The scoped_array class template stores a pointer to a dynamically allocated array. (Dynamically allocated arrays are allocated with the C++ new[] expression.) The array pointed to is guaranteed to be deleted, either on destruction of the scoped_array, or via an explicit reset.
The scoped_array template is a simple solution for simple needs. It supplies a basic "resource acquisition is initialization" facility, without shared-ownership or transfer-of-ownership semantics. Both its name and enforcement of semantics (by being noncopyable) signal its intent to retain ownership solely within the current scope. Because it is noncopyable, it is safer than shared_array for pointers which should not be copied.
Because scoped_array is so simple, in its usual implementation every operation is as fast as a built-in array pointer and it has no more space overhead that a built-in array pointer.
It cannot be used in C++ standard library containers. See shared_array if scoped_array does not meet your needs.
It cannot correctly hold a pointer to a single object. See scoped_ptr for that usage.
A std::vector is an alternative to a scoped_array that is a bit heavier duty but far more flexible. A boost::array is an alternative that does not use dynamic allocation.
The class template is parameterized on T, the type of the object pointed to. T must meet the smart pointer common requirements.
namespace boost { template<class T> class scoped_array : noncopyable { public: typedef T element_type; explicit scoped_array(T * p = 0); // never throws ~scoped_array(); // never throws void reset(T * p = 0); // never throws T & operator[](std::ptrdiff_t i) const; // never throws T * get() const; // never throws operator unspecified-bool-type() const; // never throws void swap(scoped_array & b); // never throws }; template<class T> void swap(scoped_array<T> & a, scoped_array<T> & b); // never throws }
typedef T element_type;
Provides the type of the stored pointer.
explicit scoped_array(T * p = 0); // never throws
Constructs a scoped_array, storing a copy of p, which must have been allocated via a C++ new[] expression or be 0. T is not required be a complete type. See the smart pointer common requirements.
~scoped_array(); // never throws
Deletes the array pointed to by the stored pointer. Note that delete[] on a pointer with a value of 0 is harmless. The guarantee that this does not throw exceptions depends on the requirement that the deleted array's objects' destructors do not throw exceptions. See the smart pointer common requirements.
void reset(T * p = 0); // never throws
Deletes the array pointed to by the stored pointer and then stores a copy of p, which must have been allocated via a C++ new[] expression or be 0. The guarantee that this does not throw exceptions depends on the requirement that the deleted array's objects' destructors do not throw exceptions. See the smart pointer common requirements.
T & operator[](std::ptrdiff_t i) const; // never throws
Returns a reference to element i of the array pointed to by the stored pointer. Behavior is undefined and almost certainly undesirable if the stored pointer is 0, or if i is less than 0 or is greater than or equal to the number of elements in the array.
T * get() const; // never throws
Returns the stored pointer. T need not be a complete type. See the smart pointer common requirements.
operator unspecified-bool-type () const; // never throws
Returns an unspecified value that, when used in boolean contexts, is equivalent
to get() != 0
.
void swap(scoped_array & b); // never throws
Exchanges the contents of the two smart pointers. T need not be a complete type. See the smart pointer common requirements.
template<class T> void swap(scoped_array<T> & a, scoped_array<T> & b); // never throws
Equivalent to a.swap(b). Matches the interface of std::swap. Provided as an aid to generic programming.
Revised 09 January 2003
Copyright 1999 Greg Colvin and Beman Dawes. Copyright 2002 Darin Adler. Copyright 2002-2005 Peter Dimov. Distributed under the Boost Software License, Version 1.0. See accompanying file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt.