libcarla/include/system/boost/leaf/pred.hpp

#ifndef BOOST_LEAF_PRED_HPP_INCLUDED
#define BOOST_LEAF_PRED_HPP_INCLUDED

// Copyright 2018-2022 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)

#include <boost/leaf/config.hpp>
#include <boost/leaf/handle_errors.hpp>

#if __cplusplus >= 201703L
#   define BOOST_LEAF_MATCH_ARGS(et,v1,v) auto v1, auto... v
#else
#   define BOOST_LEAF_MATCH_ARGS(et,v1,v) typename leaf_detail::et::type v1, typename leaf_detail::et::type... v
#endif
#define BOOST_LEAF_ESC(...) __VA_ARGS__

namespace boost { namespace leaf {

namespace leaf_detail
{
#if __cplusplus >= 201703L
    template <class MatchType, class T>
    BOOST_LEAF_CONSTEXPR BOOST_LEAF_ALWAYS_INLINE bool cmp_value_pack( MatchType const & e, bool (*P)(T) noexcept ) noexcept
    {
        BOOST_LEAF_ASSERT(P != nullptr);
        return P(e);
    }

    template <class MatchType, class T>
    BOOST_LEAF_CONSTEXPR BOOST_LEAF_ALWAYS_INLINE bool cmp_value_pack( MatchType const & e, bool (*P)(T) )
    {
        BOOST_LEAF_ASSERT(P != nullptr);
        return P(e);
    }
#endif

    template <class MatchType, class V>
    BOOST_LEAF_CONSTEXPR BOOST_LEAF_ALWAYS_INLINE bool cmp_value_pack( MatchType const & e, V v )
    {
        return e == v;
    }

    template <class MatchType, class VCar, class... VCdr>
    BOOST_LEAF_CONSTEXPR BOOST_LEAF_ALWAYS_INLINE bool cmp_value_pack( MatchType const & e, VCar car, VCdr ... cdr )
    {
        return cmp_value_pack(e, car) || cmp_value_pack(e, cdr...);
    }
}

////////////////////////////////////////

#if BOOST_LEAF_CFG_STD_SYSTEM_ERROR
template <class E, class Enum = E>
struct condition
{
    static_assert(std::is_error_condition_enum<Enum>::value || std::is_error_code_enum<Enum>::value, "leaf::condition<E, Enum> requires Enum to be registered either with std::is_error_condition_enum or std::is_error_code_enum.");
};

template <class Enum>
struct condition<Enum, Enum>
{
    static_assert(std::is_error_condition_enum<Enum>::value || std::is_error_code_enum<Enum>::value, "leaf::condition<Enum> requires Enum to be registered either with std::is_error_condition_enum or std::is_error_code_enum.");
};

#if __cplusplus >= 201703L
template <class ErrorCodeEnum>
BOOST_LEAF_CONSTEXPR inline bool category( std::error_code const & ec )
{
    static_assert(std::is_error_code_enum<ErrorCodeEnum>::value, "leaf::category requires an error code enum");
    return &ec.category() == &std::error_code(ErrorCodeEnum{}).category();
}
#endif
#endif

////////////////////////////////////////

namespace leaf_detail
{
    template <class T>
    struct match_enum_type
    {
        using type = T;
    };

#if BOOST_LEAF_CFG_STD_SYSTEM_ERROR
    template <class Enum>
    struct match_enum_type<condition<Enum, Enum>>
    {
        using type = Enum;
    };

    template <class E, class Enum>
    struct match_enum_type<condition<E, Enum>>
    {
        static_assert(sizeof(Enum) == 0, "leaf::condition<E, Enum> should be used with leaf::match_value<>, not with leaf::match<>");
    };
#endif
}

template <class E, BOOST_LEAF_MATCH_ARGS(match_enum_type<E>, V1, V)>
struct match
{
    using error_type = E;
    E matched;

    template <class T>
    BOOST_LEAF_CONSTEXPR static bool evaluate(T && x)
    {
        return leaf_detail::cmp_value_pack(std::forward<T>(x), V1, V...);
    }
};

#if BOOST_LEAF_CFG_STD_SYSTEM_ERROR
template <class Enum, BOOST_LEAF_MATCH_ARGS(BOOST_LEAF_ESC(match_enum_type<condition<Enum, Enum>>), V1, V)>
struct match<condition<Enum, Enum>, V1, V...>
{
    using error_type = std::error_code;
    std::error_code const & matched;

    BOOST_LEAF_CONSTEXPR static bool evaluate(std::error_code const & e) noexcept
    {
        return leaf_detail::cmp_value_pack(e, V1, V...);
    }
};
#endif

template <class E, BOOST_LEAF_MATCH_ARGS(match_enum_type<E>, V1, V)>
struct is_predicate<match<E, V1, V...>>: std::true_type
{
};

