42

Is there any portable way of doing branch prediction hints? Consider the following example:

  if (unlikely_condition) {
    /* ..A.. */
  } else {
    /* ..B.. */
  }

Is this any different than doing:

  if (!unlikely_condition) {
    /* ..B.. */
  } else {
    /* ..A.. */
  }

Or is the only way to use compiler specific hints? (e.g. __builtin_expect on GCC)

Will compilers treat the if conditions any differently based on the ordering of the conditions?

7
  • I wonder whether this could be something C++0x attributes to stick on conditions for if? Like if([[unlikely]] unlikely_condition) { ... }? Currently the syntax does not allow it. It does however allow if([[unlikely]] bool b = ...) { }. Maybe one could abuse that :) – Johannes Schaub - litb Sep 13 '10 at 17:41
  • 5
    GNU code contains a ridiculous amount of if(likely(...)) junk in completely non-performance-critical code, and IMO this is really bad. For one thing, it doesn't read naturally in English - it sounds like "if this condition is likely to be true" instead of "if this condition is true, which it likely is". And for another, it's just clutter. Unless you have lots of performance-critical conditionals that won't compile to cmov or similar already, just ignore branch prediction hinting. – R.. GitHub STOP HELPING ICE Sep 13 '10 at 18:04
  • 1
    @R.. I think I understand why the Linux kernel is littered with if(unlikely(...)). They prefer early exits that make code flow easier to follow. If they did not do this then the static branch prediction would always fail. – Oskar N. Sep 13 '10 at 21:53
  • 1
    And it would make Linux 0.00001% slower. Not measurable. If it is, simply put this crap in the few conditionals where it is measurable, not everywhere. – R.. GitHub STOP HELPING ICE Sep 13 '10 at 23:24
  • 4
    It's also a kind of documental hint. I use it often to distinguish between active work code and exceptional error handling code. This said on the architecture I work on, it's a quite useful mechaism as the ISA has hint bits in the branch instruction (SPARC). – Patrick Schlüter Sep 14 '10 at 9:56
29

The canonical way to do static branch prediction is that if is predicted not-branched (i.e. every if clause is executed, not else), and loops and backward-gotos are taken. So, don't put the common case in else if you expect static prediction to be significant. Getting around an untaken loop isn't as easy; I've never tried but I suppose putting it an an else clause should work pretty portably.

Many compilers support some form of #pragma unroll, but it will still be necessary to guard it with some kind of #if to protect other compilers.

Branch prediction hints can theoretically express a complete description of how to transform a program's flow-control graph and arrange the basic blocks in executable memory… so there are a variety of things to express, and most won't be very portable.

As GNU recommends in the documentation for __builtin_expect, profile-guided optimization is superior to hints, and with less effort.

1
  • And VS has PGO too, so it's a win-win. :) – GManNickG Sep 13 '10 at 17:48
19

In most cases, the following code

if (a)
{
   ...
}
else
{
    ...
}

is actually

evaluate(A)

if (!A)
{
   jmp p1
}

... code A

   jmp p2

p1:

... code !A

p2:

Note that if A is true, "code A" is already in the pipeline. The processor will see the "jmp p2" command ahead, and will load p2 code to the pipeline.

If A is false, the "code !A" may not be in the pipleline, therefore it may be slower.

Conclusions:

  1. do If(X) if X is more likely than !X
  2. try to evaluate A as early as possible, so that the CPU can dynmically optimize the pipeline.

:

evaluate(A)

do more stuff

if (A)
   ...
5
  • got it! Please keep the 'if' code in braces pls -even though its single line. It's a bit confusing otherwise! – Ayyappa Oct 1 '11 at 8:26
  • 1
    "try to evaluate A as early as possible, so that the CPU can dynmically optimize the pipeline." - Can you please provide some pointers for this statement? I want to know how it will do it. – Ayyappa Oct 1 '11 at 8:30
  • A lot of information here: download.intel.com/design/pentiumii/manuals/24281603.pdf – Lior Kogan Oct 1 '11 at 9:34
  • @LiorKogan link is dead now. Any way to find it again? – Carlos Mar 15 at 10:42
  • 1
    @Carlos: yes. Google "Intel 24281603". – Lior Kogan Mar 15 at 11:17
8

Optimization is inherently a compiler thing, so you have to use compiler functionality to help it. The language itself doesn't care about (or mandate) optimizations.

So the best you can do without compiler-specific extensions is organize your code in such a way where your compilers will "do the right thing" without help. But if you want to be sure, tap in to compiler extensions. (You might try abstracting them behind the preprocessor, so your code remains portable.)

6
  • 6
    There's plenty of precedent for the language providing optimisation hints, though (inline, restrict, register). Some are more pointful than others on modern compilers. It doesn't matter whether a particular implementation actually does anything with them: if there's a reasonable chance of some doing something useful, then it would be a nice feature. I reckon static branch prediction in the main doesn't meet that criterion, so I don't think it's a bad call to leave it out. It is a judgement on the merits of the case, though, not quite "we don't care about optimisation, ever". – Steve Jessop Sep 13 '10 at 17:55
  • @Steve: Yeah, I guess I automatically ignore those so I forget about them. You're right. – GManNickG Sep 13 '10 at 18:33
  • 2
    I think restrict is probably worthwhile as a premature optimisation. It's not going to do any harm, it might do significant good by preventing horrible store/load dependencies, and where it applies it's presumably a documented requirement (as in memcpy) whether that's reflected in the source or not. The others (and in C++03), I agree with your resounding "meh" :-) – Steve Jessop Sep 13 '10 at 21:34
  • @Steve: I agree, I was ignoring restrict since it's not part of the current standard. :) – GManNickG Sep 13 '10 at 21:47
  • Ah, but this is one of those tagged-C-and-C++ questions, where even the simplest answer can disappear in a blizzard of caveats. – Steve Jessop Sep 13 '10 at 22:12
7

C++20 offers likely and unlikely attributes

Allow the compiler to optimize for the case where paths of execution including that statement are more or less likely than any alternative path of execution that does not include such a statement

3
1

Just be consistant with what you do. I like to use

if (!(someExpression))

But the compiler should treat this equally.

1

What's wrong with checking for a specific compiler via #ifdef and hiding these things behind a custom macro? You can #define it to expand to the plain expression in cases you don't have a compiler that supports these optimization hints. I recently did something similar with explicit cache prefetches which GCC supports via an intrinsic function.

1
  • I've done that. With more than two or three compilers it can become a real mess, if different compilers use different syntax. – David Thornley Sep 13 '10 at 18:29

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