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Struct template constructible_with_allocator_prefix

boost::container::constructible_with_allocator_prefix

Synopsis

// In header: <boost/container/uses_allocator.hpp>

template<typename T> 
struct constructible_with_allocator_prefix {

  // public data members
  static const bool value;
};

Description

Remark: if a specialization constructible_with_allocator_prefix<X>::value is true, indicates that T may be constructed with allocator_arg and T::allocator_type as its first two constructor arguments. Ideally, all constructors of T (including the copy and move constructors) should have a variant that accepts these two initial arguments.

Requires: specialization constructible_with_allocator_prefix<X>::value is true, T must have a nested type, allocator_type and at least one constructor for which allocator_arg_t is the first parameter and allocator_type is the second parameter. If not all constructors of T can be called with these initial arguments, and if T is used in a context where a container must call such a constructor, then the program is ill-formed.

template <class T, class Allocator = allocator<T> > class Y { public: typedef Allocator allocator_type;

// Default constructor with and allocator-extended default constructor Y(); Y(allocator_arg_t, const allocator_type& a);

// Copy constructor and allocator-extended copy constructor Y(const Y& yy); Y(allocator_arg_t, const allocator_type& a, const Y& yy);

// Variadic constructor and allocator-extended variadic constructor template<class ...Args> Y(Args&& args...); template<class ...Args> Y(allocator_arg_t, const allocator_type& a, BOOST_FWD_REF(Args)... args); };

// Specialize trait for class template Y template <class T, class Allocator = allocator<T> > struct constructible_with_allocator_prefix<Y<T,Allocator> > { static const bool value = true; };

Note: This trait is a workaround inspired by "N2554: The Scoped Allocator Model (Rev 2)" (Pablo Halpern, 2008-02-29) to backport the scoped allocator model to C++03, as in C++03 there is no mechanism to detect if a type can be constructed from arbitrary arguments. Applications aiming portability with several compilers should always define this trait.

In conforming C++11 compilers or compilers supporting SFINAE expressions (when BOOST_NO_SFINAE_EXPR is NOT defined), this trait is ignored and C++11 rules will be used to detect if a type should be constructed with suffix or prefix allocator arguments.


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