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I'm writing a simpler(faster) equivalent of std/boost::function. My chief concern is simplicity and efficiency, the platform is restricted to x86-64 linux, compiled with gcc and clang.

Under the above restriction, is it fair to assume that

  1. all function pointers, i.e., pointers to free function, member function (of POD, classes with virtual methods, derived classes, virtually inherited class...), functor, lambda... are all of size at most 16 bytes?
  2. And what is the alignment requirement?
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closed as not constructive by Gene T, Anoop Vaidya, Bohemian, Stony, Jon Egerton Jan 21 '13 at 9:25

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1  
No, it's not safe to assume that. sizeof exists for a reason. –  Ken White Jan 19 '13 at 3:00
2  
The answer still remains the same. No, you should not assume anything. –  Ken White Jan 19 '13 at 3:08
    
he said efficiency is important. sometimes you have to assume things to increase efficiency, and sometimes it includes assuming things about the size of your type. –  thang Jan 19 '13 at 5:44
    
I just hope you did careful profiling and identified that std::function is the bottleneck of your application, causing significant problems. –  Ali Jan 19 '13 at 8:32

1 Answer 1

up vote 1 down vote accepted

For x86_64, you can safely assume that any pointer to function and/or member will not exceed the size of a pointer to a member function. For GCC this would be sizeof(void*), for clang this would be sizeof(void*)*2 (last time I checked). The alignment requirements are 16 bytes. With GCC, you can rely on __BIGGEST_ALIGNMENT__ pre-defined macro. It is absent on clang, however. The only thing that I could suggest is try not to assume, but use compile-time expression that calculates the biggest size.

UPDATE:

As @David has pointed out, 8 bytes might not be enough in order to dispatch a member function invocation in case of multiple and/or virtual inheritance. So sizeof(void*)*2 applies in both cases in order to stay on a safe side.

The best way to go remains compile-time expression using sizeof. For example:

struct Foo {
};

typedef void* (Foo::*pmf)();
typedef void* (*bar)();

constexpr auto max_func_pointer_size() -> decltype(sizeof(void*)) {
    return sizeof(pmf) > sizeof(bar) ? sizeof(pmf) : sizeof(bar);
}

int main()
{
    static_assert(max_func_pointer_size() == 16, "oops!?");
}
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thanks a lot Vlad. That's really helpful. And for BIGGEST_ALIGHMENT, I think i can just do alignas(16). –  Ralph Zhang Jan 19 '13 at 3:06
    
Not downvoting, but there's no such thing as a "safe assumption*. There's a reason for the old saying about "assume making an ass of u and me". Once again, sizeof exists for a reason, and you should use it. –  Ken White Jan 19 '13 at 3:10
    
@KenWhite: You are right. The reason I answer is because I know what happens with both gcc and clang. I've been through this a few months back. Of course, doing nothing but assuming is no good. I'd use compile-time checks, etc. This is just how it works as of now for both compilers in question. –  user405725 Jan 19 '13 at 3:44
    
@Vlad: The key to your last comment is "as of now". What happens tomorrow (or the day after, or next week or month)? This is the exact reason that it's not safe to assume anything. :-) –  Ken White Jan 19 '13 at 3:46
1  
@VladLazarenko: If by 8 bytes of garbage you mean in the general case, then we agree, but in the general case, and in particular in an scenario with multiple inheritance and/or virtual inheritance the second 8 bytes are required to correct the this pointer. In my case I wrote the comment because I was surprised, since I have measured the size of a pointer to member in the past and it was 2*ptrdiff_t in gcc for virtual functions :) –  David Rodríguez - dribeas Jan 19 '13 at 4:59

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