// sol3 // The MIT License (MIT) // Copyright (c) 2013-2021 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. #ifndef SOL_TABLE_PROXY_HPP #define SOL_TABLE_PROXY_HPP #include #include #include #include namespace sol { template struct table_proxy : public proxy_base> { private: using key_type = detail::proxy_key_t; template decltype(auto) tuple_get(std::index_sequence) const& { return tbl.template traverse_get(std::get(key)...); } template decltype(auto) tuple_get(std::index_sequence) && { return tbl.template traverse_get(std::get(std::move(key))...); } template void tuple_set(std::index_sequence, T&& value) & { tbl.traverse_set(std::get(key)..., std::forward(value)); } template void tuple_set(std::index_sequence, T&& value) && { tbl.traverse_set(std::get(std::move(key))..., std::forward(value)); } auto setup_table(std::true_type) { auto p = stack::probe_get_field, global_table>>(lua_state(), key, tbl.stack_index()); lua_pop(lua_state(), p.levels); return p; } bool is_valid(std::false_type) { auto pp = stack::push_pop(tbl); auto p = stack::probe_get_field, global_table>>(lua_state(), key, lua_gettop(lua_state())); lua_pop(lua_state(), p.levels); return p; } public: Table tbl; key_type key; template table_proxy(Table table, T&& k) : tbl(table), key(std::forward(k)) { } template table_proxy& set(T&& item) & { tuple_set(std::make_index_sequence>>(), std::forward(item)); return *this; } template table_proxy&& set(T&& item) && { std::move(*this).tuple_set(std::make_index_sequence>>(), std::forward(item)); return std::move(*this); } template table_proxy& set_function(Args&&... args) & { tbl.set_function(key, std::forward(args)...); return *this; } template table_proxy&& set_function(Args&&... args) && { tbl.set_function(std::move(key), std::forward(args)...); return std::move(*this); } template table_proxy& operator=(T&& other) & { using Tu = meta::unwrap_unqualified_t; if constexpr (!is_lua_reference_or_proxy_v && meta::is_callable_v) { return set_function(std::forward(other)); } else { return set(std::forward(other)); } } template table_proxy&& operator=(T&& other) && { using Tu = meta::unwrap_unqualified_t; if constexpr (!is_lua_reference_or_proxy_v && meta::is_callable_v && !detail::is_msvc_callable_rigged_v) { return std::move(*this).set_function(std::forward(other)); } else { return std::move(*this).set(std::forward(other)); } } template table_proxy& operator=(std::initializer_list other) & { return set(std::move(other)); } template table_proxy&& operator=(std::initializer_list other) && { return std::move(*this).set(std::move(other)); } template decltype(auto) get() const& { using idx_seq = std::make_index_sequence>>; return tuple_get(idx_seq()); } template decltype(auto) get() && { using idx_seq = std::make_index_sequence>>; return std::move(*this).template tuple_get(idx_seq()); } template decltype(auto) get_or(T&& otherwise) const { typedef decltype(get()) U; optional option = get>(); if (option) { return static_cast(option.value()); } return static_cast(std::forward(otherwise)); } template decltype(auto) get_or(D&& otherwise) const { optional option = get>(); if (option) { return static_cast(option.value()); } return static_cast(std::forward(otherwise)); } template decltype(auto) get_or_create() { return get_or_create(new_table()); } template decltype(auto) get_or_create(Otherwise&& other) { if (!this->valid()) { this->set(std::forward(other)); } return get(); } template decltype(auto) operator[](K&& k) const& { auto keys = meta::tuplefy(key, std::forward(k)); return table_proxy(tbl, std::move(keys)); } template decltype(auto) operator[](K&& k) & { auto keys = meta::tuplefy(key, std::forward(k)); return table_proxy(tbl, std::move(keys)); } template decltype(auto) operator[](K&& k) && { auto keys = meta::tuplefy(std::move(key), std::forward(k)); return table_proxy(tbl, std::move(keys)); } template decltype(auto) call(Args&&... args) { lua_State* L = this->lua_state(); push(L); int idx = lua_gettop(L); stack_aligned_function func(L, idx); return func.call(std::forward(args)...); } template decltype(auto) operator()(Args&&... args) { return call<>(std::forward(args)...); } bool valid() const { auto pp = stack::push_pop(tbl); auto p = stack::probe_get_field, global_table>::value>(lua_state(), key, lua_gettop(lua_state())); lua_pop(lua_state(), p.levels); return p; } int push() const noexcept { return push(this->lua_state()); } int push(lua_State* L) const noexcept { if constexpr (std::is_same_v, global_table> || is_stack_table_v>) { auto pp = stack::push_pop(tbl); int tableindex = pp.index_of(tbl); int top_index = lua_gettop(L); stack::get_field(lua_state(), key, tableindex); lua_replace(L, top_index + 1); lua_settop(L, top_index + 1); } else { auto pp = stack::push_pop(tbl); int tableindex = pp.index_of(tbl); int aftertableindex = lua_gettop(L); stack::get_field(lua_state(), key, tableindex); lua_replace(L, tableindex); lua_settop(L, aftertableindex + 1); } return 1; } type get_type() const { type t = type::none; auto pp = stack::push_pop(tbl); auto p = stack::probe_get_field, global_table>::value>(lua_state(), key, lua_gettop(lua_state())); if (p) { t = type_of(lua_state(), -1); } lua_pop(lua_state(), p.levels); return t; } lua_State* lua_state() const { return tbl.lua_state(); } table_proxy& force() { if (!this->valid()) { this->set(new_table()); } return *this; } }; template inline bool operator==(T&& left, const table_proxy& right) { using G = decltype(stack::get(nullptr, 0)); return right.template get>() == left; } template inline bool operator==(const table_proxy& right, T&& left) { using G = decltype(stack::get(nullptr, 0)); return right.template get>() == left; } template inline bool operator!=(T&& left, const table_proxy& right) { using G = decltype(stack::get(nullptr, 0)); return right.template get>() != left; } template inline bool operator!=(const table_proxy& right, T&& left) { using G = decltype(stack::get(nullptr, 0)); return right.template get>() != left; } template inline bool operator==(lua_nil_t, const table_proxy& right) { return !right.valid(); } template inline bool operator==(const table_proxy& right, lua_nil_t) { return !right.valid(); } template inline bool operator!=(lua_nil_t, const table_proxy& right) { return right.valid(); } template inline bool operator!=(const table_proxy& right, lua_nil_t) { return right.valid(); } template template basic_reference& basic_reference::operator=(proxy_base&& r) { basic_reference v = r; this->operator=(std::move(v)); return *this; } template template basic_reference& basic_reference::operator=(const proxy_base& r) { basic_reference v = r; this->operator=(std::move(v)); return *this; } namespace stack { template struct unqualified_pusher> { static int push(lua_State* L, const table_proxy& p) { return p.push(L); } }; } // namespace stack } // namespace sol #endif // SOL_TABLE_PROXY_HPP