// The MIT License (MIT) // Copyright (c) 2013-2017 Rapptz, ThePhD and contributors // Permission is hereby granted, free of charge, to any person obtaining a copy of // this software and associated documentation files (the "Software"), to deal in // the Software without restriction, including without limitation the rights to // use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of // the Software, and to permit persons to whom the Software is furnished to do so, // subject to the following conditions: // The above copyright notice and this permission notice shall be included in all // copies or substantial portions of the Software. // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS // FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR // COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER // IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN // CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. // This file was generated with a script. // Generated 2017-11-17 21:50:58.352644 UTC // This header was generated with sol v2.18.6 (revision 4a39020) // https://github.com/ThePhD/sol2 #ifndef SOL_SINGLE_INCLUDE_HPP #define SOL_SINGLE_INCLUDE_HPP // beginning of sol.hpp #ifndef SOL_HPP #define SOL_HPP #if defined(UE_BUILD_DEBUG) || defined(UE_BUILD_DEVELOPMENT) || defined(UE_BUILD_TEST) || defined(UE_BUILD_SHIPPING) || defined(UE_SERVER) #define SOL_INSIDE_UNREAL #endif // Unreal Engine 4 bullshit #ifdef SOL_INSIDE_UNREAL #ifdef check #define SOL_INSIDE_UNREAL_REMOVED_CHECK #undef check #endif #endif // Unreal Engine 4 Bullshit #ifdef __GNUC__ #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wshadow" #pragma GCC diagnostic ignored "-Wconversion" #if __GNUC__ > 6 #pragma GCC diagnostic ignored "-Wnoexcept-type" #endif #elif defined __clang__ #elif defined _MSC_VER #pragma warning( push ) #pragma warning( disable : 4324 ) // structure was padded due to alignment specifier #pragma warning( disable : 4503 ) // decorated name horse shit #pragma warning( disable : 4702 ) // unreachable code #pragma warning( disable: 4127 ) // 'conditional expression is constant' yeah that's the point your old compilers don't have `if constexpr` you jerk #pragma warning( disable: 4505 ) // some other nonsense warning #endif // clang++ vs. g++ vs. VC++ // beginning of sol/forward.hpp // beginning of sol/feature_test.hpp #if (defined(__cplusplus) && __cplusplus == 201703L) || (defined(_MSC_VER) && _MSC_VER > 1900 && ((defined(_HAS_CXX17) && _HAS_CXX17 == 1) || (defined(_MSVC_LANG) && _MSVC_LANG > 201402))) #ifndef SOL_CXX17_FEATURES #define SOL_CXX17_FEATURES 1 #endif // C++17 features macro #endif // C++17 features check #if defined(__cpp_noexcept_function_type) #ifndef SOL_NOEXCEPT_FUNCTION_TYPE #define SOL_NOEXCEPT_FUNCTION_TYPE 1 #endif // noexcept is part of a function's type #endif #if defined(_WIN32) || defined(_MSC_VER) #ifndef SOL_CODECVT_SUPPORT #define SOL_CODECVT_SUPPORT 1 #endif // sol codecvt support #elif defined(__GNUC__) #if __GNUC__ >= 5 #ifndef SOL_CODECVT_SUPPORT #define SOL_CODECVT_SUPPORT 1 #endif // codecvt support #endif // g++ 5.x.x (MinGW too) #else #endif // Windows/VC++ vs. g++ vs Others #ifdef _MSC_VER #ifdef _DEBUG #ifndef NDEBUG #ifndef SOL_CHECK_ARGUMENTS #endif // Check Arguments #ifndef SOL_SAFE_USERTYPE #define SOL_SAFE_USERTYPE 1 #endif // Safe Usertypes #endif // NDEBUG #endif // Debug #ifndef _CPPUNWIND #ifndef SOL_NO_EXCEPTIONS #define SOL_NO_EXCEPTIONS 1 #endif #endif // Automatic Exceptions #ifndef _CPPRTTI #ifndef SOL_NO_RTTI #define SOL_NO_RTTI 1 #endif #endif // Automatic RTTI #elif defined(__GNUC__) || defined(__clang__) #ifndef NDEBUG #ifndef __OPTIMIZE__ #ifndef SOL_CHECK_ARGUMENTS #endif // Check Arguments #ifndef SOL_SAFE_USERTYPE #define SOL_SAFE_USERTYPE 1 #endif // Safe Usertypes #endif // g++ optimizer flag #endif // Not Debug #ifndef __EXCEPTIONS #ifndef SOL_NO_EXCEPTIONS #define SOL_NO_EXCEPTIONS 1 #endif #endif // No Exceptions #ifndef __GXX_RTTI #ifndef SOL_NO_RTII #define SOL_NO_RTTI 1 #endif #endif // No RTTI #endif // vc++ || clang++/g++ #ifndef SOL_SAFE_USERTYPE #ifdef SOL_CHECK_ARGUMENTS #define SOL_SAFE_USERTYPE 1 #endif // Turn on Safety for all #endif // Safe Usertypes #if defined(__MAC_OS_X_VERSION_MAX_ALLOWED) || defined(__OBJC__) || defined(nil) #ifndef SOL_NO_NIL #define SOL_NO_NIL 1 #endif #endif // avoiding nil defines / keywords // end of sol/feature_test.hpp namespace sol { template class basic_reference; using reference = basic_reference; using main_reference = basic_reference; class stack_reference; struct