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std::unique_ptr<T,D> is specified to store not a T* as you might expect, but an object of type std::unique_ptr<T,D>::pointer. This is defined to be basically D::pointer if such a type exists, and T* otherwise. Thus, you can customize the underlying raw pointer type by customizing your deleter appropriately.

When is it a good idea to do this? What is it used for? The only discussion I've been able to find is this note, which alludes to "better support[ing] containers and smart pointers in shared memory contexts", but that doesn't exactly shed a lot of light.

6

It is used when the deleter does not operate on T* values, obviously. That is why the deleter can specify a different data type than T*. A common use case is Win32 handles:

Using std::unique_ptr for Windows HANDLEs

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  • Nice. I think the upshot is this: A unique_ptr<T, D> behaves like a T, but its internal state is a pointer. In most cases, the pointer is T *, but it can be whatever you want, as long as its dereferencable to produce a T and nullable.
    – Kerrek SB
    Feb 8 '14 at 0:51
  • That said, with a small leap of faith you could use std::unique_ptr<void, BOOL WINAPI(*)(void *)> p(..., FindVolumeClose), if you're willing to believe that HANDLE = void *. That'd require significantly less writing.
    – Kerrek SB
    Feb 8 '14 at 0:55
  • @KerrekSB: You should use decltype(), as an example in the other discussion showed: std::unique_ptr<void, decltype(&FindVolumeClose)> p(..., FindVolumeClose) Feb 8 '14 at 1:11
  • For some reason I'm not a huge fan of decltype in this context. I'd much rather wrap the whole thing into a maker function: std::unique_ptr<void, BOOL WINAPI(*)(void*)> make_unique_volume(...). With a type alias unique_volume_handle that would be quite readable, and the user would never need to know the deletion function. Just my personal opinion. (OK, that's actually getting very similar to the custom deleter again, but a function call is good for exception safety reasons.)
    – Kerrek SB
    Feb 8 '14 at 1:19
  • @KerrekSB: Why do you want to be explicit about the function signature? Let the compiler work out the signature for itself, thus avoiding any possibility of user error in typing the signature, especially if the signature error changes. Feb 8 '14 at 1:45
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The original motivation was to enable the use of boost::offset_ptr as the representation under unique_ptr, which would enable the use of unique_ptr in process-shared memory. Structures in process shared-memory should not contain pointers or references, only offsets.

I'm pleased to learn that the same feature can be useful in the Windows API.

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