I have a series of factories that return unique_ptr<Base>. Under the hood, though, they are providing pointers to various derived types, i.e unique_ptr<Derived>, unique_ptr<DerivedA>, unique_ptr<DerivedB>etc.

Given DerivedA : Derived and Derived : Base we'd have:

unique_ptr<Base> DerivedAFactory() {
    return unique_ptr<Base>(new DerivedA);

What I need to do is to "cast" the pointer from the returned unique_ptr<Base> to some derived level (not necessarily the original internal one). To illustrate in pseudo code:

unique_ptr<Derived> ptr = static_cast<unique_ptr<Derived>>(DerivedAFactory());

I'm thinking of doing this by releasing the object from the unique_ptr, then using a function that casts the raw pointer and reassigns that to another unique_ptr of the desired flavor (the release would be explicitly done by the caller prior to the call):

unique_ptr<Derived> CastToDerived(Base* obj) {
    return unique_ptr<Derived>(static_cast<Derived*>(obj));

Is this valid, or is / will there be something funky going on?

PS. There is an added complication in that some of the factories reside in DLLs that are dynamically loaded at run-time, which means I need to make sure the produced objects are destroyed in the same context (heap space) as they were created. The transfer of ownership (which typically happens in another context) must then supply a deleter from the original context. But aside from having to supply / cast a deleter along with the pointer, the casting problem should be the same.

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    I would let CastToDerived take a unique_ptr<T>&&. The reason why there are no casts equivalent to static_pointer_cast for shared_ptr is that casts typically do not modify their argument. But for unique_ptr, you'd have to move the pointer from the argument to the object returned by the cast. – dyp Jan 16 '14 at 23:09
  • @dyp I assume that swap could be a good option too in this case – user2485710 Jan 16 '14 at 23:11
  • @user2485710 Could you elaborate? – dyp Jan 16 '14 at 23:12
  • @d7samurai (continuing..) Your CastToDerived could be called via CastToDerived(my_ptr.get()) (which is an error) and CastToDerived(my_ptr.release()) (which is correct). To prevent the former, I suggest using something like CastToDerived( std::move(my_ptr) ) which is explicit and maybe a bit less error prone. Alternatively, make it explicit in the name, like move_static_cast<Derived>(my_ptr). – dyp Jan 16 '14 at 23:14
  • So unique_ptr<T>&& (or rather unique_ptr<Derived>&&, as templated types cannot be exposed across DLL boundaries) would implicitly perform the move / transfer? Could I then just do such a move operation directly without the need for a function? And would such a move retain the deleter from the original unique_ptr? – d7samurai Jan 16 '14 at 23:31

I'd create a couple of function templates, static_unique_ptr_cast and dynamic_unique_ptr_cast. Use the former in cases where you're absolutely certain the pointer is actually a Derived *, otherwise use the latter.

template<typename Derived, typename Base, typename Del>
std::unique_ptr<Derived, Del> 
static_unique_ptr_cast( std::unique_ptr<Base, Del>&& p )
    auto d = static_cast<Derived *>(p.release());
    return std::unique_ptr<Derived, Del>(d, std::move(p.get_deleter()));

template<typename Derived, typename Base, typename Del>
std::unique_ptr<Derived, Del> 
dynamic_unique_ptr_cast( std::unique_ptr<Base, Del>&& p )
    if(Derived *result = dynamic_cast<Derived *>(p.get())) {
        return std::unique_ptr<Derived, Del>(result, std::move(p.get_deleter()));
    return std::unique_ptr<Derived, Del>(nullptr, p.get_deleter());

The functions are taking an rvalue reference to ensure that you're not pulling the rug out from underneath the caller's feet by stealing the unique_ptr passed to you.

| improve this answer | |
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    You need to extract the deleter from the source object and inject it into the destination object. The type is most probably not sufficient. – David Rodríguez - dribeas Jan 16 '14 at 23:26
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    @Praetorian [unique.ptr.single.asgn] for example says: "Effects: Transfers ownership from u to *this as if by calling reset(u.release()) followed by an assignment from std::forward<D>(u.get_deleter())." So I think it's well-defined, although the deleter doesn't occur in the postconditions of release – dyp Jan 16 '14 at 23:39
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    Btw. the deleter can be move-only, this makes the final return statement a bit difficult (you can't copy, you shouldn't move either, and maybe you can't default-construct). Maybe if it's move-only, you could require DefaultConstructible; another way is to throw an exception instead of returning. – dyp Jan 16 '14 at 23:57
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    @Praetorian Hi, I've been trying to use this and am able to get it to work when I use a custom deleter while initializing the unique_ptr(pastebin.com/EABRT9G3). But, am not sure of how to do it with the default deleter (pastebin.com/BNDBivff) - In this case, the compiler complains about there not being a viable conversion between the derived/base class deleters. Is it possible to use this code with default delteters? If so, could you look at my second paste and let me know how I need to call the cast function with the right template arguments? Thanks :) – georgemp Jul 31 '14 at 16:21
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    @Malvineous unique_ptr constructors are noexcept. But what you suggest, first constructing the second unique_ptr, and then release()ing ownership of the original, would be the more foolproof option if copying/moving the deleter can throw. – Praetorian Aug 2 '15 at 1:09

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