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I came across a #define in which they use __builtin_expect.

After some googling i found in GNU documentation:

— Built-in Function: long __builtin_expect (long exp, long c)

You may use __builtin_expect to provide the compiler with branch prediction information. In general, you should prefer to use actual profile feedback for this (-fprofile-arcs), as programmers are notoriously bad at predicting how their programs actually perform. However, there are applications in which this data is hard to collect.

The return value is the value of exp, which should be an integral expression. The semantics of the built-in are that it is expected that exp == c. For example:

      if (__builtin_expect (x, 0))
        foo ();

would indicate that we do not expect to call foo, since we expect x to be zero. Since you are limited to integral expressions for exp, you should use constructions such as

My question is: So why not directly use:

                 if ( x != 0 )
                    foo( );

instead of the complicated syntax with expect?

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4 Answers 4

up vote 61 down vote accepted

Imagine the assembly code that would be generated from:

if (__builtin_expect(x, 0)) {
} else {

I guess it should be something like:

  cmp   $x, 0
  jne   _foo
  call  bar
  jmp   after_if
  call  foo

You can see that the instructions are arranged in such an order that the bar case precedes the foo case (as opposed to the C code). This can utilise the CPU pipeline better, since a jump thrashes the already fetched instructions.

Before the jump is executed, the instructions below it (the bar case) are pushed to the pipeline. Since the foo case is unlikely, jumping too is unlikely, hence thrashing the pipeline is unlikely.

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Does it really work like that? Why the foo definition can't come first? The order of function definitions are irrelevant, as far as you have a prototype, right? –  kingsmasher1 Sep 8 '11 at 11:36
This is not about function definitions. It is about rearranging the machine code in a way that causes a smaller probability for the CPU to fetch instructions that are not going to be executed. –  Blagovest Buyukliev Sep 8 '11 at 11:43
Ohh i understand. So you mean since there is a high probability for x = 0 so the bar is given first. And foo, is defined later since it's chances (rather use probability) is less, right? –  kingsmasher1 Sep 8 '11 at 11:47
Ahhh..thanks. That's the best explanation. The assembly code really made the trick :) –  kingsmasher1 Sep 8 '11 at 11:55
This may also embed hints for the CPU branch predictor, improving pipelining –  Hasturkun Sep 8 '11 at 13:48

The idea of __builtin_expect is to tell the compiler that you'll usually find that the expression evaluates to c, so that the compiler can optimize for that case.

I'd guess that someone thought they were being clever and that they were speeding things up by doing this.

Unfortunately, unless the situation is VERY well understood, it's likely that they have done no such thing, and in fact may well have made things worse. The documentation even tells you why - most programmers are BAD at knowing things like which end of a branch is most likely.

In general, you shouldn't be using __builtin_expect unless you have a very real performance issue, AND you've already optimized the algorithms in the system appropriately, AND you've got performance data to back up your assertion that a particular case is the most likely.

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Yes, i think it is like that, but somewhere i see i need to understand the concept of branch prediction as you and Kerrek have said, it may flash more light in that. I think it takes place during syntatic analysis, right? –  kingsmasher1 Sep 8 '11 at 11:14
@kindsmasher1 - the idea of branch prediction is that the underlying processor compare and branch instructions are often faster in one direction than the other (for instance, not taking the branch may be quicker than taking the branch). If the processor knows what value is most likely, and therefore which half of the if is most likely to be taken, it can pick compare operations and branch instructions to maximize the speed of that most likely branch. Note that it can also do things at a higher level and re-arrange your code, if that makes the most sense. –  Michael Kohne Sep 8 '11 at 11:19
@Michael: That's not really a description of branch prediction. –  Oliver Charlesworth Sep 8 '11 at 11:54
"most programmers are BAD" or anyway no better than the compiler. Any idiot can tell that in a for loop, the continuation condition is likely to be true, but the compiler knows that too so there's no benefit telling it. If for some reason you wrote a loop that would almost always break immediately, and if you can't provide profile data to the compiler for PGO, then maybe the programmer knows something the compiler doesn't. –  Steve Jessop Sep 8 '11 at 12:17
In some situations, it doesn't matter which branch is more likely, but rather which branch matters. If the unexpected branch leads to abort(), then likelihood doesn't matter, and the expected branch should be given performance-priority when optimizing. –  Neowizard Feb 14 '12 at 12:29

Well, as it says in the description, the first version adds a predictive element to the construction, telling the compiler that the x != 0 branch is the more likely one - that is, it's the branch that will be taken more often by your program.

With that in mind, the compiler can optimize the conditional so that it requires the least amount of work when the expected condition holds, at the expense of maybe having to do more work in case of the unexpected condition.

Take a look at how conditionals are implemented during the compilation phase, and also in the resulting assembly, to see how one branch may be less work than the other.

However, I would only expect this optimization to have noticeable effect if the conditional in question is part of a tight inner loop that gets called a lot, since the difference in the resulting code is relatively small. And if you optimize it the wrong way round, you may well decrease your performance.

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But at the end it is all about checking the condition by the compiler, do you mean to say that the compiler always assumes this branch and proceeds, and later if there is not a match then ? What happens? I think there is something more about this branch prediction stuff in compiler design, and how it works. –  kingsmasher1 Sep 8 '11 at 11:08
This is truly a micro-optimization. Look up how conditionals are implemented, there's a small bias towards one branch. As a hypothetical example, suppose a conditional becomes a test plus a jump in the assembly. Then the jumping branch is slower than the non-jumping one, so you'd prefer to make the expected branch the non-jumping one. –  Kerrek SB Sep 8 '11 at 11:10
Thanks, your and Michael i think have similar views but put in different words :-) I understand the exact compiler internals about Test-and-branch are not possible to explain here :) –  kingsmasher1 Sep 8 '11 at 11:23
They're also very easy to learn about by searching the internet :-) –  Kerrek SB Sep 8 '11 at 11:41
I better go back to my college book of compiler design - Aho, Ullmann, Sethi :-) –  kingsmasher1 Sep 8 '11 at 11:43

I don't see any of the answers addressing the question that I think you were asking, paraphrased:

Is there a more portable way of hinting branch prediction to the compiler.

The title of your question made me think of doing it this way:

if ( !x ) {} else foo();

If the compiler assumes that 'true' is more likely, it could optimize for not calling foo().

The problem here is just that you don't, in general, know what the compiler will assume -- so any code that uses this kind of technique would need to be carefully measured (and possibly monitored over time if the context changes).

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This may have, in fact, been exactly what the OP had originally intended to type (as indicated by the title) -- but for some reason the use of else was left out of the body of the post. –  nobar Jun 2 at 14:41

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