ecency-mobile/ios/Pods/boost-for-react-native/boost/proto/transform/make.hpp

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///////////////////////////////////////////////////////////////////////////////
/// \file make.hpp
/// Contains definition of the make<> transform.
//
// Copyright 2008 Eric Niebler. 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)
#ifndef BOOST_PROTO_TRANSFORM_MAKE_HPP_EAN_12_02_2007
#define BOOST_PROTO_TRANSFORM_MAKE_HPP_EAN_12_02_2007
#include <boost/detail/workaround.hpp>
#include <boost/preprocessor/repetition/enum.hpp>
#include <boost/preprocessor/repetition/enum_params.hpp>
#include <boost/preprocessor/repetition/enum_trailing_params.hpp>
#include <boost/preprocessor/repetition/enum_binary_params.hpp>
#include <boost/preprocessor/repetition/enum_params_with_a_default.hpp>
#include <boost/preprocessor/repetition/repeat_from_to.hpp>
#include <boost/preprocessor/facilities/intercept.hpp>
#include <boost/preprocessor/cat.hpp>
#include <boost/preprocessor/iteration/iterate.hpp>
#include <boost/preprocessor/selection/max.hpp>
#include <boost/preprocessor/arithmetic/inc.hpp>
#include <boost/mpl/and.hpp>
#include <boost/mpl/aux_/has_type.hpp>
#include <boost/proto/detail/template_arity.hpp>
#include <boost/utility/result_of.hpp>
#include <boost/proto/proto_fwd.hpp>
#include <boost/proto/traits.hpp>
#include <boost/proto/args.hpp>
#include <boost/proto/transform/impl.hpp>
#include <boost/proto/transform/detail/pack.hpp>
#include <boost/proto/detail/as_lvalue.hpp>
#include <boost/proto/detail/ignore_unused.hpp>
#if defined(_MSC_VER)
# pragma warning(push)
# pragma warning(disable : 4714) // function 'xxx' marked as __forceinline not inlined
#endif
namespace boost { namespace proto
{
namespace detail
{
template<typename T>
struct is_applyable
: mpl::and_<is_callable<T>, is_transform<T> >
{};
template<typename T, bool HasType = mpl::aux::has_type<T>::value>
struct nested_type
{
typedef typename T::type type;
};
template<typename T>
struct nested_type<T, false>
{
typedef T type;
};
template<typename T, bool Applied>
struct nested_type_if
{
typedef T type;
static bool const applied = false;
};
template<typename T>
struct nested_type_if<T, true>
: nested_type<T>
{
static bool const applied = true;
};
template<
typename R
, typename Expr, typename State, typename Data
BOOST_PROTO_TEMPLATE_ARITY_PARAM(long Arity = detail::template_arity<R>::value)
>
struct make_
{
typedef R type;
static bool const applied = false;
};
template<
typename R
, typename Expr, typename State, typename Data
, bool IsApplyable = is_applyable<R>::value
>
struct make_if_
: make_<R, Expr, State, Data>
{};
template<typename R, typename Expr, typename State, typename Data>
struct make_if_<R, Expr, State, Data, true>
: uncvref<typename when<_, R>::template impl<Expr, State, Data>::result_type>
{
static bool const applied = true;
};
#if BOOST_WORKAROUND(__GNUC__, == 3) || (BOOST_WORKAROUND(__GNUC__, == 4) && __GNUC_MINOR__ == 0)
// work around GCC bug
template<typename Tag, typename Args, long N, typename Expr, typename State, typename Data>
struct make_if_<proto::expr<Tag, Args, N>, Expr, State, Data, false>
{
typedef proto::expr<Tag, Args, N> type;
static bool const applied = false;
};
// work around GCC bug
template<typename Tag, typename Args, long N, typename Expr, typename State, typename Data>
struct make_if_<proto::basic_expr<Tag, Args, N>, Expr, State, Data, false>
{
typedef proto::basic_expr<Tag, Args, N> type;
static bool const applied = false;
};
#endif
template<typename Type, bool IsAggregate = detail::is_aggregate_<Type>::value>
struct construct_
{
typedef Type result_type;
BOOST_FORCEINLINE
Type operator ()() const
{
return Type();
}
// Other overloads generated by the preprocessor
#include <boost/proto/transform/detail/construct_funop.hpp>
};
template<typename Type>
struct construct_<Type, true>
{
typedef Type result_type;
BOOST_FORCEINLINE
Type operator ()() const
{
return Type();
}
// Other overloads generated by the preprocessor
#include <boost/proto/transform/detail/construct_pod_funop.hpp>
};
}
/// \brief A PrimitiveTransform which prevents another PrimitiveTransform
/// from being applied in an \c ObjectTransform.
