mirror of
https://github.com/ThePhD/sol2.git
synced 2024-03-22 13:10:44 +08:00
0088002abf
Refactoring on function_types.hpp performed to slim down some of the calls: could use more refactoring Drastically simplified userdata's binding capabilities: constructor supports both `:` and `.` syntax (but member functions DO NOT). All tests are passing
344 lines
11 KiB
C++
344 lines
11 KiB
C++
// The MIT License (MIT)
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// Copyright (c) 2013 Danny Y., Rapptz
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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_STACK_HPP
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#define SOL_STACK_HPP
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#include "error.hpp"
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#include "reference.hpp"
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#include "tuple.hpp"
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#include "traits.hpp"
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#include <utility>
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#include <array>
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#include <cstring>
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namespace sol {
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namespace stack {
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namespace detail {
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template<typename T>
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inline T get_unsigned(lua_State* L, std::true_type, int index = -1) {
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return lua_tounsigned(L, index);
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}
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template<typename T>
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inline T get_unsigned(lua_State* L, std::false_type, int index = -1) {
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return static_cast<T>(lua_tointeger(L, index));
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}
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template<typename T>
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inline T get_arithmetic(lua_State* L, std::false_type, int index = -1) {
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// T is a floating point
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return static_cast<T>(lua_tonumber(L, index));
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}
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template<typename T>
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inline T get_arithmetic(lua_State* L, std::true_type, int index = -1) {
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// T is an integral
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return get_unsigned<T>(L, std::is_unsigned<T>{}, index);
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}
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template<typename T>
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inline T get_nil(lua_State* L, std::true_type, int index = -1) {
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if (lua_isnil(L, index) == 0)
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throw sol::sol_error("not nil");
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return nil_t{};
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}
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template<typename T>
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inline T get_nil(lua_State* L, std::false_type, int index = -1) {
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// T is a class type
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return T(L, index);
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}
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template<typename T>
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inline T get_helper(lua_State* L, std::true_type, int index = -1) {
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return get_nil<T>(L, std::is_same<nil_t, T>(), index);
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}
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template<typename T>
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inline T get_helper(lua_State* L, std::false_type, int index = -1) {
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// T is a fundamental type
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return get_arithmetic<T>(L, std::is_integral<T>{}, index);
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}
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template<typename T>
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inline void push_unsigned(lua_State* L, T x, std::true_type) {
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lua_pushunsigned(L, x);
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}
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template<typename T>
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inline void push_unsigned(lua_State* L, T x, std::false_type) {
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lua_pushinteger(L, x);
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}
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template<typename T>
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inline void push_arithmetic(lua_State* L, T x, std::true_type) {
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// T is an integral type
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push_unsigned(L, x, std::is_unsigned<T>{});
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}
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template<typename T>
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inline void push_arithmetic(lua_State* L, T x, std::false_type) {
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// T is an floating point type
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lua_pushnumber(L, x);
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}
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} // detail
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template<typename T>
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inline T get(lua_State* L, int index = -1) {
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return detail::get_helper<T>(L, std::is_class<T>{}, index);
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}
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template<>
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inline bool get<bool>(lua_State* L, int index) {
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return lua_toboolean(L, index) != 0;
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}
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template<>
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inline lightuserdata_t get<lightuserdata_t>(lua_State* L, int index) {
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return {lua_touserdata(L, lua_upvalueindex(index))};
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}
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template<>
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inline userdata_t get<userdata_t>(lua_State* L, int index) {
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return {lua_touserdata(L, index)};
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}
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template<>
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inline std::string get<std::string>(lua_State* L, int index) {
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std::string::size_type len;
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auto str = lua_tolstring(L, index, &len);
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return { str, len };
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}
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template<>
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inline const char* get<const char*>(lua_State* L, int index) {