////////////////////////////////////////

namespace leaf_detail
{
    template <class E>
    struct match_value_enum_type
    {
        using type = typename std::remove_reference<decltype(std::declval<E>().value)>::type;
    };

#if BOOST_LEAF_CFG_STD_SYSTEM_ERROR
    template <class E, class Enum>
    struct match_value_enum_type<condition<E, Enum>>
    {
        using type = Enum;
    };

    template <class Enum>
    struct match_value_enum_type<condition<Enum, Enum>>
    {
        static_assert(sizeof(Enum)==0, "leaf::condition<Enum> should be used with leaf::match<>, not with leaf::match_value<>");
    };
#endif
}

template <class E, BOOST_LEAF_MATCH_ARGS(match_value_enum_type<E>, V1, V)>
struct match_value
{
    using error_type = E;
    E const & matched;

    BOOST_LEAF_CONSTEXPR static bool evaluate(E const & e) noexcept
    {
        return leaf_detail::cmp_value_pack(e.value, V1, V...);
    }
};

#if BOOST_LEAF_CFG_STD_SYSTEM_ERROR
template <class E, class Enum, BOOST_LEAF_MATCH_ARGS(BOOST_LEAF_ESC(match_value_enum_type<condition<E, Enum>>), V1, V)>
struct match_value<condition<E, Enum>, V1, V...>
{
    using error_type = E;
    E const & matched;

    BOOST_LEAF_CONSTEXPR static bool evaluate(E const & e)
    {
        return leaf_detail::cmp_value_pack(e.value, V1, V...);
    }
};
#endif

template <class E, BOOST_LEAF_MATCH_ARGS(match_value_enum_type<E>, V1, V)>
struct is_predicate<match_value<E, V1, V...>>: std::true_type
{
};

////////////////////////////////////////

#if __cplusplus >= 201703L
template <auto, auto, auto...>
struct match_member;

template <class T, class E, T E::* P, auto V1, auto... V>
struct match_member<P, V1, V...>
{
    using error_type = E;
    E const & matched;

    BOOST_LEAF_CONSTEXPR static bool evaluate(E const & e) noexcept
    {
        return leaf_detail::cmp_value_pack(e.*P, V1, V...);
    }
};

template <auto P, auto V1, auto... V>
struct is_predicate<match_member<P, V1, V...>>: std::true_type
{
};
#endif

////////////////////////////////////////

template <class P>
struct if_not
{
    using error_type = typename P::error_type;
    decltype(std::declval<P>().matched) matched;

    template <class E>
    BOOST_LEAF_CONSTEXPR static bool evaluate(E && e) noexcept
    {
        return !P::evaluate(std::forward<E>(e));
    }
};

template <class P>
struct is_predicate<if_not<P>>: std::true_type
{
};

////////////////////////////////////////


#ifndef BOOST_LEAF_NO_EXCEPTIONS

namespace leaf_detail
{
    template <class Ex>
    BOOST_LEAF_CONSTEXPR inline bool check_exception_pack( std::exception const & ex, Ex const * ) noexcept
    {
        return dynamic_cast<Ex const *>(&ex)!=nullptr;
    }

    template <class Ex, class... ExRest>
    BOOST_LEAF_CONSTEXPR inline bool check_exception_pack( std::exception const & ex, Ex const *, ExRest const * ... ex_rest ) noexcept
    {
        return dynamic_cast<Ex const *>(&ex)!=nullptr || check_exception_pack(ex, ex_rest...);
    }

    BOOST_LEAF_CONSTEXPR inline bool check_exception_pack( std::exception const & ) noexcept
    {
        return true;
    }
}

template <class... Ex>
struct catch_
{
    using error_type = void;
    std::exception const & matched;

    BOOST_LEAF_CONSTEXPR static bool evaluate(std::exception const & ex) noexcept
    {
        return leaf_detail::check_exception_pack(ex, static_cast<Ex const *>(nullptr)...);
    }
};

template <class Ex>
struct catch_<Ex>
{
    using error_type = void;
    Ex const & matched;

    BOOST_LEAF_CONSTEXPR static Ex const * evaluate(std::exception const & ex) noexcept
    {
        return dynamic_cast<Ex const *>(&ex);
    }

    explicit catch_( std::exception const & ex ):
        matched(*dynamic_cast<Ex const *>(&ex))
    {
    }
};

template <class... Ex>
struct is_predicate<catch_<Ex...>>: std::true_type
{
};

#endif

} }

#endif