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I understand that, without R-value references, perfect forwarding in C++ would be impossible.

However, I would like to know: is there anything else that necessitates them?


For example, this page points out this example in which R-value references are apparently necessary:

  X foo();
  X x;
  // perhaps use x in various ways
  x = foo();

The last line above:

  • Destructs the resource held by x,
  • Clones the resource from the temporary returned by foo,
  • Destructs the temporary and thereby releases its resource.

However, it seems to me that a simple change would have fixed the problem, if swap were implemented properly:

X foo();
X x;
// perhaps use x in various ways
{
    X y = foo();
    swap(x, y);
}

So it seems to me that r-value references not necessary for this optimization. (Is that correct?)

So, what are some problems that could not be solved with r-value references (except for perfect forwarding, about which I already know)?

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Move semantics? And actually, perfect forwarding doesn't need rvalue references per se, it only needs different type deduction rules. They used rvalue references for those new rules it because it came handy. –  R. Martinho Fernandes Jun 23 '12 at 7:10
    
@R.MartinhoFernandes: What exactly do you mean by "move semantics"? Is it something other than what I showed above? (Also, what I mean is that perfect forwarding was not possible before, but now it is, because of R-value references. What else satisfies this criterion?) –  Mehrdad Jun 23 '12 at 7:10
    
Swap can't replace X x = std::move(y);. –  R. Martinho Fernandes Jun 23 '12 at 7:11
    
@R.MartinhoFernandes: Hmm... but what problem is your example trying to solve, exactly? (Also, what's y in your example?) –  Mehrdad Jun 23 '12 at 7:12
    
y is some X lvalue. I'm trying to solve the same problem as yours, but for a class without a default constructor. Also consider: struct foo { non_default_constructible x; foo(non_default_constructible x) : x(std::move(x)) {} };. You can't swap there. Swap can't replace any kind of move-initialization. –  R. Martinho Fernandes Jun 23 '12 at 7:16

1 Answer 1

up vote 12 down vote accepted

So, what are some problems that could not be solved with r-value references (except for perfect forwarding, about which I already know)?

Yes. In order for the swap trick to work (or at least, work optimally), the class must be designed to be in an empty state when constructed. Imagine a vector implementation that always reserved a few elements, rather than starting off totally empty. Swapping from such a default-constructed vector with an already existing vector would mean doing an extra allocation (in the default constructor of this vector implementation).

With an actual move, the default-constructed object can have allocated data, but the moved-from object can be left in an unallocated state.

Also, consider this code:

std::unique_ptr<T> make_unique(...) {return std::unique_ptr<T>(new T(...));}

std::unique_ptr<T> unique = make_unique();

This is not possible without language-level move semantics. Why? Because of the second statement. By the standard, this is copy initialization. That, as the name suggests, requires the type to be copyable. And the whole point of unique_ptr is that it is, well, unique. IE: not copyable.

If move semantics didn't exist, you couldn't return it. Oh yes, you can talk about copy elision and such, but remember: elision is an optimization. A conforming compiler must still detect that the copy constructor exists and is callable; the compiler simply has the option to not call it.

So no, you can't just emulate move semantics with swap. And quite frankly, even if you could, why would you ever want to?

You have to write swap implementations yourself. So if you've got a class with 6 members, your swap function has to swap each member in turn. Recursively through all base classes and such too.

C++11 (though not VC10 or VC2012) allows the compiler to write the move constructors for you.

Yes, there are circumstances where you can get away without it. But they look incredibly hacky, are hard to see why you're doing things that way, and most important of all, make things difficult for both the reader and the writer.

When people want to do something a lot for performance sake that makes their code tedious to read, difficult to write, and error-prone to maintain (add another member to the class without adding it to the swap function, for example), then you're looking at something that probably should become part of the language. Especially when it's something that the compiler can handle quite easily.

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Awesome answer! Just a follow-up though: Any idea if this is comprehensive? (i.e. any other reasons you know of that you didn't happen to mention?) –  Mehrdad Jun 23 '12 at 7:40
    
+1, note that Bjarne Stroustrup implemented move semantics without rvalue-ref and I have used the swap trick for the same purpose, and perfect forwarding can theoretically be implemented through a lot of pain (exponential explosion on the number of arguments). But rvalue-semantics is an enabling feature as the cost (and/or dangers) of implementing it manually make it impossible in practice. I don't think unique_ptr can be implemented at all in C++03. But think of this as with lambdas: they don't let you do anything that could not be done before, it just improves usability. –  David Rodríguez - dribeas Jun 23 '12 at 13:41
1  
+1, more info: Consider implementing the generic vector<T>::erase(iterator) member: It has to "move" elements in the array backwards by 1. If you implement "move" with "swap", then you've greatly penalized vector<int>::erase(iterator). If you implement "move" with copy assignment, you've greatly penalized vector<vector<int>>::erase(iterator). To optimize both of these cases you need "move" to mean "swap-like" in one case and "copy-like" in the other. Continued... –  Howard Hinnant Jun 23 '12 at 14:53
1  
... Continue down this path for a couple of years (while also trying to solve the auto_ptr problem and perfect forwarding) and you'll eventually reinvent something very similar to rvalue refs. :-) –  Howard Hinnant Jun 23 '12 at 14:53

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