20

I often find myself writing tedious move constructors for classes with many member variables. They look something like the following:

A(A && rhs) :
    a(std::move(rhs.a)),
    b(std::move(rhs.b)),
    c(std::move(rhs.c)),
    d(std::move(rhs.d)) {
    some_extra_work();
}

That is, they perform all of the actions associated with the default move constructor, then peform some mundane extra task. Ideally I would delegate to the default move constructor then perform the extra work, however the act of defining my own move constructor prevents the default implementation from being defined, meaning there's nothing to delegate to.

Is there a nice way to get around this anti-pattern?

5
  • 6
    Difficult to say on such abstract level, but perhaps you could separate A into two classes and put one into another? One will have all default constructors and other one will do some_extra_work. Check Rule of zero. – zch May 16 '13 at 11:28
  • Not sure if this is applicable, but would something like A(A&& rhs, int) : A(rhs){} not work? – Damon May 16 '13 at 11:54
  • 3
    An intermediate base class with a default move constructor may help. – n. 1.8e9-where's-my-share m. May 16 '13 at 12:00
  • 1
    @Damon that wouldn't work as it wouldn't be selected by the compiler as a valid move constructor. @zch I think you're probably right, this anti-pattern may be more of an indication that I don't have enough SBRM in A's members (the classic example of some_extra_work() for me is rhs.d = 0;). – jleahy May 16 '13 at 12:01
  • IMHO doing extra work essentially means that you are declaring a copy constructor. I'd do what @zch says. – zahir May 16 '13 at 13:38
4

Update: ignore the first part of this answer and skip to the end which has a better solution.

Wrap the extra work in a new type and inherit from it:

class A;

struct EW
{
    EW(EW&&);
};

class A : private EW
{
    friend class EW;
public:
    A(A&&) = default;
};

EW::EW(EW&&) { A* self = static_cast<A*>(this); self->some_extra_work(); }

You could also do it with a data member instead of a base class, but you'd need some hackery using offsetof (which is undefined for non-standard-layout types) or a hand-rolled equivalent using sneaky pointer arithmetic. Using inheritance allows you to use static_cast for the conversion.

This won't work if some_extra_work() has to be done after the members are initialized because base classes are initialized first.

Alternatively if the extra work is actually operating on the rvalue object that you're moving from, then you should wrap the members in types that do that work automatically when moved from, e.g. my tidy_ptr type, which I use to implement the Rule of Zero

class A
{
    tidy_ptr<D> d;
public:
    A() = default;
    A(const A&) = default;
    A(A&& r) = default;  // Postcondition: r.d == nullptr
};
5
  • I wonder, isn't the base-class move ctor invoked before the member move ctors? – Xeo May 16 '13 at 13:14
  • It is yes, so won't work if the extra work relies on the other members. When I wrote that I hadn't read the OP's comment saying "the classic example of some_extra_work() for me is rhs.d = 0;" – Jonathan Wakely May 16 '13 at 13:17
  • I actually prefer the second part of the answer. Looking back now I think all the cases I've run into this have been where I haven't used SBRM at a low enough level, for example I should be wrapping file descriptors in SBRM classes that call close. The rule of zero is really what C++11 should be about. – jleahy May 16 '13 at 13:52
  • Yeah I prefer it too, I should have thought of that sooner, as it's something I actually use and have written a generic tool to support! – Jonathan Wakely May 16 '13 at 14:05
  • @HostileFork it's now at gitlab.com/redistd/redistd/blob/master/include/redi/tidy_ptr.h (I'll update the answer) – Jonathan Wakely Dec 14 '18 at 16:55

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