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Just a small query regarding shared_ptr.

Is it a good practice to use shared_ptr pointing to an array? e.g shared_ptr<int> sp(new int[10]);

If not then can anyone please tell me why? One reason i am already aware of is one can not increment/decrement the shared_ptr. Hence it can not be used like a normal pointer to an array.

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1  
FWIT, you may also consider just using std::vector. You'd have to be careful to pass the array around using references so that you don't make copies of it. Syntax for accessing data is cleaner than shared_ptr, and resizing it is very very easy. And you get all the STL goodness should you ever want it. –  SchighSchagh Nov 30 '12 at 11:57

3 Answers 3

up vote 63 down vote accepted

By default, shared_ptr will call delete on the managed object when no more references remain to it. However, when you allocate using new[] you need to call delete[], and not delete, to free the resource.

In order to correctly use shared_ptr with an array, you must supply a custom deleter.

template< typename T >
struct array_deleter
{
  void operator ()( T const * p)
  { 
    delete[] p; 
  }
};

Create the shared_ptr as follows

std::shared_ptr<int> sp( new int[10], array_deleter<int>() );

Now shared_ptr will correctly call delete[] when destroying the managed object.


With C++11, you can also use a lambda instead of the functor.

std::shared_ptr<int> sp( new int[10], []( int *p ) { delete[] p; } );

Also, unless you actually need to share the managed object, a unique_ptr is better suited for this task, since it has a partial specialization for array types.

std::unique_ptr<int[]> up( new int[10] ); // this will correctly call delete[]


Changes introduced by the C++ Extensions for Library Fundamentals

shared_ptr is being augmented by the Library Fundamentals Technical Specification (TS) to allow it to work out of the box for the cases when it owns an array of objects; there'll be no need to explicitly supply a deleter. The current draft of the shared_ptr changes slated for this TS can be found in N4082. These changes will be accessible via the std::experimental namespace, and included in the <experimental/memory> header. A few of the relevant changes to support shared_ptr for arrays are:

— The definition of the member type element_type changes

typedef T element_type;

 typedef typename remove_extent<T>::type element_type;

— Member operator[] is being added

 element_type& operator[](ptrdiff_t i) const noexcept;

— Unlike the unique_ptr partial specialization for arrays, both shared_ptr<T[]> and shared_ptr<T[N]> will be valid and both will result in delete[] being called on the managed array of objects.

 template<class Y> explicit shared_ptr(Y* p);

Requires: Y shall be a complete type. The expression delete[] p, when T is an array type, or delete p, when T is not an array type, shall be well-formed, shall have well defined behavior, and shall not throw exceptions. When T is U[N], Y(*)[N] shall be convertible to T*; when T is U[], Y(*)[] shall be convertible to T*; otherwise, Y* shall be convertible to T*.

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3  
+1, remark: There is also Boost's shared-array. –  jogojapan Oct 25 '12 at 5:29
    
Thanks for your answer, Praetorian. Can you please tell me how can i assign different values to the int array which shared_ptr is pointing to? –  tshah06 Oct 25 '12 at 5:34
1  
@tshah06 shared_ptr::get returns a pointer to the managed object. So you can use it as sp.get()[0] = 1; ... sp.get()[9] = 10; –  Praetorian Oct 25 '12 at 5:52
33  
ALT: std::shared_ptr<int> sp( new int[10], std::default_delete<int[]>() ); see also en.cppreference.com/w/cpp/memory/default_delete –  yohjp Oct 25 '12 at 6:24
1  
@Jeremy If the size is known at compile time there's no need to write a class for that, std::shared_ptr<std::array<int,N>> should be enough. –  Praetorian Oct 3 '13 at 15:26

A possibly easier alternative that you might be able to use is shared_ptr<vector<int>>.

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an array is not a vector semantically –  mustafabar Dec 29 '14 at 19:40
1  
Yes it is. Or a vector is a superset of an array - it has the same in-memory representation (plus metadata) but is resizable. There aren't really any situations where you want an array but can't use a vector. –  Timmmm Dec 30 '14 at 21:01

you could try to use poco library which provide AutoPtr and SharePtr two type "smart pointer " for you , very convenient and friendly use

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