mirror of
https://github.com/ThePhD/sol2.git
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447 lines
20 KiB
C++
447 lines
20 KiB
C++
// The MIT License (MIT)
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// Copyright (c) 2013-2016 Rapptz, ThePhD and contributors
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// Permission is hereby granted, free of charge, to any person obtaining a copy of
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// this software and associated documentation files (the "Software"), to deal in
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// the Software without restriction, including without limitation the rights to
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// use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of
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// the Software, and to permit persons to whom the Software is furnished to do so,
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// subject to the following conditions:
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// The above copyright notice and this permission notice shall be included in all
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// copies or substantial portions of the Software.
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// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS
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// FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR
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// COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
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// IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
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// CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
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#ifndef SOL_USERTYPE_HPP
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#define SOL_USERTYPE_HPP
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#include "state.hpp"
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#include "function_types.hpp"
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#include "usertype_traits.hpp"
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#include "inheritance.hpp"
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#include "raii.hpp"
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#include "deprecate.hpp"
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#include <vector>
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#include <array>
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#include <algorithm>
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#include <map>
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namespace sol {
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const std::array<std::string, 2> meta_variable_names = { {
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"__index",
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"__newindex",
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} };
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const std::array<std::string, 21> meta_function_names = { {
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"new",
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"__index",
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"__newindex",
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"__mode",
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"__call",
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"__metatable",
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"__tostring",
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"__len",
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"__unm",
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"__add",
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"__sub",
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"__mul",
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"__div",
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"__mod",
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"__pow",
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"__concat",
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"__eq",
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"__lt",
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"__le",
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"__gc",
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"__call",
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} };
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enum class meta_function {
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construct,
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index,
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new_index,
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mode,
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call,
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metatable,
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to_string,
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length,
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unary_minus,
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addition,
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subtraction,
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multiplication,
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division,
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modulus,
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power_of,
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involution = power_of,
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concatenation,
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equal_to,
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less_than,
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less_than_or_equal_to,
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garbage_collect,
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call_function,
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};
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namespace usertype_detail {
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struct add_destructor_tag {};
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struct check_destructor_tag {};
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struct verified_tag {} const verified {};
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template <typename T>
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struct is_constructor : std::false_type {};
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template <typename... Args>
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struct is_constructor<constructors<Args...>> : std::true_type {};
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template <typename... Args>
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struct is_constructor<constructor_wrapper<Args...>> : std::true_type {};
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template <typename... Args>
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using has_constructor = meta::Or<is_constructor<meta::Unqualified<Args>>...>;
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template <typename T>
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struct is_destructor : std::false_type {};
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template <typename Fx>
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struct is_destructor<destructor_wrapper<Fx>> : std::true_type {};
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template <typename... Args>
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using has_destructor = meta::Or<is_destructor<meta::Unqualified<Args>>...>;
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template<typename T, bool refmeta, typename Funcs, typename FuncTable, typename MetaFuncTable>
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inline void push_metatable(lua_State* L, bool needsindexfunction, Funcs&& funcs, FuncTable&& functable, MetaFuncTable&& metafunctable, void* baseclasscheck, void* baseclasscast) {
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static const auto& gcname = meta_function_names[static_cast<int>(meta_function::garbage_collect)];
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luaL_newmetatable(L, &usertype_traits<T>::metatable[0]);
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int metatableindex = lua_gettop(L);
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#if !defined(SOL_NO_EXCEPTIONS) || !defined(SOL_NO_RTTI)
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if (baseclasscheck != nullptr) {
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stack::push(L, light_userdata_value(baseclasscheck));
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lua_setfield(L, metatableindex, &detail::base_class_check_key[0]);
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}
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if (baseclasscast != nullptr) {
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stack::push(L, light_userdata_value(baseclasscast));
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lua_setfield(L, metatableindex, &detail::base_class_cast_key[0]);
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}
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#endif // No Exceptions || RTTI
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if (funcs.size() < 1 && metafunctable.size() < 2) {
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return;
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}
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// Metamethods directly on the metatable itself
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int metaup = stack::stack_detail::push_upvalues(L, funcs);
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if (refmeta && gcname == metafunctable[metafunctable.size()-2].name) {
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// We can just "clip" out the __gc function,
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// which we always put as the last entry in the meta function table.