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return lua_tostring(L, index);
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}
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template<>
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inline type get<type>(lua_State* L, int index) {
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return static_cast<type>(lua_type(L, index));
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}
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template<typename T>
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inline std::pair<T, int> get_user(lua_State* L, int index = 1) {
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const static std::size_t data_t_count = (sizeof(T)+(sizeof(void*)-1)) / sizeof(void*);
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typedef std::array<void*, data_t_count> data_t;
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data_t voiddata{ {} };
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for (std::size_t i = 0, d = 0; d < sizeof(T); ++i, d += sizeof(void*)) {
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voiddata[ i ] = stack::get<lightuserdata_t>(L, index++);
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}
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return std::pair<T, int>(*reinterpret_cast<T*>(static_cast<void*>(voiddata.data())), index);
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}
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template<typename T>
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inline T pop(lua_State* L) {
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auto r = get<T>(L);
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lua_pop(L, 1);
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return r;
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}
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template<typename T>
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inline EnableIf<std::is_arithmetic<T>> push(lua_State* L, T arithmetic) {
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detail::push_arithmetic(L, arithmetic, std::is_integral<T>{});
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}
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inline void push(lua_State*, reference& ref) {
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ref.push();
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}
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inline void push(lua_State* L, bool boolean) {
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lua_pushboolean(L, boolean);
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}
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inline void push(lua_State* L, const nil_t&) {
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lua_pushnil(L);
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}
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inline void push(lua_State* L, lua_CFunction func) {
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lua_pushcfunction(L, func);
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}
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inline void push(lua_State* L, lua_CFunction func, int n) {
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lua_pushcclosure(L, func, n);
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}
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inline void push(lua_State* L, void* userdata) {
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lua_pushlightuserdata(L, userdata);
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}
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template<size_t N>
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inline void push(lua_State* L, const char (&str)[N]) {
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lua_pushlstring(L, str, N - 1);
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}
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inline void push(lua_State* L, const char* str) {
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lua_pushlstring(L, str, std::char_traits<char>::length(str));
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}
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inline void push(lua_State* L, const std::string& str) {
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lua_pushlstring(L, str.c_str(), str.size());
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}
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template<typename T>
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inline void push_user(lua_State* L, T& userdata, const char* metatablekey) {
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T* pdatum = static_cast<T*>(lua_newuserdata(L, sizeof(T)));
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T& datum = *pdatum;
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datum = userdata;
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if (metatablekey != nullptr) {
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lua_getfield(L, LUA_REGISTRYINDEX, metatablekey);
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lua_setmetatable(L, -2);
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}
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}
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template<typename T, size_t N>
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inline void push(lua_State* L, const std::array<T, N>& data) {
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for (auto&& i : data) {
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push(L, i);
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}
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}
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template<typename T>
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inline int push_user(lua_State* L, T& item) {
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typedef typename std::decay<T>::type TValue;
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const static std::size_t itemsize = sizeof(TValue);
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const static std::size_t voidsize = sizeof(void*);
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const static std::size_t voidsizem1 = voidsize - 1;
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const static std::size_t data_t_count = (sizeof(TValue) + voidsizem1) / voidsize;
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typedef std::array<void*, data_t_count> data_t;
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data_t data{{}};
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std::memcpy(std::addressof(data[0]), std::addressof(item), itemsize);
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push(L, data);
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return data_t_count;
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}
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namespace detail {
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template<typename T, std::size_t... I>
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inline void push_tuple(lua_State* L, indices<I...>, T&& tuplen) {
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using swallow = char[1 + sizeof...(I)];
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swallow {'\0', (sol::stack::push(L, std::get<I>(tuplen)), '\0')... };
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}
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template<typename F, typename... Vs, typename... Args>
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inline auto ltr_get(lua_State*, int index, F&& f, types<Args...>, types<>, Vs&&... vs) -> decltype(f(std::forward<Vs>(vs)...)) {
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return f(std::forward<Vs>(vs)...);
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}
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template<typename F, typename Head, typename... Tail, typename... Vs, typename... Args>
