Boost C++ Libraries

...one of the most highly regarded and expertly designed C++ library projects in the world. Herb Sutter and Andrei Alexandrescu, C++ Coding Standards

This is the documentation for an old version of Boost. Click here to view this page for the latest version.

boost.png (6897 bytes)make_shared and allocate_shared for arrays

Introduction
Synopsis
Free Functions
Example
History

Introduction

Originally the Boost function templates make_shared and allocate_shared were for efficient allocation of single objects only. There was a need to have efficient, single, allocation of arrays. One criticism of shared_array was always the lack of a make_shared utility which ensures only a single allocation for an array.

The header files <boost/smart_ptr/make_shared_array.hpp> and <boost/smart_ptr/allocate_shared_array.hpp> provide new function templates, make_shared and allocate_shared, to address this need. make_shared uses the global operator new to allocate memory, whereas allocate_shared uses an user-supplied allocator, allowing finer control.

Synopsis

namespace boost {
    template<typename U> // U = T[]
    shared_ptr<U> make_shared(size_t size);

    template<typename U, typename A> // U = T[]
    shared_ptr<U> allocate_shared(const A& allocator, size_t size);

#if !defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES) && !defined(BOOST_NO_CXX11_RVALUE_REFERENCES)   
    template<typename U, typename... Args> // U = T[]
    shared_ptr<U> make_shared(size_t size, Args&&... args);

    template<typename U, typename... Args> // U = T[N]
    shared_ptr<U> make_shared(Args&&... args);

    template<typename U, typename A, typename... Args> // U = T[]
    shared_ptr<U> allocate_shared(const A& allocator, size_t size, Args&&... args);

    template<typename U, typename A, typename... Args> // U = T[N]
    shared_ptr<U> allocate_shared(const A& allocator, Args&&... args);
#endif

#if !defined(BOOST_NO_CXX11_UNIFIED_INITIALIZATION_SYNTAX)    
    template<typename U, typename... Args> // U = T[N]
    shared_ptr<U> make_shared(const T (&list)[N]);

    template<typename U, typename... Args> // U = T[][N]
    shared_ptr<U> make_shared(size_t size, const T (&list)[N]);

    template<typename U, typename... Args> // U = T[M][N]
    shared_ptr<U> make_shared(const T (&list)[N]);

    template<typename U, typename A, typename... Args> // U = T[N]
    shared_ptr<T[> allocate_shared(const A& allocator, const T (&list)[N]);

    template<typename U, typename A, typename... Args> // U = T[][N]
    shared_ptr<U> allocate_shared(const A& allocator, size_t size, const T (&list)[N]);

    template<typename U, typename A, typename... Args> // U = T[M][N]
    shared_ptr<U> allocate_shared(const A& allocator, const T (&list)[N]);

#if !defined(BOOST_NO_CXX11_HDR_INITIALIZER_LIST)
    template<typename U, typename... Args> // U = T[]
    shared_ptr<U> make_shared(initializer_list<T> list);

    template<typename U, typename A, typename... Args> // U = T[]
    shared_ptr<U> allocate_shared(const A& allocator, initializer_list<T> list);
#endif

#if !defined(BOOST_NO_CXX11_RVALUE_REFERENCES)    
    template<typename U> // U = T[]
    shared_ptr<U> make_shared(size_t size, T&& value);

    template<typename U> // U = T[N]
    shared_ptr<U> make_shared(T&& value);

    template<typename U, typename A> // U = T[]
    shared_ptr<U> allocate_shared(const A& allocator, size_t size, T&& value);

    template<typename U, typename A> // U = T[N]
    shared_ptr<U> allocate_shared(const A& allocator, T&& value);
#endif
#endif

    template<typename U> // U = T[]
    shared_ptr<U> make_shared_noinit(size_t size);

    template<typename U> // U = T[N]
    shared_ptr<U> make_shared_noinit();

    template<typename U, typename A> // U = T[]
    shared_ptr<U> allocate_shared_noinit(const A& allocator, size_t size);

    template<typename U, typename A> // U = T[N]
    shared_ptr<U> allocate_shared_noinit(const A& allocator);
}

Free Functions

template<typename U, typename... Args> // U = T[]
shared_ptr<U> make_shared(size_t size, Args&&... args);

template<typename U, typename A, typename... Args> // U = T[]
shared_ptr<U> allocate_shared(const A& allocator, size_t size, Args&&... args);

Requires: The expression new(pointer) T(forward<Args>(args)...), where pointer is a void* pointing to storage suitable to hold an object of type T, shall be well-formed. A shall be an Allocator, as described in section 20.1.5 (Allocator requirements) of the C++ Standard. The copy constructor and destructor of A shall not throw.

Effects: Allocates memory suitable for an array of type T and size size and constructs an array of objects in it via the placement new expression new(pointer) T() or new(pointer) T(args...). allocate_shared uses a copy of allocator to allocate memory. If an exception is thrown, has no effect.