proxy_base_tag; template struct proxy_base; template struct proxy; template class usertype; template class simple_usertype; template class basic_table_core; template using table_core = basic_table_core; template using main_table_core = basic_table_core; template using stack_table_core = basic_table_core; template using basic_table = basic_table_core; typedef table_core table; typedef table_core global_table; typedef main_table_core main_table; typedef main_table_core main_global_table; typedef stack_table_core stack_table; typedef stack_table_core stack_global_table; template struct basic_environment; using environment = basic_environment; using main_environment = basic_environment; using stack_environment = basic_environment; template class basic_function; template class basic_protected_function; using unsafe_function = basic_function; using safe_function = basic_protected_function; using main_unsafe_function = basic_function; using main_safe_function = basic_protected_function; using stack_unsafe_function = basic_function; using stack_safe_function = basic_protected_function; using stack_aligned_unsafe_function = basic_function; using stack_aligned_safe_function = basic_protected_function; using protected_function = safe_function; using main_protected_function = main_safe_function; using stack_protected_function = stack_safe_function; using stack_aligned_protected_function = stack_aligned_safe_function; #ifdef SOL_SAFE_FUNCTION using function = protected_function; using main_function = main_protected_function; using stack_function = stack_protected_function; using stack_aligned_function = stack_aligned_safe_function; #else using function = unsafe_function; using main_function = main_unsafe_function; using stack_function = stack_unsafe_function; using stack_aligned_function = stack_aligned_unsafe_function; #endif using stack_aligned_stack_handler_function = basic_protected_function; struct unsafe_function_result; struct protected_function_result; using safe_function_result = protected_function_result; #ifdef SOL_SAFE_FUNCTION using function_result = safe_function_result; #else using function_result = unsafe_function_result; #endif template class basic_object; template class basic_userdata; template class basic_lightuserdata; template class basic_coroutine; template class basic_thread; using object = basic_object; using userdata = basic_userdata; using lightuserdata = basic_lightuserdata; using thread = basic_thread; using coroutine = basic_coroutine; using main_object = basic_object; using main_userdata = basic_userdata; using main_lightuserdata = basic_lightuserdata; using stack_object = basic_object; using stack_userdata = basic_userdata; using stack_lightuserdata = basic_lightuserdata; using stack_thread = basic_thread; using stack_coroutine = basic_coroutine; struct stack_proxy_base; struct stack_proxy; struct variadic_args; struct variadic_results; struct stack_count; struct this_state; struct this_main_state; struct this_environment; template struct as_table_t; template struct as_container_t; template struct nested; template struct light; template struct user; template struct as_args_t; template struct protect_t; template struct filter_wrapper; } // namespace sol // end of sol/forward.hpp // beginning of sol/state.hpp // beginning of sol/state_view.hpp // beginning of sol/error.hpp #include #include namespace sol { namespace detail { struct direct_error_tag {}; const auto direct_error = direct_error_tag{}; } // namespace detail class error : public std::runtime_error { private: // Because VC++ is a fuccboi std::string w; public: error(const std::string& str) : error(detail::direct_error, "lua: error: " + str) { } error(std::string&& str) : error(detail::direct_error, "lua: error: " + std::move(str)) { } error(detail::direct_error_tag, const std::string& str) : std::runtime_error(""), w(str) { } error(detail::direct_error_tag, std::string&& str) : std::runtime_error(""), w(std::move(str)) { } error(const error& e) = default; error(error&& e) = default; error& operator=(const error& e) = default; error& operator=(error&& e) = default; virtual const char* what() const noexcept override { return w.c_str(); } }; } // namespace sol // end of sol/error.hpp // beginning of sol/table.hpp // beginning of sol/table_core.hpp // beginning of sol/proxy.hpp // beginning of sol/traits.hpp // beginning of sol/tuple.hpp #include #include namespace sol { namespace detail { using swallow = std::initializer_list; } // namespace detail template struct types { typedef std::make_index_sequence indices; static constexpr std::size_t size() { return sizeof...(Args); } }; namespace meta { namespace detail { template struct tuple_types_ { typedef types type; }; template struct tuple_types_> { typedef types type; }; } // namespace detail template using unqualified = std::remove_cv>; template using unqualified_t = typename unqualified::type; template using tuple_types = typename detail::tuple_types_::type; template struct pop_front_type; template using pop_front_type_t = typename pop_front_type::type; template struct pop_front_type> { typedef void front_type; typedef types type; }; template struct pop_front_type> { typedef Arg front_type; typedef types type; }; template using tuple_element = std::tuple_element>; template using tuple_element_t = std::tuple_element_t>; template using unqualified_tuple_element = unqualified>; template using unqualified_tuple_element_t = unqualified_t>; } // namespace meta } // namespace sol // end of sol/tuple.hpp // beginning of sol/bind_traits.hpp namespace sol { namespace meta { namespace meta_detail { template struct check_deducible_signature { struct nat {}; template static auto test(int) -> decltype(&G::operator(), void()); template static auto test(...) -> nat; using type = std::is_void(0))>; }; } // namespace meta_detail template struct has_deducible_signature : meta_detail::check_deducible_signature::type {}; namespace meta_detail { template struct void_tuple_element : meta::tuple_element {}; template struct void_tuple_element> { typedef void type; }; template using void_tuple_element_t = typename void_tuple_element::type; template struct basic_traits { private: typedef std::conditional_t::value, int, T>& first_type; public: static const bool is_noexcept = it_is_noexcept; static const bool is_member_function = std::is_void::value; static const bool has_c_var_arg = has_c_variadic; static const std::size_t arity = sizeof...(Args); static const std::size_t free_arity = sizeof...(Args) + static_cast(!std::is_void::value); typedef types args_list; typedef std::tuple args_tuple; typedef T object_type; typedef R return_type; typedef tuple_types returns_list; typedef R(function_type)(Args...); typedef std::conditional_t::value, args_list, types> free_args_list; typedef std::conditional_t::value, R(Args...), R(first_type, Args...)> free_function_type; typedef std::conditional_t::value, R (*)(Args...), R (*)(first_type, Args...)> free_function_pointer_type; typedef std::remove_pointer_t signature_type; template using arg_at = void_tuple_element_t; }; template ::value> struct fx_traits : basic_traits {}; // Free Functions template struct fx_traits : basic_traits { typedef R (*function_pointer_type)(Args...); }; template struct fx_traits : basic_traits { typedef R (*function_pointer_type)(Args...); }; template struct fx_traits : basic_traits { typedef R (*function_pointer_type)(Args..., ...); }; template struct fx_traits : basic_traits { typedef R (*function_pointer_type)(Args..., ...); }; // Member Functions /* C-Style Variadics */ template struct fx_traits : basic_traits { typedef R (T::*function_pointer_type)(Args...); }; template struct fx_traits : basic_traits { typedef R (T::*function_pointer_type)(Args..., ...); }; /* Const Volatile */ template struct fx_traits : basic_traits { typedef R (T::*function_pointer_type)(Args...) const; }; template struct fx_traits : basic_traits { typedef R (T::*function_pointer_type)(Args..., ...) const; }; template struct fx_traits : basic_traits { typedef R (T::*function_pointer_type)(Args...) const volatile; }; template struct fx_traits : basic_traits { typedef R (T::*function_pointer_type)(Args..., ...) const volatile; }; /* Member Function Qualifiers */ template struct fx_traits : basic_traits { typedef R (T::*function_pointer_type)(Args...) &; }; template struct fx_traits : basic_traits { typedef R (T::*function_pointer_type)(Args..., ...) &; }; template struct fx_traits : basic_traits { typedef R (T::*function_pointer_type)(Args...) const&; }; template struct fx_traits : basic_traits { typedef R (T::*function_pointer_type)(Args..., ...) const&; }; template struct fx_traits : basic_traits { typedef R (T::*function_pointer_type)(Args...) const volatile&; }; template struct fx_traits : basic_traits { typedef R (T::*function_pointer_type)(Args..., ...) const volatile&; }; template struct fx_traits : basic_traits { typedef R (T::*function_pointer_type)(Args...) &&; }; template struct fx_traits : basic_traits { typedef R (T::*function_pointer_type)(Args..., ...) &&; }; template struct fx_traits : basic_traits { typedef R (T::*function_pointer_type)(Args...) const&&; }; template struct fx_traits : basic_traits { typedef R (T::*function_pointer_type)(Args..., ...) const&&; }; template struct fx_traits : basic_traits { typedef R (T::*function_pointer_type)(Args...) const volatile&&; }; template struct fx_traits : basic_traits { typedef R (T::*function_pointer_type)(Args..., ...) const volatile&&; }; #ifdef SOL_NOEXCEPT_FUNCTION_TYPE template struct fx_traits : basic_traits { typedef R (*function_pointer_type)(Args...) noexcept; }; template struct fx_traits : basic_traits { typedef R (*function_pointer_type)(Args...) noexcept; }; template struct fx_traits : basic_traits { typedef R (*function_pointer_type)(Args..., ...) noexcept; }; template struct fx_traits : basic_traits { typedef R (*function_pointer_type)(Args..., ...) noexcept; }; template struct fx_traits : basic_traits { typedef R (T::*function_pointer_type)(Args...) noexcept; }; template struct fx_traits : basic_traits { typedef R (T::*function_pointer_type)(Args..., ...) noexcept; }; /* Const Volatile */ template struct fx_traits : basic_traits { typedef R (T::*function_pointer_type)(Args...) const noexcept; }; template struct fx_traits : basic_traits { typedef R (T::*function_pointer_type)(Args..., ...) const noexcept; }; template struct fx_traits : basic_traits { typedef R (T::*function_pointer_type)(Args...) const volatile noexcept; }; template struct fx_traits : basic_traits { typedef R (T::*function_pointer_type)(Args..., ...) const volatile noexcept; }; template struct fx_traits : basic_traits { typedef R (T::*function_pointer_type)(Args...) & noexcept; }; template struct fx_traits : basic_traits { typedef R (T::*function_pointer_type)(Args..., ...) & noexcept; }; template struct fx_traits : basic_traits { typedef R (T::*function_pointer_type)(Args...) const& noexcept; }; template struct fx_traits : basic_traits { typedef R (T::*function_pointer_type)(Args..., ...) const& noexcept; }; template struct fx_traits : basic_traits { typedef R (T::*function_pointer_type)(Args...) const volatile& noexcept; }; template struct fx_traits : basic_traits { typedef R (T::*function_pointer_type)(Args..., ...) const volatile& noexcept; }; template struct fx_traits : basic_traits { typedef R (T::*function_pointer_type)(Args...) && noexcept; }; template struct fx_traits : basic_traits { typedef R (T::*function_pointer_type)(Args..., ...) && noexcept; }; template struct fx_traits : basic_traits { typedef R (T::*function_pointer_type)(Args...) const&& noexcept; }; template struct fx_traits : basic_traits { typedef R (T::*function_pointer_type)(Args..., ...) const&& noexcept; }; template struct fx_traits : basic_traits { typedef R (T::*function_pointer_type)(Args...) const volatile&& noexcept; }; template struct fx_traits : basic_traits { typedef R (T::*function_pointer_type)(Args..., ...) const volatile&& noexcept; }; #endif // noexcept is part of a function's type #if defined(_MSC_VER) && defined(_M_IX86) template struct fx_traits : basic_traits { typedef R(__stdcall* function_pointer_type)(Args...); }; template struct fx_traits : basic_traits { typedef R(__stdcall* function_pointer_type)(Args...); }; template struct fx_traits : basic_traits { typedef R (__stdcall T::*function_pointer_type)(Args...); }; /* Const Volatile */ template struct fx_traits : basic_traits { typedef R (__stdcall T::*function_pointer_type)(Args...) const; }; template struct fx_traits : basic_traits { typedef R (__stdcall T::*function_pointer_type)(Args...) const volatile; }; /* Member Function Qualifiers */ template struct fx_traits : basic_traits { typedef R (__stdcall T::*function_pointer_type)(Args...) &; }; template struct fx_traits : basic_traits { typedef R (__stdcall T::*function_pointer_type)(Args...) const&; }; template struct fx_traits : basic_traits { typedef R (__stdcall T::*function_pointer_type)(Args...) const volatile&; }; template struct fx_traits : basic_traits { typedef R (__stdcall T::*function_pointer_type)(Args...) &&; }; template struct fx_traits : basic_traits { typedef R (__stdcall T::*function_pointer_type)(Args...) const&&; }; template struct fx_traits : basic_traits { typedef R (__stdcall T::*function_pointer_type)(Args...) const volatile&&; }; #ifdef SOL_NOEXCEPT_FUNCTION_TYPE template struct fx_traits : basic_traits { typedef R(__stdcall* function_pointer_type)(Args...) noexcept; }; template struct fx_traits : basic_traits { typedef R(__stdcall* function_pointer_type)(Args...) noexcept; }; template struct fx_traits : basic_traits { typedef