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A common way of implementing OO-like code encapsulation and polymorphism in C is to return opaque pointers to a structure containing some function pointers. This is a very frequent pattern for example in the Linux kernel.

Using function pointers instead of function calls introduces an overhead which is mostly negligible due to caching, as has already been discussed in other questions.

However, with the new -fwhole-program and -flto optimization options for GCC (>4.6), things change.

libPointers.c

#include <stdlib.h>
#include "libPointers.h"

void do_work(struct worker *wrk, const int i) 
{
        wrk->datum += i;
}

struct worker *libPointers_init(const int startDatum)
{
        struct worker *wrk = malloc (sizeof (struct worker));

        *wrk = (struct worker) {
                .do_work = do_work,
                .datum = startDatum
        };

        return wrk;
}

libPointers.h

#ifndef __LIBPOINTERS_H__
#define __LIBPOINTERS_H__


struct worker {
        int datum;

        void (*do_work)(struct worker *, int i);
};

extern void do_work (struct worker *elab, const int i);

struct worker *libPointers_init(const int startDatum);


#endif //__LIBPOINTERS_H__

testPointers.c

#include <stdio.h>
#include "libPointers.h"


int main (void)
{
        unsigned long i;
        struct worker *wrk;

        wrk = libPointers_init(56);

        for (i = 0; i < 1e10; i++) {
#ifdef USE_POINTERS
                wrk->do_work(wrk,i);
#else
                do_work(wrk,i);
#endif
        }

        printf ("%d\n", wrk->datum);
}

Compiling with -O3, but without -flto -fwhole-program flags, testPointers execution takes around 25s on my machine, regardless whether USE_POINTERS is #defined or not.

If I turn on the -flto -fwhole-program flags, testPointers takes around 25s with USE_POINTERS #defined, but around 14s if a function call is used.

This is completely expected behavior, since I understand that the compiler will inline and optimize the function in the loop. I wonder, however, if there's a way of helping the compiler telling it that the function pointer is constant and so allowing it to optimize that case, too.

For those using cmake, here's how I compiled it

CMakeLists.txt

set (CMAKE_C_FLAGS "-O3 -fwhole-program -flto")
#set (CMAKE_C_FLAGS "-O3")
add_executable(testPointers
        libPointers.c
        testPointers.c
        )
share|improve this question
1  
What if you capture the value of wrk->do_work in a local function pointer outside the loop, and then use that local variable inside the loop? –  Greg Hewgill Nov 15 '12 at 18:42
    
How do you dare asking a good and meaningful question? :P (+1, this is interesting.) –  user529758 Nov 15 '12 at 18:42
1  
One problem is that do_work is doing extremely little work. If it actually did something significant, the difference in calling speed would be harder to measure (and thus not very significant). –  Bo Persson Nov 15 '12 at 18:49
    
I understand, but getter/setter functions are very very common and they do even less work. With whole-program optimization, we have the luxury of mediating the access to data and full optimization of those simple actions in the final binary. –  Metiu Nov 15 '12 at 18:51
1  
@GregHewgill I changed it this way, unfortunately with no difference int main (void) { unsigned long i; struct worker *wrk; wrk = libPointers_init(56); #ifdef USE_POINTERS void (*const f_do_work)(struct worker *, int i) = wrk->do_work; #endif for (i = 0; i < 1e10; i++) { #ifdef USE_POINTERS f_do_work(wrk,i); #else do_work(wrk,i); #endif } printf ("%d\n", wrk->datum); } –  Metiu Nov 15 '12 at 19:01

2 Answers 2

up vote 5 down vote accepted

The compiler can't inline a function unless it can determine that only one possible version of the function will be called. By calling through a pointer it's not trivially obvious that this is the case. It still might be possible for the compiler to figure it out, since if you follow the code there's only one possible value that the pointer could take; however this would be above and beyond what I'd expect the compiler to do.

share|improve this answer
    
+1 for "above and beyond what I'd expect the compiler to do". –  Mysticial Nov 15 '12 at 19:03
    
Yeah that was what I was stating by saying "this is completely expected behavior". I was wondering whether there was some combination of the const attribute which would tell the compiler that the function was not going to change, along the lines of "pure", "const", etc... This at least would help the common "non-virtual method" case. –  Metiu Nov 16 '12 at 5:59
    
Another common keyword that comes to mind is the restrict keyword, which has a similar contract: stay assured that you can treat a pointer in some way. Would be nice to say "this callback is going to always point to this function" –  Metiu Nov 16 '12 at 6:08
    
If you, as the programmer, know that a specific function will always be called in some situation, then you can simply call that function directly instead of using a pointer. –  Greg Hewgill Nov 16 '12 at 9:42

Mark is right, and I would add there are so many questions like this, lookin' for performance in all the wrong places :)

Shaving cycles on function calls is a performance optimization strategy of last resort.

share|improve this answer
    
Well I don't particularly agree with this. With this new compiler options, we may be trading (e.g. in a set()ter function) a simple store to memory with a function call, just for having used the wrong pattern. This is not shaving cycles, but avoiding jumps and pipeline disruptions, so if the pattern is doomed, better to know it, since 90% of the Linux kernel is based on this and you do want the best performance in a kernel (think 200MHz microcontroller drivers). –  Metiu Nov 16 '12 at 5:55
    
Btw nice one with the profiler. I just wanted to add that in a driver you commonly even hint the compiler about branch expected outcome to shave a jump. And in an irq routine you may be calling a completely inlineable function which in the end would amount to just an inc() –  Metiu Nov 16 '12 at 6:06
    
@Metiu: If I'm writing a compiler (and I have) or a library, I want to squeeze every cycle possible, not because it will help the average user, but because it will help the 1 out of 100 users who actually need it and will justifiably complain if they don't get it. On the other hand, when I'm writing an app, I know I'm among the 99, and performance is totally my responsibility, not the compiler's. After I've cleaned out stuff I wrote, accounting for 99% of the time, then I'm in the land of cycle-shaving. –  Mike Dunlavey Nov 16 '12 at 13:28
    
I don't get it. Why should my example be limited to "an app"? I wrote some code to test the idea, but I'm more often writing drivers or time critical code. Actually, I don't want the compiler to take my responsibility, that's why my question is "helping the compiler", I'd like to see if there are better ways of writing code in the first place. It's like adding static to library functions: it helps the compiler a lot, and it's my responsibility to use it. –  Metiu Nov 16 '12 at 15:01
    
@Metiu: To be more concrete, if I were in your shoes, I would write the code, run it under a realistic workload, and use the method analyzed here to let the actual program tell me what I should concentrate on, as opposed to any preconceived idea I have. It could be, after some bigger issues have been fixed, it will agree with my preconception. Nevertheless, the bigger stuff is where I should concentrate first. –  Mike Dunlavey Nov 16 '12 at 16:19

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