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luaL_Reg& target = metafunctable[metafunctable.size() - 2];
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luaL_Reg old = target;
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target = { nullptr, nullptr };
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luaL_setfuncs(L, metafunctable.data(), metaup);
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target = old;
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}
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else {
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// Otherwise, just slap it in there.
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luaL_setfuncs(L, metafunctable.data(), metaup);
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}
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if (needsindexfunction) {
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// We don't need to do anything more
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// since we've already bound the __index field using
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// setfuncs above...
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return;
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}
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// Otherwise, we use quick, fast table indexing for methods
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// gives us performance boost in calling them
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lua_createtable(L, 0, static_cast<int>(functable.size()));
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int up = stack::stack_detail::push_upvalues(L, funcs);
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luaL_setfuncs(L, functable.data(), up);
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lua_setfield(L, metatableindex, "__index");
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return;
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}
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template <typename T, typename Functions>
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inline void set_global_deleter(lua_State* L, lua_CFunction cleanup, Functions&& functions) {
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// Automatic deleter table -- stays alive until lua VM dies
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// even if the user calls collectgarbage(), weirdly enough
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lua_createtable(L, 0, 0); // global table that sits at toplevel
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lua_createtable(L, 0, 1); // metatable for the global table
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int up = stack::stack_detail::push_upvalues<true>(L, functions);
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stack::set_field(L, "__gc", c_closure(cleanup, up));
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lua_setmetatable(L, -2);
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// gctable name by default has ♻ part of it
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lua_setglobal(L, &usertype_traits<T>::gc_table[0]);
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}
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}
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template<typename T>
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class usertype {
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private:
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typedef std::map<std::string, std::pair<bool, function_detail::base_function*>> function_map_t;
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std::vector<std::string> functionnames;
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std::vector<std::unique_ptr<function_detail::base_function>> functions;
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std::vector<luaL_Reg> functiontable;
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std::vector<luaL_Reg> metafunctiontable;
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function_detail::base_function* indexfunc;
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function_detail::base_function* newindexfunc;
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function_map_t indexwrapper, newindexwrapper;
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lua_CFunction constructfunc;
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const char* destructfuncname;
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lua_CFunction destructfunc;
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lua_CFunction functiongcfunc;
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bool needsindexfunction;
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void* baseclasscheck;
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void* baseclasscast;
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template<typename... Functions>
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std::unique_ptr<function_detail::base_function> make_function(const std::string&, overload_set<Functions...> func) {
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return std::make_unique<function_detail::usertype_overloaded_function<T, Functions...>>(std::move(func));
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}
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template<typename... Functions>
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std::unique_ptr<function_detail::base_function> make_function(const std::string&, constructor_wrapper<Functions...> func) {
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return std::make_unique<function_detail::usertype_constructor_function<T, Functions...>>(std::move(func));
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}
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template<typename Arg, typename... Args, typename Ret>
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std::unique_ptr<function_detail::base_function> make_function(const std::string&, Ret(*func)(Arg, Args...)) {
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typedef meta::Unqualified<std::remove_pointer_t<Arg>> Argu;
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static_assert(std::is_base_of<Argu, T>::value, "Any non-member-function must have a first argument which is covariant with the desired userdata type.");
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typedef std::decay_t<decltype(func)> function_type;
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return std::make_unique<function_detail::usertype_function<function_type, T>>(func);
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}
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template<typename Base, typename Ret>