R(__stdcall* function_pointer_type)(Args..., ...) noexcept; }; template struct fx_traits : basic_traits { typedef R(__stdcall* function_pointer_type)(Args..., ...) noexcept; }; template struct fx_traits : basic_traits { typedef R (__stdcall T::*function_pointer_type)(Args...) noexcept; }; template struct fx_traits : basic_traits { typedef R (__stdcall T::*function_pointer_type)(Args..., ...) noexcept; }; /* Const Volatile */ template struct fx_traits : basic_traits { typedef R (__stdcall T::*function_pointer_type)(Args...) const noexcept; }; template struct fx_traits : basic_traits { typedef R (__stdcall T::*function_pointer_type)(Args..., ...) const noexcept; }; template struct fx_traits : basic_traits { typedef R (__stdcall T::*function_pointer_type)(Args...) const volatile noexcept; }; template struct fx_traits : basic_traits { typedef R (__stdcall T::*function_pointer_type)(Args..., ...) const volatile noexcept; }; template struct fx_traits : basic_traits { typedef R (__stdcall T::*function_pointer_type)(Args...) & noexcept; }; template struct fx_traits : basic_traits { typedef R (__stdcall T::*function_pointer_type)(Args..., ...) & noexcept; }; template struct fx_traits : basic_traits { typedef R (__stdcall T::*function_pointer_type)(Args...) const& noexcept; }; template struct fx_traits : basic_traits { typedef R (__stdcall T::*function_pointer_type)(Args..., ...) const& noexcept; }; template struct fx_traits : basic_traits { typedef R (__stdcall T::*function_pointer_type)(Args...) const volatile& noexcept; }; template struct fx_traits : basic_traits { typedef R (__stdcall T::*function_pointer_type)(Args..., ...) const volatile& noexcept; }; template struct fx_traits : basic_traits { typedef R (__stdcall T::*function_pointer_type)(Args...) && noexcept; }; template struct fx_traits : basic_traits { typedef R (__stdcall T::*function_pointer_type)(Args..., ...) && noexcept; }; template struct fx_traits : basic_traits { typedef R (__stdcall T::*function_pointer_type)(Args...) const&& noexcept; }; template struct fx_traits : basic_traits { typedef R (__stdcall T::*function_pointer_type)(Args..., ...) const&& noexcept; }; template struct fx_traits : basic_traits { typedef R (__stdcall T::*function_pointer_type)(Args...) const volatile&& noexcept; }; template struct fx_traits : basic_traits { typedef R (__stdcall T::*function_pointer_type)(Args..., ...) const volatile&& noexcept; }; #endif // noexcept is part of a function's type #endif // __stdcall x86 VC++ bug template struct fx_traits : fx_traits::function_type, false> {}; template ::value> struct callable_traits : fx_traits> { }; template struct callable_traits { typedef R Arg; typedef T object_type; using signature_type = R(T::*); static const bool is_noexcept = false; static const bool is_member_function = false; static const std::size_t arity = 1; static const std::size_t free_arity = 2; typedef std::tuple args_tuple; typedef R return_type; typedef types args_list; typedef types free_args_list; typedef meta::tuple_types returns_list; typedef R(function_type)(T&, R); typedef R (*function_pointer_type)(T&, R); typedef R (*free_function_pointer_type)(T&, R); template using arg_at = void_tuple_element_t; }; } // namespace meta_detail template struct bind_traits : meta_detail::callable_traits {}; template using function_args_t = typename bind_traits::args_list; template using function_signature_t = typename bind_traits::signature_type; template using function_return_t = typename bind_traits::return_type; } } // namespace sol::meta // end of sol/bind_traits.hpp #include #include #include #include #include #include #ifdef SOL_CXX17_FEATURES #include #endif namespace sol { template using index_value = std::integral_constant; namespace meta { template struct identity { typedef T type; }; template using identity_t = typename identity::type; template struct is_tuple : std::false_type {}; template struct is_tuple> : std::true_type {}; template struct is_builtin_type : std::integral_constant::value || std::is_pointer::value || std::is_array::value> {}; template struct unwrapped { typedef T type; }; template struct unwrapped> { typedef T type; }; template using unwrapped_t = typename unwrapped::type; template struct unwrap_unqualified : unwrapped> {}; template using unwrap_unqualified_t = typename unwrap_unqualified::type; template struct remove_member_pointer; template struct remove_member_pointer { typedef R type; }; template struct remove_member_pointer { typedef R type; }; template using remove_member_pointer_t = remove_member_pointer; template