Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

So, there's this rule to try to pull if statements out of high repetition loops:

for( int i = 0 ; i < 10000 ; i++ )
    if( someModeSettingOn )  doThis( data[i] ) ;
    else  doThat( data[i] ) ;

They say, it's better to break it up, to put the if statement outside:

if( someModeSettingOn )
  for( int i = 0 ; i < 10000 ; i++ )
    doThis( data[i] ) ;
  for( int i = 0 ; i < 10000 ; i++ )
    doThat( data[i] ) ;      

(In case you're saying "Ho! Don't optimize that yourself! The compiler will do it!") Sure the optimizer might do this for you. But in Typical C++ Bullshit (which I don't agree with all his points, eg his attitude towards virtual functions) Mike Acton says "Why make the compiler guess at something you know? Pretty much best point of those stickies, for me.

So why not use a function pointer instead?

FunctionPointer *fp ;
if( someModeSettingOn )  fp = func1 ;
else fp = func2 ;

for( int i = 0 ; i < 10000 ; i++ )
    fp( data[i] ) ;

Is there some kind of hidden overhead to function pointers? Is it is efficient as calling a straight function?

share|improve this question
You should profile it in your own circumstances and see. Branch prediction has come a long way to reducing the overhead of a consistent if statement. – Mark Ransom Jun 19 '12 at 14:37

6 Answers 6

In this example it's impossible to say which case will be faster. You need to profile this code on target platform/compiler to estimate it.

And in general, in 99% case such code need not to be optimized. It's example of evil premature optimization. Write human-readable code and optimize it only if need after profiling.

share|improve this answer

Don't guess, measure.

But, if I absolutely had to guess, I'd say the third variant (function pointer) is going to be slower than the second variant (if outside loops), which I suspect might play with CPU's branch prediction better.

The first variant may or may not be equivalent to the second one, depending on how smart the compiler is, as you have already noted.

share|improve this answer

Why make the compiler guess at something you know?

Because you may complicate the code for future maintainers without providing any tangible benefit to the users of your code. This change smells strongly of premature optimization and only after profiling would I consider anything other than the obvious (if inside loop) implementation.

Given that profiling shows it to be a problem then as a guess I believe pulling the if out of the loop would be faster than the function pointer because the pointer may add a level of indirection that the compiler can't optimize away. It will also decrease the likelihood that the compiler can inline any calls.

However I would also consider an alternate design using an abstract interface instead of an if within the loop. Then each data object already knows what to do automatically.

share|improve this answer
Not only will the indirection of the pointer hurt, but the function call itself might prevent some optimizations. – Mark Ransom Jun 19 '12 at 16:25

Not sure if it qualifies as "hidden", but of course using a function pointer requires one more level of indirection.

The compiler has to generate code to dereference the pointer, and then jump to the resulting address, as opposed to code that just directly jumps to a constant address, for a normal function call.

share|improve this answer
"code that just directly jumps to a constant address, for a normal function call" - and that's the worst case of a normal function call. It might be inlined. – Steve Jessop Jun 19 '12 at 15:54
Mind you, there isn't necessarily "one more level of indirection" in using a function pointer. It's some kind of call <register> instruction, compared to some kind of call <constant> function (with the constant fixed up by the dynamic linker), or conceivably set <register> <constant> then call <register>. I don't think it would generally be said that x + y involves an extra level of indirection compared with x + 12345. If stuff gets spilled to stack, then maybe it's extra work to use the variable, but the real reasons for function pointers generally being slower are not this. – Steve Jessop Jun 19 '12 at 16:01

You have three cases:

If inside the loop, function pointer de-ref inside the loop, if outside the loop.

Of the three, WITH NO COMPILER OPTIMIZATION, the third is going to be the best. The first does a conditional and the second does a pointer de-reference on top of the code you want to run, while the third just runs what you want it to.

If you want to optimize yourself do NOT do the function pointer version! If you don't trust the compiler to optimize, then the extra indirection might end up costing you, and it's a lot easier to break accidentally in the future (in my opinion).

share|improve this answer
Your answer would have been stronger if you had ordered the three cases the same as the question. And I disagree that if outside the loop is guaranteed to be faster even with no optimization. I do agree that it's unlikely to be slower. – Mark Ransom Jun 19 '12 at 16:31
@MarkRansom - Interesting. What's your thought on when it wouldn't be slower? The only thing I can come up with is if the CPU is doing branch prediction, and you never lose the CPU in the course of the loop. – Michael Kohne Jun 19 '12 at 16:58
Not just branch prediction - many loops are memory bandwidth constrained so optimizing every last cycle doesn't really help. Oh how I miss the days when you could look at an instruction and know exactly how many clocks it would take! OK, maybe not. – Mark Ransom Jun 19 '12 at 17:09

You have to measure which is faster - but I very much doubt the function pointer answer will be faster. Checking a flag probalby has zero latency on modern processors with deep multiple pipelines. Whereas a function pointer will make it likely that the compiler will be forced to do an actual function call, pushing registers etc.

"Why make the compiler guess at something you know?"

Both you and the compiler know some things at compile time - but the processor knows even more things at run time - like if there are empty pipelines in that inner loop. The days of doing this kind of optimization are gone outside of embedded systems and graphics shaders.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.