkadia.org/drepper/cpumemory.pdf (page 57), it still makes sense to use static branch prediction even if CPU predicts correctly dynamically. The reason for that is that L1i cache will be used even more efficiently if static prediction was done right.

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According to "Branch and Loop Reorganization to Prevent Mispredicts" document from Intel:

In order to effectively write your code to take advantage of these rules, when writing if-else or switch statements, check the most common cases first and work progressively down to the least common.

Unfortunately you cannot write something like

#define if_unlikely(cond) if (!(cond)); else 

because MSVC optimizer as of VS10 ignores such "hint".

As I prefer to deal with errors first in my code, I seem to write less efficient code. Fortunately, second time CPU encounters the branch it will use its statistics instead of a static hint.

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In answer to Xentrax: Your statement regarding MSVC does not seem to match with my observation. I'm using VS 2010 and see the compiler generating a "jne" when using a normal if. But when using an else instead, the compiler generates a "je", and puts the else block after the main flow. So, with MSVC, your define does seems to work. Now if only I could find a statement from MS that this is intended, supported behavior... –  Ruben Apr 23 '13 at 7:52
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