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The standard provides a template specialization of std::unique_ptr which correctly calls the delete[] from its destructor:

void func()
{
   std::unique_ptr< int[] > arr(new int[10]);

   .......
}

With std::shared_ptr this specialisation is not available, so it is necessary to to provide a deleter which correctly calls delete[]:

void func()
{
    // Usage
    shared_ptr array (new double [256], [](double* arr) { delete [] arr; } ); 

    ..............
}

Is this simply an oversight? (in the same way that there is an std::copy_if) or is there a reason?

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2  
Is p new int[10] a typo? –  Seth Carnegie Jan 20 '12 at 20:50
1  
N.B. there's a new proposal to add this for C++17, based on work in Boost, see open-std.org/jtc1/sc22/wg21/docs/papers/2013/n3640.html –  Jonathan Wakely Nov 24 '13 at 17:53

1 Answer 1

up vote 31 down vote accepted

The LWG (Library Working Group of the C++ committee) briefly considered the possibility but the idea wasn't without controversy. Though the controversy was mainly about a feature added to the shared_ptr<T[]> proposal that could have been jettisoned (arithmetic on shared_ptr<T[]>).

But ultimately the real real reason is that though it was discussed, there was never an actual written proposal in front of the LWG to do this. It never bubbled up anyone's priority list (including my own) sufficiently to put the time into writing a proposal.

Informal conversations have recently begun anew on this topic among a few LWG members, and I have personally prototyped it. But there is still no written proposal for it. I think it would be a decent additional tool in the toolbox. Whether it will ever actually happen or not is anyone's guess.

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First "why isn't there..." question with a real answer that I've seen, also, a dynamically allocated array? With vector and std::array, really don't see the need(?) –  Nim Jan 20 '12 at 20:58
6  
@Nim: std::unique_ptr<T[]> (which exists) is good for when overhead is tremendously important to you. Unlike vector<T>, unique_ptr<T[]> does not include overhead for capacity, or even size. The client will probably need to add external overhead for size, but if the array is never resized, not for capacity. Now this doesn't make unique_ptr<T[]> a better vector<T>. Indeed, I think the use cases of the former will be rare compared to the latter. But the use case rate isn't zero for the former. –  Howard Hinnant Jan 21 '12 at 1:47
    
Analogously, shared_ptr<T[]> can sometimes replace shared_ptr<vector<T>> with lower overhead. The mere existence and continued support of boost::shared_array<T> is an argument that some programmers find such a tool occasionally useful. –  Howard Hinnant Jan 21 '12 at 1:47
2  
@sellibitze: The benefit of the shared_ptr<T[]> version is that it only requires one pointer dereference to get to any of the array elements, while shared_ptr<vector<T>> requires two (one for the shared_ptr, one for the array stored in the vector). –  Jeremiah Willcock Mar 10 '12 at 20:10
3  
It would be nice to have std::shared_ptr<T[]> if for no other reason than symmetry with std::unique_ptr<T[]>. –  uckelman Jul 5 '12 at 19:59

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