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std::unique_ptr<function_detail::base_function> make_variable_function(std::true_type, const std::string&, Ret Base::* func) {
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static_assert(std::is_base_of<Base, T>::value, "Any registered function must be part of the class");
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typedef std::decay_t<decltype(func)> function_type;
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return std::make_unique<function_detail::usertype_variable_function<function_type, T>>(func);
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}
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template<typename Base, typename Ret>
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std::unique_ptr<function_detail::base_function> make_variable_function(std::false_type, const std::string&, Ret Base::* func) {
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static_assert(std::is_base_of<Base, T>::value, "Any registered function must be part of the class");
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typedef std::decay_t<decltype(func)> function_type;
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return std::make_unique<function_detail::usertype_function<function_type, T>>(func);
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}
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template<typename Base, typename Ret>
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std::unique_ptr<function_detail::base_function> make_function(const std::string& name, Ret Base::* func) {
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typedef std::decay_t<decltype(func)> function_type;
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return make_variable_function(std::is_member_object_pointer<function_type>(), name, func);
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}
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template<typename Fx>
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std::unique_ptr<function_detail::base_function> make_function(const std::string&, Fx&& func) {
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typedef meta::Unqualified<Fx> Fxu;
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typedef std::tuple_element_t<0, typename meta::function_traits<Fxu>::args_tuple_type> Arg0;
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typedef meta::Unqualified<std::remove_pointer_t<Arg0>> Argu;
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static_assert(std::is_base_of<Argu, T>::value, "Any non-member-function must have a first argument which is covariant with the desired usertype.");
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typedef std::decay_t<Fxu> function_type;
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return std::make_unique<function_detail::usertype_function<function_type, T>>(func);
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}
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template<std::size_t N, typename... Args>
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void build_function(std::string funcname, constructors<Args...>) {
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functionnames.push_back(std::move(funcname));
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std::string& name = functionnames.back();
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// Insert bubble to keep with compile-time argument count (simpler and cheaper to do)
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functions.push_back(nullptr);
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constructfunc = function_detail::construct<T, Args...>;
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metafunctiontable.push_back({ name.c_str(), constructfunc });
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}
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template<std::size_t N>
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void build_function(std::string funcname, destructor_wrapper<void>) {
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auto metamethodfind = std::find(meta_function_names.begin(), meta_function_names.end(), funcname);
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if (metamethodfind == meta_function_names.end())
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throw error("cannot set destructor to anything but the metamethod \"__gc\"");
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meta_function metafunction = static_cast<meta_function>(metamethodfind - meta_function_names.begin());
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if (metafunction != meta_function::garbage_collect)
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throw error("cannot set destructor to anything but the metamethod \"__gc\"");
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functionnames.push_back(std::move(funcname));
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std::string& name = functionnames.back();
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destructfunc = function_detail::destruct<T>;
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destructfuncname = name.c_str();
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// Insert bubble to stay with the compile-time count
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functions.push_back(nullptr);
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}
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template<std::size_t N, typename Fx>
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void build_function(std::string funcname, destructor_wrapper<Fx> dx) {
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auto metamethodfind = std::find(meta_function_names.begin(), meta_function_names.end(), funcname);
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if (metamethodfind == meta_function_names.end())
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throw error("cannot set destructor to anything but the metamethod \"__gc\"");
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meta_function metafunction = static_cast<meta_function>(metamethodfind - meta_function_names.begin());
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if (metafunction != meta_function::garbage_collect)
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throw error("cannot set destructor to anything but the metamethod \"__gc\"");
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functionnames.push_back(std::move(funcname));
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std::string& name = functionnames.back();
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auto baseptr = make_function(name, std::move(dx.fx));
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functions.emplace_back(std::move(baseptr));
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destructfunc = function_detail::usertype_call<N>;
