#include <memory>
using namespace std;

struct T {};

T* foo() { return new T; }
T const* bar() { return foo(); }

int main()
    unique_ptr< T const >       p1( bar() );        // OK
    unique_ptr< T const [] >    a1( bar() );        // OK

    unique_ptr< T const >       p2( foo() );        // OK
    unique_ptr< T const [] >    a2( foo() );        // ? this is line #15

Example errors with Visual C++ 10.0 and MinGW g++ 4.4.1:

> cl foo.cpp
foo.cpp(15) : error C2248: 'std::unique_ptr<_Ty>::unique_ptr' : cannot access private member declared in class 'std::unique_ptr<_Ty>'
            _Ty=const T []
        C:\Program Files (x86)\Microsoft Visual Studio 10.0\VC\INCLUDE\memory(2509) : see declaration of 'std::unique_ptr<_Ty>::unique_ptr'
            _Ty=const T []

> g++ foo.cpp -std=c++0x
c:\program files (x86)\codeblocks\mingw\bin\../lib/gcc/mingw32/4.4.1/include/c++/bits/unique_ptr.h: In function 'int main()':
c:\program files (x86)\codeblocks\mingw\bin\../lib/gcc/mingw32/4.4.1/include/c++/bits/unique_ptr.h:379: error: deleted function 'std::unique_ptr<_Tp [], _Tp_Deleter>::unique_ptr(_Up*, typename std::enable_if<std::is_convertible::value, void>::type*) [with _Up = T, _Tp = const T, _Tp_Deleter = std::default_delete<const T []>]'
foo.cpp:15: error: used here

> _

It seems to me that the array version should accept the same implicit const-adding as the non-array version.

The difference is that the array version should not accept pointer to a derived class, and that's the machinery that apparently kicks in above.

Is the code valid?

If the code is formally invalid, does the standard's wording reflect the intent (i.e., is a DR appropriate)?

If no to the first and yes to the second, is the intent defective (i.e., again, is a DR appropriate)?


A defect report may be appropriate. § says,

explicit unique_ptr(pointer p) noexcept;
unique_ptr(pointer p, see below d) noexcept;
unique_ptr(pointer p, see below d) noexcept;

These constructors behave the same as in the primary template except that they do not accept pointer types which are convertible to pointer. [Note: One implementation technique is to create private templated overloads of these members. — end note ]

The idea is clearly to prevent derived-to-base conversions that don't work with arrays. But it is unspecific and cv-qualification conversion is forbidden too. Perhaps it should be changed to forbid pointer conversions (§4.10), not all conversions of pointers.

  • 1
    "pointer types which are convertible to pointer" - and to really nitpick, isn't this language flat incorrect anyway? pointer is a pointer type which is convertible to pointer (for example when describing concepts, if some function returns a type "convertible to T", it doesn't mean that it must not be T itself). But I don't think the intention was to except pointer as well a pointers to derived types ;-) Dec 16 '11 at 10:38
  • i posted difect riport to c.s.c++, but it may take some time to appear... so, just for info, i also quoted what i think is the intent/rationale in § 2nd dash, "Pointers to types derived from T are rejected by the constructors, and by reset" :-) Dec 16 '11 at 11:39
  • 2
    This looks like a defect to me. Please follow up at: open-std.org/jtc1/sc22/wg21/docs/lwg-active.html#submit_issue . I've implemented a solution in libc++ (libcxx.llvm.org). It was harder to get right than I was guessing! Dec 16 '11 at 15:43
  • @HowardHinnant: OK, done. I CC-ed you but just to an e-mail address I googled up, may be too old. I had a crash so all old e-mail address list disappeared, and I can't see any e-mail address here on SO. Cheers, Dec 16 '11 at 15:58
  • This has been fixed in the working draft of the C++ standard. It won't be 'official' until C++17, but vendors usually don't wait for a new formal standard to implement DR fixes. For the curious, the defect report that @Alf submitted is LWG 2118. Nov 26 '14 at 22:58

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