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Trying to optimize the fun_a1() function. The variable j does not change in the scope of fun_a1(). So, checking j==1 or 2 or 3 for each 'i' iteration is obviously a waste of CPU cycles. But if I try to bring the condition evaluation outside the loop, I have to write redundant loops for each condition. In C, I can solve this easily by using a function pointer. However, C++ will not allow pointers to non-static functions. I found a few links describing the mysterious "pointer-to-member". (example 1, example 2) But it's still not clear how do I use it from inside the object itself e.g from inside fun_a()? Or can it be optimized in any other ways?

class A{
    void fun_b(int i);

    void fun_c(int i);

    void fun_d(int i);

    void fun_f(int i);

    void fun_a1(int j){

        for(int i=0; i<1000; i++){

                 if(j==1) fun_b(i);
            else if(j==2) fun_c(i);
            else if(j==3) fun_d(i);



    void fun_a2(int j){

            for(int i=0; i<1000; i++) { 
        else if(j==2){          
            for(int i=0; i<1000; i++) { 
        else if(j==3){
            for(int i=0; i<1000; i++) { 
share|improve this question
You don't. Your compiler should be able to figure this out on its own. For example, Visual C++ 2012 will hoist the function selection out of the loop and generate multiple loops, effectively transforming fun_a1 into fun_a2 automatically. –  James McNellis Feb 10 '13 at 4:32
This is almost certainly a case of useless "optimization". The actual function call costs more CPU cycles than the maximum of two "wasted" comparisons. If the compiler inlines the called functions, it gets worse as you totally kill branch prediction with an array of function pointers, in contrast to your current solution. –  us2012 Feb 10 '13 at 4:35
He didn't say why he was optimizing it. If I were him, I'd be doing this optimization because I profiled and found fun_a1 to be a hotspot. In that case, I should be trying to squeeze performance out of the function; if it means I have to use function pointers, then maybe it's worth it for a heavily-used routine. –  nneonneo Feb 10 '13 at 4:37
Next, if you have, say, 20 options for j instead of just 3, the compiler might decide not to specialize because the size cost would be too extreme. Most times you let the compiler optimize; sometimes, you have to help. Profiling is how you decide when you have to do the latter. –  nneonneo Feb 10 '13 at 4:39
for common sense it looks a waste of comparison of 'j' on each iteration, where 'j' will never change in that scope! also the actual loop is something like for(int i=0; i<n; i++) where 'n' can be anything between 0 and MAX_VALUE of 32bit int. as 'n' grows, so is the unnecessary comparison of 'j'. –  Anon Y. Feb 10 '13 at 4:53

3 Answers 3

up vote 1 down vote accepted

Using function pointers, if the compiler doesn't remove them, is a serious performance hit.

A raw if on an unchanged local variable will be probably optimized out of the loop: that isn't a very fancy optimization.

However, if you want to make this explicit, the answer isn't function or method pointers. It is lambdas and functors.

template<typename Functor>
void fun_a2_internal(Functor f) {
  for(int i = 0; i < 1000; ++i) {

void fun_a2(int j) {
  if (j==1)
    fun_a2_internal([&](int i){ fun_b(i); fun_f(i); });
  else if (j==2)
    fun_a2_internal([&](int i){ fun_c(i); fun_f(i); });
  else if (j==3)
    fun_a2_internal([&](int i){ fun_d(i); fun_f(i); });

here we write a fun_a2_internal whose job it is to do a loop, and do some task in the loop.

Our fun_a2 passes that task in as a functor via a lambda.

This has the effect that the compiler gets to know the details of the body of the loop when compiling the loop, because the functor's operator() is a non-virtual one, and thus the same for every instance.

In general, if your answer to an optimization problem is "use function pointers" (or member pointers), you have the wrong answer.

This technique is why C++'s std::sort is faster than C's qsort.

share|improve this answer
I guess you are right. however, would you kindly hint why the use of "pointer to member" is such a performance hit!? Its ok if you cant be bothered. I will try to search it out myself. As for "optimizing", I will rather choose the original fun_a2() over this solution, in this case. –  Anon Y. Feb 10 '13 at 7:09
Yes, the original fun_a2 will almost certainly be best. Function pointers, if the compiler doesn't figure out what you are doing and then ignore what you did with them, are a performance hit because optimization in this era of processors consists of making it easy for the CPU to figure out what is going to run next, so it can pre-fetch and sometimes "pre-execute" the code before we reach it (that, and algorithmic and cache-hit efforts, etc). Eliminating ifs at the cost of function pointers is ineffective. –  Yakk Feb 10 '13 at 14:58

Here's how you'd use a pointer to member function:

void (A::*fun)(int);
if(j == 1) fun = &A::fun_b;
else if(j == 2) fun = &A::fun_c;
else if(j == 3) fun = &A::fun_d;

for(int i=0; i<1000; i++) {
share|improve this answer
where does this "void (A::*fun)(int);" code go? in the class body or inside the function fun_a()!? –  Anon Y. Feb 10 '13 at 4:44
In the function. This whole snippet is the function body. –  nneonneo Feb 10 '13 at 4:45
Thanks! Then it is exactly what I was looking for! Just another quick question, will (this->*fun) linger around outside the function scope like a member or member function? or will it just be like a local veritable? It will be a perfect solution if it vanishes at the end of function scope like a local variable. –  Anon Y. Feb 10 '13 at 5:00
void (A::*fun)(int); is a variable declaration (of member function pointer type void (A::*)(int)), so it obeys the usual variable lifetime rules. It does not create a A::fun member function. If you put the declaration in the function body (as a local variable), it will go away at the end of the function. (this->*fun)(i) is just how you use member function pointers. –  nneonneo Feb 10 '13 at 5:04
Calling a function pointer, if it isn't optimized out, is a serious performance hit. –  Yakk Feb 10 '13 at 6:16

"optimize" is vague and should never be asked unless

  • 1, there is a particular problem being asked by, say professor based on concepts of efficiency covered

  • 2, there is a particular optimization to be done.

What you are asking is to optimize this "switch" statement

Yes, switch statement is more clean for this situation, but the more efficient way to do this is to make an array of function pointers to void functions containing these loops, then do


for example

typedef void (*myfunc)(void);

myfunc options[10];

    options[0] = (void*)loop1;
    options[1] = (void*)loop2;
    options[2] = (void*)loop3;
    options[3] = (void*)loop4;  

PS: i++ is slower than ++i unless optimized by compiler.

share|improve this answer
He's asking how to use a member function pointer. –  nneonneo Feb 10 '13 at 4:32
Maybe but my solution reduces time before a function gets called to O(1). since options[j](); does not multiplex if statements. –  Dmitry Feb 10 '13 at 4:37
apologies for use of the word "optimize" in vague. also, C++ wont allow function pointer to non-static member function. I think the answer by 'nneonneo' is the way to go. thanks for your reply though. –  Anon Y. Feb 10 '13 at 4:39
if you are multiplexing, you should not be selecting member functions anyway, they should be free static functions in a namespace. I am still pretty confident that they can be function casted without any problems. Whichever way works. –  Dmitry Feb 10 '13 at 4:45
If you wrote this code with typedef void(A::*myfunc)(int); it would be nicer. –  nneonneo Feb 10 '13 at 4:47

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