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destructfuncname = name.c_str();
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}
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template<std::size_t N, typename Fx>
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void build_function(std::string funcname, Fx&& func) {
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typedef std::is_member_object_pointer<meta::Unqualified<Fx>> is_variable;
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functionnames.push_back(std::move(funcname));
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std::string& name = functionnames.back();
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auto baseptr = make_function(name, std::forward<Fx>(func));
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functions.emplace_back(std::move(baseptr));
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auto metamethodfind = std::find(meta_function_names.begin(), meta_function_names.end(), name);
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if (metamethodfind != meta_function_names.end()) {
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metafunctiontable.push_back({ name.c_str(), function_detail::usertype_call<N> });
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meta_function metafunction = static_cast<meta_function>(metamethodfind - meta_function_names.begin());
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switch (metafunction) {
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case meta_function::garbage_collect:
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destructfuncname = name.c_str();
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destructfunc = function_detail::usertype_call<N>;
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return;
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case meta_function::index:
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indexfunc = functions.back().get();
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needsindexfunction = true;
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break;
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case meta_function::new_index:
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newindexfunc = functions.back().get();
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break;
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case meta_function::construct:
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constructfunc = function_detail::usertype_call<N>;
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break;
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default:
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break;
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}
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return;
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}
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if (is_variable::value) {
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needsindexfunction = true;
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indexwrapper.insert({ name, { false, functions.back().get() } });
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newindexwrapper.insert({ name, { false, functions.back().get() } });
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return;
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}
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indexwrapper.insert({ name, { true, functions.back().get() } });
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functiontable.push_back({ name.c_str(), function_detail::usertype_call<N> });
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}
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template<std::size_t N, typename Fx, typename... Args>
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void build_function_tables(std::string funcname, Fx&& func, Args&&... args) {
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build_function<N>(std::move(funcname), std::forward<Fx>(func));
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build_function_tables<N + 1>(std::forward<Args>(args)...);
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}
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template<std::size_t N, typename Fx, typename... Args>
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void build_function_tables(meta_function metafunc, Fx&& func, Args&&... args) {
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std::size_t idx = static_cast<std::size_t>(metafunc);
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const std::string& funcname = meta_function_names[idx];
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build_function_tables<N>(funcname, std::forward<Fx>(func), std::forward<Args>(args)...);
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}
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template<std::size_t N, typename... Bases, typename... Args>
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void build_function_tables(base_classes_tag, bases<Bases...>, Args&&... args) {
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build_function_tables<N>(std::forward<Args>(args)...);
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if (sizeof...(Bases) < 1)
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return;
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#ifndef SOL_NO_EXCEPTIONS
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static_assert(sizeof(void*) <= sizeof(detail::throw_cast), "The size of this data pointer is too small to fit the inheritance checking function: file a bug report.");
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baseclasscast = (void*)&detail::throw_as<T>;
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#elif !defined(SOL_NO_RTTI)
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static_assert(sizeof(void*) <= sizeof(detail::inheritance_check_function), "The size of this data pointer is too small to fit the inheritance checking function: file a bug report.");
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static_assert(sizeof(void*) <= sizeof(detail::inheritance_cast_function), "The size of this data pointer is too small to fit the inheritance checking function: file a bug report.");
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baseclasscheck = (void*)&detail::inheritance<T, Bases...>::check;
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baseclasscast = (void*)&detail::inheritance<T, Bases...>::cast;
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#else
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static_assert(sizeof(void*) <= sizeof(detail::inheritance_check_function), "The size of this data pointer is too small to fit the inheritance checking function: file a bug report.");
