// sol2 // 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. #include "sol_test.hpp" #include inline namespace sol2_tables_test { inline int my_custom_next(lua_State* L_) noexcept { sol::stack_reference table_stack_ref(L_, sol::raw_index(1)); sol::stateless_stack_reference key_stack_ref(L_, sol::raw_index(2)); int result = lua_next(table_stack_ref.lua_state(), table_stack_ref.stack_index()); if (result == 0) { sol::stack::push(L_, sol::lua_nil); return 1; } return 2; } inline auto my_custom_pairs(sol::reference table_ref) noexcept { return std::make_tuple(&my_custom_next, std::move(table_ref), sol::lua_nil); } } // namespace sol2_tables_test TEST_CASE("tables/for_each", "Testing the use of for_each to get values from a lua table") { sol::state lua; lua.open_libraries(sol::lib::base); lua.safe_script( "arr = {\n" "[0] = \"Hi\",\n" "[1] = 123.45,\n" "[2] = \"String value\",\n" // Does nothing //"[3] = nil,\n" //"[nil] = 3,\n" "[\"WOOF\"] = 123,\n" "}"); sol::table tbl = lua["arr"]; std::size_t tablesize = 4; std::size_t iterations = 0; auto fx = [&iterations](sol::object key, sol::object value) { ++iterations; sol::type keytype = key.get_type(); switch (keytype) { case sol::type::number: switch (key.as()) { case 0: REQUIRE((value.as() == "Hi")); break; case 1: REQUIRE((value.as() == 123.45)); break; case 2: REQUIRE((value.as() == "String value")); break; case 3: REQUIRE((value.is())); break; } break; case sol::type::string: if (key.as() == "WOOF") { REQUIRE((value.as() == 123)); } break; case sol::type::lua_nil: REQUIRE((value.as() == 3)); break; default: break; } }; auto fxpair = [&fx](std::pair kvp) { fx(kvp.first, kvp.second); }; tbl.for_each(fx); REQUIRE(iterations == tablesize); iterations = 0; tbl.for_each(fxpair); REQUIRE(iterations == tablesize); } TEST_CASE("tables/for_each empty", "empty tables should not crash") { sol::state lua; lua.open_libraries(sol::lib::base); lua.safe_script("arr = {}"); sol::table tbl = lua["arr"]; REQUIRE(tbl.empty()); std::size_t tablesize = 0; std::size_t iterations = 0; auto fx = [&iterations](sol::object key, sol::object value) { ++iterations; sol::type keytype = key.get_type(); switch (keytype) { case sol::type::number: switch (key.as()) { case 0: REQUIRE((value.as() == "Hi")); break; case 1: REQUIRE((value.as() == 123.45)); break; case 2: REQUIRE((value.as() == "String value")); break; case 3: REQUIRE((value.is())); break; } break; case sol::type::string: if (key.as() == "WOOF") { REQUIRE((value.as() == 123)); } break; case sol::type::lua_nil: REQUIRE((value.as() == 3)); break; default: break; } }; auto fxpair = [&fx](std::pair kvp) { fx(kvp.first, kvp.second); }; tbl.for_each(fx); REQUIRE(iterations == tablesize); iterations = 0; tbl.for_each(fxpair); REQUIRE(iterations == tablesize); iterations = 0; for (const auto& kvp : tbl) { fxpair(kvp); ++iterations; } REQUIRE(iterations == tablesize); } TEST_CASE("tables/iterators", "Testing the use of iteratrs to get values from a lua table") { sol::state lua; lua.open_libraries(sol::lib::base); lua.safe_script( "arr = {\n" "[0] = \"Hi\",\n" "[1] = 123.45,\n" "[2] = \"String value\",\n" // Does nothing //"[3] = nil,\n" //"[nil] = 3,\n" "[\"WOOF\"] = 123,\n" "}"); sol::table tbl = lua["arr"]; std::size_t tablesize = 4; std::size_t iterations = 0; int begintop = 0; int endtop = 0; { test_stack_guard s(lua.lua_state(), begintop, endtop); for (auto& kvp : tbl) { [&iterations](sol::object key, sol::object value) { ++iterations; sol::type keytype = key.get_type(); switch (keytype) { case sol::type::number: switch (key.as()) { case 0: REQUIRE((value.as() == "Hi")); break; case 1: REQUIRE((value.as() == 123.45)); break; case 2: REQUIRE((value.as() == "String value")); break; case 3: REQUIRE((value.is())); break; } break; case sol::type::string: if (key.as() == "WOOF") { REQUIRE((value.as() == 123)); } break; case sol::type::lua_nil: REQUIRE((value.as() == 3)); break; default: break; } }(kvp.first, kvp.second); } } REQUIRE(begintop == endtop); REQUIRE(iterations == tablesize); } TEST_CASE("tables/pairs_iterators", "check that pairs()-style iteration works for sol::table types") { void* ptr = reinterpret_cast(static_cast(0x02)); auto verify_key_value = [&ptr](sol::object& key, sol::object& value) { switch (key.get_type()) { case sol::type::lightuserdata: REQUIRE(key.as() == ptr); REQUIRE(value.as() == "bleat"); break; case sol::type::number: REQUIRE(key.as() == 1); REQUIRE(value.as() == "bark"); break; case sol::type::string: REQUIRE(key.as() == "hi"); REQUIRE(value.as() == "meow"); break; default: REQUIRE(false); break; } }; SECTION("manual iterator") { SECTION("normal table") { int begintop = 0, endtop = 0; sol::state lua; test_stack_guard g(lua.lua_state(), begintop, endtop); lua.open_libraries(sol::lib::base); lua["t"] = sol::lua_value(lua, { { "hi", "meow" }, { 1, "bark" }, { ptr, "bleat" } }); sol::table t = lua["t"]; { int begintop2 = 0, endtop2 = 0; test_stack_guard g2(lua.lua_state(), begintop2, endtop2); auto first = sol::pairs_iterator(t); auto last = sol::pairs_sentinel(); int index = 0; for (; first != last; ++first, ++index) { std::pair& key_value_pair = *first; verify_key_value(key_value_pair.first, key_value_pair.second); REQUIRE(first.index() == index); } } } SECTION("with pairs metamethod") { sol::state lua; int begintop = 0, endtop = 0; test_stack_guard g(lua.lua_state(), begintop, endtop); lua.open_libraries(sol::lib::base); lua["t"] = sol::lua_value(lua, { { "hi", "meow" }, { 1, "bark" }, { ptr, "bleat" } }); sol::table t = lua["t"]; sol::table mt = lua.create_table(); mt[sol::meta_function::pairs] = my_custom_pairs; t[sol::metatable_key] = mt; { auto first = sol::pairs_iterator(t); auto last = sol::pairs_sentinel(); int index = 0; int begintop2 = 0, endtop2 = 0; test_stack_guard g2(lua.lua_state(), begintop2, endtop2); for (; first != last; ++first, ++index) { std::pair& key_value_pair = *first; verify_key_value(key_value_pair.first, key_value_pair.second); REQUIRE(first.index() == index); } } } SECTION("with no global next function available") { int begintop = 0, endtop = 0; sol::state lua; test_stack_guard g(lua.lua_state(), begintop, endtop); lua["t"] = sol::lua_value(lua, { { "hi", "meow" }, { 1, "bark" }, { ptr, "bleat" } }); sol::table t = lua["t"]; { int begintop2 = 0, endtop2 = 0; test_stack_guard g2(lua.lua_state(), begintop2, endtop2); auto first = sol::pairs_iterator(t); auto last = sol::pairs_sentinel(); int index = 0; lua.open_libraries(sol::lib::base); for (; first != last; ++first, ++index) { std::pair& key_value_pair = *first; verify_key_value(key_value_pair.first, key_value_pair.second); REQUIRE(first.index() == index); } } } } SECTION("ranged for") { SECTION("normal table") { int begintop = 0, endtop = 0; sol::state lua; test_stack_guard g(lua.lua_state(), begintop, endtop); lua.open_libraries(sol::lib::base); lua["t"] = sol::lua_value(lua, { { "hi", "meow" }, { 1, "bark" }, { ptr, "bleat" } }); sol::table t = lua["t"]; { int begintop2 = 0, endtop2 = 0; test_stack_guard g2(lua.lua_state(), begintop2, endtop2); for (auto& key_value_pair : t.pairs()) { verify_key_value(key_value_pair.first, key_value_pair.second); } } } SECTION("with pairs metamethod") { int begintop = 0, endtop = 0; sol::state lua; test_stack_guard g(lua.lua_state(), begintop, endtop); lua.open_libraries(sol::lib::base); lua["t"] = sol::lua_value(lua, { { "hi", "meow" }, { 1, "bark" }, { ptr, "bleat" } }); sol::table t = lua["t"]; sol::table mt = lua.create_table(); mt[sol::meta_function::pairs] = my_custom_pairs; t[sol::metatable_key] = mt; { int begintop2 = 0, endtop2 = 0; test_stack_guard g2(lua.lua_state(), begintop2, endtop2); for (auto& key_value_pair : t.pairs()) { verify_key_value(key_value_pair.first, key_value_pair.second); } } } SECTION("with no global next function available") { int begintop = 0, endtop = 0; sol::state lua; test_stack_guard g(lua.lua_state(), begintop, endtop); lua["t"] = sol::lua_value(lua, { { "hi", "meow" }, { 1, "bark" }, { ptr, "bleat" } }); sol::table t = lua["t"]; { int begintop2 = 0, endtop2 = 0; test_stack_guard g2(lua.lua_state(), begintop2, endtop2); int index = 0; for (auto& key_value_pair : t.pairs()) { if (index == 0) { lua.open_libraries(sol::lib::base); } verify_key_value(key_value_pair.first, key_value_pair.second); ++index; } } } } }