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inline auto ltr_get(lua_State* L, int index, F&& f, types<Args...> t, types<Head, Tail...>, Vs&&... vs) -> decltype(f(std::declval<Args>()...)) {
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return ltr_get(L, index + 1, std::forward<F>(f), t, types<Tail...>(), std::forward<Vs>(vs)..., get<Head>(L, index));
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}
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template<typename F, typename... Vs, typename... Args>
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inline auto ltr_pop(lua_State*, F&& f, types<Args...>, types<>, Vs&&... vs) -> decltype(f(std::forward<Vs>(vs)...)) {
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return f(std::forward<Vs>(vs)...);
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}
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template<typename F, typename Head, typename... Tail, typename... Vs, typename... Args>
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inline auto ltr_pop(lua_State* L, F&& f, types<Args...> t, types<Head, Tail...>, Vs&&... vs) -> decltype(f(std::declval<Args>()...)) {
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return ltr_pop(L, std::forward<F>(f), t, types<Tail...>(), std::forward<Vs>(vs)..., pop<Head>(L));
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}
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template<typename F, typename... Vs, typename... Args>
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inline auto rtl_pop(lua_State*, F&& f, types<Args...>, types<>, Vs&&... vs) -> decltype(f(std::forward<Vs>(vs)...)) {
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return f(std::forward<Vs>(vs)...);
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}
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template<typename F, typename Head, typename... Tail, typename... Vs, typename... Args>
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inline auto rtl_pop(lua_State* L, F&& f, types<Args...> t, types<Head, Tail...>, Vs&&... vs) -> decltype(f(std::declval<Args>()...)) {
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return rtl_pop(L, std::forward<F>(f), t, types<Tail...>(), pop<Head>(L), std::forward<Vs>(vs)...);
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}
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} // detail
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template<typename... Args>
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inline void push(lua_State* L, const std::tuple<Args...>& tuplen) {
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detail::push_tuple(L, build_indices<sizeof...(Args)>(), tuplen);
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}
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template<typename... Args>
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inline void push(lua_State* L, std::tuple<Args...>&& tuplen) {
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detail::push_tuple(L, build_indices<sizeof...(Args)>(), std::move(tuplen));
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}
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template<typename T>
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inline void push_reverse(lua_State* L, T&& item) {
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push(L, std::forward<T>(item));
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}
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template<typename... Args>
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inline void push_reverse(lua_State* L, const std::tuple<Args...>& tuplen) {
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detail::push_tuple(L, build_reverse_indices<sizeof...(Args)>(), tuplen);
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}
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template<typename... Args>
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inline void push_reverse(lua_State* L, std::tuple<Args...>&& tuplen) {
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detail::push_tuple(L, build_reverse_indices<sizeof...(Args)>(), std::move(tuplen));
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}
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template<typename... Args, typename TFx>
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inline auto get_call(lua_State* L, int index, TFx&& fx, types<Args...> t) -> decltype(detail::ltr_get(L, index, std::forward<TFx>(fx), t, t)) {
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return detail::ltr_get(L, index, std::forward<TFx>(fx), t, t);
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}
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template<typename... Args, typename TFx>
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inline auto pop_call(lua_State* L, TFx&& fx, types<Args...> t) -> decltype(detail::ltr_pop(L, std::forward<TFx>(fx), t, t)) {
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return detail::ltr_pop(L, std::forward<TFx>(fx), t, t);
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}
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template<typename... Args, typename TFx>
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inline auto pop_reverse_call(lua_State* L, TFx&& fx, types<Args...> t) -> decltype(detail::rtl_pop(L, std::forward<TFx>(fx), t, reversed<Args...>())) {
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return detail::rtl_pop(L, std::forward<TFx>(fx), t, reversed<Args...>());
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}
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inline void push_args(lua_State*) {
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}
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template<typename Arg, typename... Args>
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inline void push_args(lua_State* L, Arg&& arg, Args&&... args) {
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using swallow = char[];
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stack::push(L, std::forward<Arg>(arg));
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void(swallow{'\0', (stack::push(L, std::forward<Args>(args)), '\0')... });
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}
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inline call_syntax get_call_syntax(lua_State* L, const std::string& meta) {
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if (get<type>(L, 1) == type::table) {
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if (luaL_newmetatable(L, meta.c_str()) == 0) {
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lua_settop(L, -2);
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return call_syntax::colon;
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}
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}
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return call_syntax::dot;
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}
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inline std::string dump_types(lua_State* L) {
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std::string visual;
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std::size_t size = lua_gettop(L) + 1;
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for (std::size_t i = 1; i < size; ++i) {
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if (i != 1)
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visual += " | ";
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visual += type_name(L, stack::get<type>(L, i));
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}
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return visual;
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}
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} // stack
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} // sol
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#endif // SOL_STACK_HPP
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