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I've put together a bleeding edge setup with G++ 4.7 (though for the moment I'm still using the boost 1.48 that came with sudo apt-get boost-all-dev on Debian Wheezy).

My code is set up where the logical data structure to use would be multidimensional arrays of unique_ptr. But multi_array doesn't seem to be able to construct even an empty single-element array if there's a unique_ptr in it. Thus this works:

boost::multi_array<int, 1> arrWorks (boost::extents[1]);

But this does not:

boost::multi_array< unique_ptr<int>, 1> arrFails (boost::extents[1]);

I imagine the relevant complaint from the compiler is:

/usr/include/c++/4.7/bits/stl_uninitialized.h:225: required from ‘void std::uninitialized_fill_n(_ForwardIterator, _Size, const _Tp&) [with _ForwardIterator = std::unique_ptr*; _Size = unsigned int; _Tp = std::unique_ptr]’

I'm having some problems with optional< unique_ptr<...> > as well, even though I applied the patch offered here:


( Note: Found via Is it possible to move a boost::optional? )

So for instance:

boost::optional< unique_ptr<int> > optWorks (new int);

// Fails
boost::optional< unique_ptr<int> > optFails (std::move(optWorks));

I feel like what I'm doing is legitimate. In fact I've already found a few bugs in terms of transfer-of-ownership semantics by incorporating unique_ptr into this project. So I'd hate to say "oh, this is too complicated, just use raw pointers".

Is this something on boost's agenda to support? Is there a timeline for it? Are there any simple workarounds I can use in the meantime?

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Why do you need an optional unique_ptr? Just put NULL in there. That's how you do optional with pointers; you use NULL. –  Nicol Bolas Jun 17 '12 at 20:41
@NicolBolas In terms of specifying interface contracts...I prefer to use optional on pointers that are truly optional because it can be type-checked at compile time as being different from routines than are expecting a pointer value. Using null doesn't offer that, and a null pointer might even have a different meaning semantically. That aside, it could be an optional< vector< unique_ptr<int> > and have the same issue when using std::move to construct an optional (and for similar reasons, I don't think a vector of length zero is a good substitute for an optional vector...) –  HostileFork Jun 17 '12 at 21:10
Here's an interesting conversation thread about the use of optional on pointer types. They don't mention the technique I use to document routines that return raw pointers that are maybe null, which is to end the method name with "MaybeNull". (getWidgetMaybeNull cues the original coder and later readers about the necessary handling that a mere comment on getWidget would not). Anyway, it's actually the multi_array that's the bigger show stopper right now...but I imagine the optional isssue is the easier thing to fix. :-/ –  HostileFork Jun 17 '12 at 21:40
I think this will be solved when MultiArray and Optinal support moves. I don't think it is difficult, although I think one needs to break some (always weird) behavior of MultiArray. –  alfC Jan 9 at 21:54

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