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Lets say we have the following code:

std::vector<int> f()
  std::vector<int> y;
  return y;

std::vector<int> x = ...
x = f();

It seems the compiler has two approaches here:

(a) NRVO: Destruct x, then construct f() in place of x.
(b) Move: Construct f() in temp space, move f() into x, destruct f().

Is the compiler free to use either approach, according to the standard?

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(a) isn't allowed. Aside from the fact that an assignment operator must be called, it would have the wrong behavior when some part of the ... in f throws an exception. x should not be changed in that case, so if it's already been destructed that's a problem. –  Steve Jessop Jun 4 '11 at 0:41
Thanks Steve, I didn't think about f() throwing an exception. If this was an answer I'd accept it. –  Clinton Jun 4 '11 at 5:07
That's a problem with vague questions. I thought that he didn't mean what he literally wrote. Apparently some other people thought so too. –  Johannes Schaub - litb Jun 4 '11 at 8:57
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2 Answers

up vote 16 down vote accepted

The compiler may NRVO into a temp space, or move construct into a temp space. From there it will move assign x.


Any time you're tempted to optimize with rvalue references, and you're not positive of the results, create yourself an example class that keeps track of its state:

  • constructed
  • default constructed
  • moved from
  • destructed

And run that class through your test. For example:

#include <iostream>
#include <cassert>

class A
    int state_;
    enum {destructed = -2, moved_from, default_constructed};

    A() : state_(default_constructed) {}
    A(const A& a) : state_(a.state_) {}
    A& operator=(const A& a) {state_ = a.state_; return *this;}
    A(A&& a) : state_(a.state_) {a.state_ = moved_from;}
    A& operator=(A&& a)
        {state_ = a.state_; a.state_ = moved_from; return *this;}
    ~A() {state_ = destructed;}

    explicit A(int s) : state_(s) {assert(state_ > default_constructed);}

    operator<<(std::ostream& os, const A& a)
        switch (a.state_)
        case A::destructed:
            os << "A is destructed\n";
        case A::moved_from:
            os << "A is moved from\n";
        case A::default_constructed:
            os << "A is default constructed\n";
            os << "A = " << a.state_ << '\n';
        return os;

    friend bool operator==(const A& x, const A& y)
        {return x.state_ == y.state_;}
    friend bool operator<(const A& x, const A& y)
        {return x.state_ < y.state_;}

A&& f()
    A y;
    return std::move(y);

int main()
    A a = f();
    std::cout << a;

If it helps, put print statements in the special members that you're interested in (e.g. copy constructor, move constructor, etc.).

Btw, if this segfaults on you, don't worry. It segfaults for me too. Thus this particular design (returning an rvalue reference to a local variable) is not a good design. On your system, instead of segfaulting, it may print out "A is destructed". This would be another sign that you don't want to do this.

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Too vague, and too lacking in standard terminology, for a +1. –  Lightness Races in Orbit Jun 4 '11 at 1:03
I purposefully used the OP's terminology in my answer. The standard strives to be precise, but is a lousy tutorial. I did not (and still do not) recognize that I was being vague. This is of course a common failing to which I am not immune. I'll gladly clarify if I knew which parts of my answer were ambiguous. My goal is to spread knowledge, not make it confusing. –  Howard Hinnant Jun 4 '11 at 3:31
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@Howard Hinnant and others

I've often wondered if there is an advantage to "requiring" RVO with something like this:

//std::vector<int>&& f() Bad!!
std::vector<int> f()
  std::vector<int> y;
  //return std::move(y); Bad!!!
  return y;

as a matter of practice for writing factories. Or does RVO and implicit move just happen so well in C++0x that it is a waste to go to this effort.

Edit: rvalue references are references. Returning one from a local automatic is bad. See Is returning by rvalue reference more efficient?. If I was returning a class member or something that would be different:

struct intvec
  std::vector<int> y;

  { return std::move(y); }

So if f() is called in a temporary context, y is moved. Otherwise a copy is returned.

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People correct me if I'm wrong here, but isn't returning a reference to a temporary result in undefined behavior here? –  Clinton Jun 4 '11 at 15:54
@Clinton : This code exhibits UB because it returns a dangling reference, yes. –  ildjarn Jun 4 '11 at 20:18
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