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static_assert(sizeof(void*) <= sizeof(detail::inheritance_cast_function), "The size of this data pointer is too small to fit the inheritance checking function: file a bug report.");
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baseclasscheck = (void*)&detail::inheritance<T, Bases...>::check;
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baseclasscast = (void*)&detail::inheritance<T, Bases...>::cast;
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#endif // No Runtime Type Information vs. Throw-Style Inheritance
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}
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template<std::size_t N>
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void build_function_tables() {
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int variableend = 0;
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if (!indexwrapper.empty()) {
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functions.push_back(std::make_unique<function_detail::usertype_indexing_function>("__index", indexfunc, std::move(indexwrapper)));
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metafunctiontable.push_back({ "__index", function_detail::usertype_call<N> });
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++variableend;
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}
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if (!newindexwrapper.empty()) {
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functions.push_back(std::make_unique<function_detail::usertype_indexing_function>("__newindex", newindexfunc, std::move(newindexwrapper)));
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metafunctiontable.push_back({ "__newindex", indexwrapper.empty() ? function_detail::usertype_call<N> : function_detail::usertype_call<N + 1> });
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++variableend;
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}
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if (destructfunc != nullptr) {
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metafunctiontable.push_back({ destructfuncname, destructfunc });
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}
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switch (variableend) {
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case 2:
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functiongcfunc = function_detail::usertype_gc<N + 2>;
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break;
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case 1:
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functiongcfunc = function_detail::usertype_gc<N + 1>;
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break;
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case 0:
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functiongcfunc = function_detail::usertype_gc<N + 0>;
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break;
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}
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}
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template<typename... Args>
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usertype(usertype_detail::verified_tag, Args&&... args) : indexfunc(nullptr), newindexfunc(nullptr), constructfunc(nullptr),
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destructfunc(nullptr), functiongcfunc(nullptr), needsindexfunction(false), baseclasscheck(nullptr), baseclasscast(nullptr) {
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functionnames.reserve(sizeof...(args)+3);
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functiontable.reserve(sizeof...(args)+3);
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metafunctiontable.reserve(sizeof...(args)+3);
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build_function_tables<0>(std::forward<Args>(args)...);
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metafunctiontable.push_back({ nullptr, nullptr });
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functiontable.push_back({ nullptr, nullptr });
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}
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template<typename... Args>
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usertype(usertype_detail::add_destructor_tag, Args&&... args) : usertype(usertype_detail::verified, "__gc", default_destructor, std::forward<Args>(args)...) {}
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template<typename... Args>
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usertype(usertype_detail::check_destructor_tag, Args&&... args) : usertype(meta::If<meta::And<std::is_destructible<T>, meta::Not<usertype_detail::has_destructor<Args...>>>, usertype_detail::add_destructor_tag, usertype_detail::verified_tag>(), std::forward<Args>(args)...) {}
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public:
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template<typename... Args>
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usertype(Args&&... args) : usertype(meta::If<meta::And<std::is_default_constructible<T>, meta::Not<usertype_detail::has_constructor<Args...>>>, decltype(default_constructor), usertype_detail::check_destructor_tag>(), std::forward<Args>(args)...) {}
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template<typename... Args, typename... CArgs>
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usertype(constructors<CArgs...> constructorlist, Args&&... args) : usertype(usertype_detail::verified, "new", constructorlist, "__gc", default_destructor, std::forward<Args>(args)...) {
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|
|
}
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|
|
int push(lua_State* L) {
|
|
// push pointer tables first,
|
|
usertype_detail::push_metatable<T*, true>(L, needsindexfunction, functions, functiontable, metafunctiontable, baseclasscheck, baseclasscast);
|
|
lua_pop(L, 1);
|
|
// but leave the regular T table on last
|
|
// so it can be linked to a type for usage with `.new(...)` or `:new(...)`
|
|
usertype_detail::push_metatable<T, false>(L, needsindexfunction, functions, functiontable, metafunctiontable, baseclasscheck, baseclasscast);
|
|
// Make sure to drop a table in the global namespace to properly destroy the pushed functions
|
|
// at some later point in life
|
|
usertype_detail::set_global_deleter<T>(L, functiongcfunc, functions);
|
|
return 1;
|
|
}
|
|
};
|
|
|
|
namespace stack {
|
|
template<typename T>
|
|
struct pusher<usertype<T>> {
|
|
static int push(lua_State* L, usertype<T>& user) {
|
|
return user.push(L);
|
|
}
|
|
};
|
|
} // stack
|
|
} // sol
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#endif // SOL_USERTYPE_HPP
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