Returns: A shared_ptr instance that stores and owns the address of the newly constructed array of type T and size size.

Postconditions: get() != 0 && use_count() == 1.

Throws: bad_alloc, or an exception thrown from A::allocate or the constructor of T.

Notes: This implementation allocates the memory required for the returned shared_ptr and an array of type T of size size in a single allocation. This provides efficiency to equivalent to an intrusive smart array pointer.

The prototypes shown above are used if your compiler supports r-value references and variadic templates. They perfectly forward the args parameters to the constructors of T for each array element.

Otherwise, you can use the overloads which take only the array size (and the allocator in case of allocate_shared) and do not take any constructor arguments. These overloads invoke the default constructor of T for each array element.

template<typename U, typename... Args> // U = T[N]
shared_ptr<U> make_shared(Args&&... args);

template<typename U, typename A, typename... Args> // U = T[N]
shared_ptr<U> allocate_shared(const A& allocator, Args&&... args);

Description: These overloads of the utilities above are for a fixed size array.

template<typename U, typename... Args> // U = T[]
shared_ptr<U> make_shared(initializer_list<T> list);

template<typename U, typename A, typename... Args> // U = T[]
shared_ptr<U> allocate_shared(const A& allocator, initializer_list<T> list);

Description: These overloads initialize the array elements from the initializer list.

template<typename U, typename... Args> // U = T[N]
shared_ptr<U> make_shared(const T (&list)[N]);

template<typename U, typename A, typename... Args> // U = T[N]
shared_ptr<U> allocate_shared(const A& allocator, const T (&list)[N]);

Description: These overloads of the utilities above are for a fixed size array.

template<typename U, typename... Args> // U = T[][N]
shared_ptr<U> make_shared(size_t size, const T (&list)[N]);

template<typename U, typename A, typename... Args> // U = T[][N]
shared_ptr<U> allocate_shared(const A& allocator, size_t size, const T (&list)[N]);

Description: These overloads initialize inner array elements from the initializer list.

template<typename U, typename... Args> // U = T[M][N]
shared_ptr<U> make_shared(const T (&list)[N]);

template<typename U, typename A, typename... Args> // U = T[M][N]
shared_ptr<U> allocate_shared(const A& allocator, const T (&list)[N]);

Description: These overloads of the utilities above are for a fixed size array.

template<typename U> // U = T[]
shared_ptr<U> make_shared(size_t size, T&& value);

template<typename U, typename A> // U = T[]
shared_ptr<U> allocate_shared(const A& allocator, size_t size, T&& value);

Description: These overloads initialize array elements with the given value.

template<typename U> // U = T[N]
shared_ptr<U> make_shared(T&& value);

template<typename U, typename A> // U = T[N]
shared_ptr<U> allocate_shared(const A& allocator, T&& value);

Description: These overloads of the utilities above are for a fixed size array.

template<typename U> // U = T[]
shared_ptr<U> make_shared_noinit(size_t size);

template<typename U, typename A> // U = T[]
shared_ptr<U> allocate_shared_noinit(const A& allocator, size_t size);

Description: These overloads do not perform any value initialization of elements.

template<typename U> // U = T[N]
shared_ptr<U> make_shared_noinit();

template<typename U, typename A> // U = T[N]
shared_ptr<U> allocate_shared_noinit(const A& allocator);

Description: These overloads of the utilities above are for a fixed size array.

Example

An example of each overload of make_shared for arrays:

boost::shared_ptr<int[]> a1 = boost::make_shared<int[]>(size);
boost::shared_ptr<point[]> a2 = boost::make_shared<point[]>(size, x, y);
boost::shared_ptr<point[5]> a3 = boost::make_shared<point[5]>(x, y);
boost::shared_ptr<int[]> a4 = boost::make_shared<int[]>({1, 2, 3});
boost::shared_ptr<int[3]> a5 = boost::make_shared<int[3]>({1, 2, 3});
boost::shared_ptr<int[][3]> a6 = boost::make_shared<int[][3]>(size, {1, 2, 3});
boost::shared_ptr<int[5][3]> a7 = boost::make_shared<int[5][3]>({1, 2, 3});
boost::shared_ptr<point[]> a8 = boost::make_shared<point[]>(size, {x, y});
boost::shared_ptr<point[5]> a9 = boost::make_shared<point[5]>({x, y});
boost::shared_ptr<int[]> a10 = boost::make_shared_noinit<int[]>(size);
boost::shared_ptr<int[5]> a11 = boost::make_shared_noinit<int[5]>();

History

November 2012. Glen Fernandes contributed implementations of make_shared and allocate_shared for arrays.


$Date: 2012-10-30 10:12:25 -0800 (Tue, 30 Oct 2012) $

Copyright 2012 Glen Fernandes. 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.