///
/// When building higher order transforms with <tt>make\<\></tt> or
/// <tt>lazy\<\></tt>, you sometimes would like to build types that
/// are parameterized with Proto transforms. In such lambda-style
/// transforms, Proto will unhelpfully find all nested transforms
/// and apply them, even if you don't want them to be applied. Consider
/// the following transform, which will replace the \c _ in
/// <tt>Bar<_>()</tt> with <tt>proto::terminal\<int\>::type</tt>:
///
/// \code
/// template<typename T>
/// struct Bar
/// {};
///
/// struct Foo
/// : proto::when<_, Bar<_>() >
/// {};
///
/// proto::terminal<int>::type i = {0};
///
/// int main()
/// {
/// Foo()(i);
/// std::cout << typeid(Foo()(i)).name() << std::endl;
/// }
/// \endcode
///
/// If you actually wanted to default-construct an object of type
/// <tt>Bar\<_\></tt>, you would have to protect the \c _ to prevent
/// it from being applied. You can use <tt>proto::protect\<\></tt>
/// as follows:
///
/// \code
/// // OK: replace anything with Bar<_>()
/// struct Foo
/// : proto::when<_, Bar<protect<_> >() >
/// {};
/// \endcode
template<typename PrimitiveTransform>
struct protect : transform<protect<PrimitiveTransform> >
{
template<typename, typename, typename>
struct impl
{
typedef PrimitiveTransform result_type;
};
};
/// \brief A PrimitiveTransform which computes a type by evaluating any
/// nested transforms and then constructs an object of that type.
///
/// The <tt>make\<\></tt> transform checks to see if \c Object is a template.
/// If it is, the template type is disassembled to find nested transforms.
/// Proto considers the following types to represent transforms:
///
/// \li Function types
/// \li Function pointer types
/// \li Types for which <tt>proto::is_callable\< type \>::value</tt> is \c true
///
/// <tt>boost::result_of\<make\<T\<X0,X1,...\> \>(Expr, State, Data)\>::type</tt>
/// is evaluated as follows. For each \c X in <tt>X0,X1,...</tt>, do:
///
/// \li If \c X is a template like <tt>U\<Y0,Y1,...\></tt>, then let <tt>X'</tt>
/// be <tt>boost::result_of\<make\<U\<Y0,Y1,...\> \>(Expr, State, Data)\>::type</tt>
/// (which evaluates this procedure recursively). Note whether any
/// substitutions took place during this operation.
/// \li Otherwise, if \c X is a transform, then let <tt>X'</tt> be
/// <tt>boost::result_of\<when\<_, X\>(Expr, State, Data)\>::type</tt>.
/// Note that a substitution took place.
/// \li Otherwise, let <tt>X'</tt> be \c X, and note that no substitution
/// took place.
/// \li If any substitutions took place in any of the above steps and
/// <tt>T\<X0',X1',...\></tt> has a nested <tt>::type</tt> typedef,
/// the result type is <tt>T\<X0',X1',...\>::type</tt>.
/// \li Otherwise, the result type is <tt>T\<X0',X1',...\></tt>.
///
/// Note that <tt>when\<\></tt> is implemented in terms of <tt>call\<\></tt>
/// and <tt>make\<\></tt>, so the above procedure is evaluated recursively.
template<typename Object>
struct make : transform<make<Object> >
{
template<typename Expr, typename State, typename Data>
struct impl : transform_impl<Expr, State, Data>
{
typedef typename detail::make_if_<Object, Expr, State, Data>::type result_type;
/// \return <tt>result_type()</tt>
BOOST_FORCEINLINE
result_type operator ()(
typename impl::expr_param
, typename impl::state_param
, typename impl::data_param
) const
{
return result_type();
}
};
};
/// INTERNAL ONLY
template<typename Fun>
struct make<detail::msvc_fun_workaround<Fun> >
: make<Fun>
{};
// Other specializations generated by the preprocessor.
#include <boost/proto/transform/detail/make.hpp>
#include <boost/proto/transform/detail/make_gcc_workaround.hpp>
/// INTERNAL ONLY
///
template<typename Object>
struct is_callable<make<Object> >
: mpl::true_
{};
/// INTERNAL ONLY
///
template<typename PrimitiveTransform>
struct is_callable<protect<PrimitiveTransform> >
: mpl::true_
{};
}}
#if defined(_MSC_VER)
# pragma warning(pop)
#endif
#endif