170 lines
7.6 KiB
C++
170 lines
7.6 KiB
C++
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//////////////////////////////////////////////////////////////////////////////
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//
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// (C) Copyright Ion Gaztanaga 2011-2013. Distributed under the Boost
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// Software License, Version 1.0. (See accompanying file
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// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
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//
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// See http://www.boost.org/libs/container for documentation.
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//
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//////////////////////////////////////////////////////////////////////////////
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#ifndef BOOST_CONTAINER_USES_ALLOCATOR_HPP
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#define BOOST_CONTAINER_USES_ALLOCATOR_HPP
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#include <boost/container/uses_allocator_fwd.hpp>
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#include <boost/container/detail/type_traits.hpp>
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namespace boost {
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namespace container {
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//! <b>Remark</b>: if a specialization constructible_with_allocator_suffix<X>::value is true, indicates that T may be constructed
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//! with an allocator as its last constructor argument. Ideally, all constructors of T (including the
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//! copy and move constructors) should have a variant that accepts a final argument of
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//! allocator_type.
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//!
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//! <b>Requires</b>: if a specialization constructible_with_allocator_suffix<X>::value is true, T must have a nested type,
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//! allocator_type and at least one constructor for which allocator_type is the last
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//! parameter. If not all constructors of T can be called with a final allocator_type argument,
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//! and if T is used in a context where a container must call such a constructor, then the program is
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//! ill-formed.
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//!
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//! <code>
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//! template <class T, class Allocator = allocator<T> >
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//! class Z {
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//! public:
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//! typedef Allocator allocator_type;
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//!
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//! // Default constructor with optional allocator suffix
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//! Z(const allocator_type& a = allocator_type());
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//!
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//! // Copy constructor and allocator-extended copy constructor
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//! Z(const Z& zz);
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//! Z(const Z& zz, const allocator_type& a);
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//! };
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//!
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//! // Specialize trait for class template Z
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//! template <class T, class Allocator = allocator<T> >
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//! struct constructible_with_allocator_suffix<Z<T,Allocator> >
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//! { static const bool value = true; };
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//! </code>
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//!
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//! <b>Note</b>: This trait is a workaround inspired by "N2554: The Scoped A Model (Rev 2)"
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//! (Pablo Halpern, 2008-02-29) to backport the scoped allocator model to C++03, as
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//! in C++03 there is no mechanism to detect if a type can be constructed from arbitrary arguments.
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//! Applications aiming portability with several compilers should always define this trait.
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//!
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//! In conforming C++11 compilers or compilers supporting SFINAE expressions
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//! (when BOOST_NO_SFINAE_EXPR is NOT defined), this trait is ignored and C++11 rules will be used
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//! to detect if a type should be constructed with suffix or prefix allocator arguments.
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template <class T>
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struct constructible_with_allocator_suffix
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{ static const bool value = false; };
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//! <b>Remark</b>: if a specialization constructible_with_allocator_prefix<X>::value is true, indicates that T may be constructed
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//! with allocator_arg and T::allocator_type as its first two constructor arguments.
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//! Ideally, all constructors of T (including the copy and move constructors) should have a variant
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//! that accepts these two initial arguments.
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//!
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//! <b>Requires</b>: specialization constructible_with_allocator_prefix<X>::value is true, T must have a nested type,
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//! allocator_type and at least one constructor for which allocator_arg_t is the first
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//! parameter and allocator_type is the second parameter. If not all constructors of T can be
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//! called with these initial arguments, and if T is used in a context where a container must call such
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//! a constructor, then the program is ill-formed.
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//!
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//! <code>
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//! template <class T, class Allocator = allocator<T> >
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//! class Y {
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//! public:
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//! typedef Allocator allocator_type;
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//!
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//! // Default constructor with and allocator-extended default constructor
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//! Y();
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//! Y(allocator_arg_t, const allocator_type& a);
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//!
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//! // Copy constructor and allocator-extended copy constructor
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//! Y(const Y& yy);
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//! Y(allocator_arg_t, const allocator_type& a, const Y& yy);
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//!
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//! // Variadic constructor and allocator-extended variadic constructor
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//! template<class ...Args> Y(Args&& args...);
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//! template<class ...Args>
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//! Y(allocator_arg_t, const allocator_type& a, BOOST_FWD_REF(Args)... args);
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//! };
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//!
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//! // Specialize trait for class template Y
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//! template <class T, class Allocator = allocator<T> >
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//! struct constructible_with_allocator_prefix<Y<T,Allocator> >
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//! { static const bool value = true; };
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//!
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//! </code>
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//!
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//! <b>Note</b>: This trait is a workaround inspired by "N2554: The Scoped Allocator Model (Rev 2)"
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//! (Pablo Halpern, 2008-02-29) to backport the scoped allocator model to C++03, as
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//! in C++03 there is no mechanism to detect if a type can be constructed from arbitrary arguments.
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//! Applications aiming portability with several compilers should always define this trait.
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//!
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//! In conforming C++11 compilers or compilers supporting SFINAE expressions
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//! (when BOOST_NO_SFINAE_EXPR is NOT defined), this trait is ignored and C++11 rules will be used
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//! to detect if a type should be constructed with suffix or prefix allocator arguments.
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template <class T>
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struct constructible_with_allocator_prefix
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{ static const bool value = false; };
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#ifndef BOOST_CONTAINER_DOXYGEN_INVOKED
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namespace container_detail {
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template<typename T, typename Allocator>
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struct uses_allocator_imp
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{
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// Use SFINAE (Substitution Failure Is Not An Error) to detect the
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// presence of an 'allocator_type' nested type convertilble from Allocator.
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private:
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typedef char yes_type;
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struct no_type{ char dummy[2]; };
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// Match this function if T::allocator_type exists and is
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// implicitly convertible from Allocator
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template <class U>
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static yes_type test(typename U::allocator_type);
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// Match this function if T::allocator_type exists and it's type is `erased_type`.
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template <class U, class V>
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static typename container_detail::enable_if
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< container_detail::is_same<typename U::allocator_type, erased_type>
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, yes_type
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>::type test(const V&);
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// Match this function if TypeT::allocator_type does not exist or is
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// not convertible from Allocator.
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template <typename U>
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static no_type test(...);
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static Allocator alloc; // Declared but not defined
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public:
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static const bool value = sizeof(test<T>(alloc)) == sizeof(yes_type);
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};
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} //namespace container_detail {
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#endif //#ifndef BOOST_CONTAINER_DOXYGEN_INVOKED
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//! <b>Remark</b>: Automatically detects whether T has a nested allocator_type that is convertible from
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//! Allocator. Meets the BinaryTypeTrait requirements ([meta.rqmts] 20.4.1). A program may
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//! specialize this type to define uses_allocator<X>::value as true for a T of user-defined type if T does not
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//! have a nested allocator_type but is nonetheless constructible using the specified Allocator where either:
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//! the first argument of a constructor has type allocator_arg_t and the second argument has type Alloc or
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//! the last argument of a constructor has type Alloc.
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//!
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//! <b>Result</b>: uses_allocator<T, Allocator>::value== true if a type T::allocator_type
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//! exists and either is_convertible<Alloc, T::allocator_type>::value != false or T::allocator_type
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//! is an alias `erased_type`. False otherwise.
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template <typename T, typename Allocator>
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struct uses_allocator
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: container_detail::uses_allocator_imp<T, Allocator>
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{};
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}} //namespace boost::container
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#endif //BOOST_CONTAINER_USES_ALLOCATOR_HPP
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