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#ifndef BOOST_LEAF_ON_ERROR_HPP_INCLUDED
#define BOOST_LEAF_ON_ERROR_HPP_INCLUDED
// Copyright (c) 2018-2020 Emil Dotchevski and Reverge Studios, Inc.
// 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_LEAF_ENABLE_WARNINGS
# if defined(__clang__)
# pragma clang system_header
# elif (__GNUC__*100+__GNUC_MINOR__>301)
# pragma GCC system_header
# elif defined(_MSC_VER)
# pragma warning(push,1)
# endif
#endif
#include <boost/leaf/error.hpp>
namespace boost { namespace leaf {
class error_monitor
{
#if !defined(BOOST_LEAF_NO_EXCEPTIONS) && BOOST_LEAF_STD_UNCAUGHT_EXCEPTIONS
int const uncaught_exceptions_;
#endif
int const err_id_;
public:
error_monitor() noexcept:
#if !defined(BOOST_LEAF_NO_EXCEPTIONS) && BOOST_LEAF_STD_UNCAUGHT_EXCEPTIONS
uncaught_exceptions_(std::uncaught_exceptions()),
#endif
err_id_(leaf_detail::current_id())
{
}
int check_id() const noexcept
{
int err_id = leaf_detail::current_id();
if( err_id != err_id_ )
return err_id;
else
{
#ifndef BOOST_LEAF_NO_EXCEPTIONS
# if BOOST_LEAF_STD_UNCAUGHT_EXCEPTIONS
if( std::uncaught_exceptions() > uncaught_exceptions_ )
# else
if( std::uncaught_exception() )
# endif
return leaf_detail::new_id();
#endif
return 0;
}
}
int get_id() const noexcept
{
int err_id = leaf_detail::current_id();
if( err_id != err_id_ )
return err_id;
else
return leaf_detail::new_id();
}
error_id check() const noexcept
{
return leaf_detail::make_error_id(check_id());
}
error_id assigned_error_id() const noexcept
{
return leaf_detail::make_error_id(get_id());
}
};
////////////////////////////////////////////
namespace leaf_detail
{
template <int I, class Tuple>
struct tuple_for_each_preload
{
BOOST_LEAF_CONSTEXPR static void trigger( Tuple & tup, int err_id ) noexcept
{
BOOST_LEAF_ASSERT((err_id&3)==1);
tuple_for_each_preload<I-1,Tuple>::trigger(tup,err_id);
std::get<I-1>(tup).trigger(err_id);
}
};
template <class Tuple>
struct tuple_for_each_preload<0, Tuple>
{
BOOST_LEAF_CONSTEXPR static void trigger( Tuple const &, int ) noexcept { }
};
template <class E>
class preloaded_item
{
using decay_E = typename std::decay<E>::type;
slot<decay_E> * s_;
decay_E e_;
public:
BOOST_LEAF_CONSTEXPR preloaded_item( E && e ):
s_(tl_slot_ptr<decay_E>::p),
e_(std::forward<E>(e))
{
}
BOOST_LEAF_CONSTEXPR void trigger( int err_id ) noexcept
{
BOOST_LEAF_ASSERT((err_id&3)==1);
if( s_ )
{
if( !s_->has_value(err_id) )
s_->put(err_id, std::move(e_));
}
#if BOOST_LEAF_DIAGNOSTICS
else
{
int c = tl_unexpected_enabled<>::counter;
BOOST_LEAF_ASSERT(c>=0);
if( c )
load_unexpected(err_id, std::move(e_));
}
#endif
}
};
template <class F>
class deferred_item
{
using E = decltype(std::declval<F>()());
slot<E> * s_;
F f_;
public:
BOOST_LEAF_CONSTEXPR deferred_item( F && f ) noexcept:
s_(tl_slot_ptr<E>::p),
f_(std::forward<F>(f))
{
}
BOOST_LEAF_CONSTEXPR void trigger( int err_id ) noexcept
{
BOOST_LEAF_ASSERT((err_id&3)==1);
if( s_ )
{
if( !s_->has_value(err_id) )
s_->put(err_id, f_());
}
#if BOOST_LEAF_DIAGNOSTICS
else
{
int c = tl_unexpected_enabled<>::counter;
BOOST_LEAF_ASSERT(c>=0);
if( c )
load_unexpected(err_id, std::forward<E>(f_()));
}
#endif
}
};
template <class F, class A0 = fn_arg_type<F,0>, int arity = function_traits<F>::arity>
class accumulating_item;
template <class F, class A0>
class accumulating_item<F, A0 &, 1>
{
using E = A0;
slot<E> * s_;
F f_;
public:
BOOST_LEAF_CONSTEXPR accumulating_item( F && f ) noexcept:
s_(tl_slot_ptr<E>::p),
f_(std::forward<F>(f))
{
}
BOOST_LEAF_CONSTEXPR void trigger( int err_id ) noexcept
{
BOOST_LEAF_ASSERT((err_id&3)==1);
if( s_ )
if( E * e = s_->has_value(err_id) )
(void) f_(*e);
else
(void) f_(s_->put(err_id, E()));
}
};
template <class... Item>
class preloaded
{
preloaded & operator=( preloaded const & ) = delete;
std::tuple<Item...> p_;
bool moved_;
error_monitor id_;
public:
BOOST_LEAF_CONSTEXPR explicit preloaded( Item && ... i ):
p_(std::forward<Item>(i)...),
moved_(false)
{
}
BOOST_LEAF_CONSTEXPR preloaded( preloaded && x ) noexcept:
p_(std::move(x.p_)),
moved_(false),
id_(std::move(x.id_))
{
x.moved_ = true;
}
~preloaded() noexcept
{
if( moved_ )
return;
if( auto id = id_.check_id() )
tuple_for_each_preload<sizeof...(Item),decltype(p_)>::trigger(p_,id);
}
};
template <class T, int arity = function_traits<T>::arity>
struct deduce_item_type;
template <class T>
struct deduce_item_type<T, -1>
{
using type = preloaded_item<T>;
};
template <class F>
struct deduce_item_type<F, 0>
{
using type = deferred_item<F>;
};
template <class F>
struct deduce_item_type<F, 1>
{
using type = accumulating_item<F>;
};
}
template <class... Item>
BOOST_LEAF_NODISCARD BOOST_LEAF_CONSTEXPR inline
leaf_detail::preloaded<typename leaf_detail::deduce_item_type<Item>::type...>
on_error( Item && ... i )
{
return leaf_detail::preloaded<typename leaf_detail::deduce_item_type<Item>::type...>(std::forward<Item>(i)...);
}
} }
#endif
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