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I'm trying to speed up a program by using std::async. Let's say I have a function

T* f (const T& t1, const T& t2, const T& t3)

Where T is a type that is expensive to copy. I have several independent calls of f with different arguments and I try to parallelize them with std::async approximately like this: (where m_futures is a std::vector of futures of the correct type).

for (...) {
   m_futures.push_back (
       std::async(
           std::launch::async,
           f,
           a,b,c));
}

I observed that the above code slows down the execution of my program. I stepped through it with gdb and when the future is created, the copy constructor of T is called three times. Why is that? The arguments a,b,c are heap allocated, but maybe the compiler does not know about it? Can I make it explicit somehow?

Is it always the case that std::async creates copies of the arguments, even if they should be passed by const reference? Can I avoid this somehow? In my naive mind, there should just be a pointer passed around to the different invocations of the function (which only reads from the memory anyway.) I'm using gcc-4.6.3 on Linux if that matters.

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1 Answer 1

up vote 14 down vote accepted

It wouldn't be safe to store references only, since there's nothing to guarantee the absence of data races (and more profoundly, the mere existence of objects, as @utapistim said in her sadly deleted post).

If you actually want a reference rather than a copy, and you're willing to bet your life on this being correct, then you can simply use a reference wrapper:

std::async(std::launch::async, f, std::cref(a), std::cref(b), std::cref(c))
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1  
Out of curiosity, what if I change the interface and explicitly pass a pointer? Would that be equivalent to using reference wrappers? –  Thomas Feb 13 '13 at 10:29
    
@Thomas: Yes. Reference wrappers are essentially pointers. Don't use naked pointers in C++ (except as private class members). Prefer the reference wrappers. –  Kerrek SB Feb 13 '13 at 10:30
    
OK, Thanks, I did not know about reference wrapping. –  Thomas Feb 13 '13 at 10:33
1  
@KerrekSB Well, originally probably rather for std::bind and friends in the first place, and to accomodate for the (pre-11) lack of perfect forwarding for automatic deduction of reference arguments. –  Christian Rau Feb 13 '13 at 10:47
3  
@ChristianRau, you're right it was invented for std::bind but I don't see what perfect forwarding has to do with it, being able to distinguish between lvalues and rvalues doesn't help a call wrapper know whether it should forward an argument by value or by reference, only the caller can know which is appropriate for a given call. –  Jonathan Wakely Feb 13 '13 at 12:39

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