#define SOL_CHECK_ARGUMENTS #include #include #include #include #include #include #include #include #include #include #include #include template void sequence_container_check(sol::state& lua, T& items) { { auto r1 = lua.script(R"( for i=1,#c do v = c[i] assert(v == (i + 10)) end )", sol::script_pass_on_error); REQUIRE(r1.valid()); } { auto ffind = [&]() { auto r1 = lua.script("i1 = c:find(11)", sol::script_pass_on_error); REQUIRE(r1.valid()); auto r2 = lua.script("i2 = c:find(14)", sol::script_pass_on_error); REQUIRE(r2.valid()); }; auto fget = [&]() { auto r1 = lua.script("v1 = c:get(1)", sol::script_pass_on_error); REQUIRE(r1.valid()); auto r2 = lua.script("v2 = c:get(3)", sol::script_pass_on_error); REQUIRE(r2.valid()); }; auto fset = [&]() { auto r1 = lua.script("c:set(2, 20)", sol::script_pass_on_error); REQUIRE(r1.valid()); auto r2 = lua.script("c:set(6, 16)", sol::script_pass_on_error); REQUIRE(r2.valid()); }; auto ferase = [&]() { auto r5 = lua.script("s1 = #c", sol::script_pass_on_error); REQUIRE(r5.valid()); auto r1 = lua.script("c:erase(i1)", sol::script_pass_on_error); REQUIRE(r1.valid()); auto r3 = lua.script("s2 = #c", sol::script_pass_on_error); REQUIRE(r3.valid()); auto r2 = lua.script("c:erase(i2)", sol::script_pass_on_error); REQUIRE(r2.valid()); auto r4 = lua.script("s3 = #c", sol::script_pass_on_error); REQUIRE(r4.valid()); }; auto fadd = [&]() { auto r = lua.script("c:add(17)", sol::script_pass_on_error); REQUIRE(r.valid()); }; auto fopset = [&]() { auto r = lua.script("c[#c + 1] = 18", sol::script_pass_on_error); REQUIRE(r.valid()); }; auto fopget = [&]() { auto r = lua.script("v3 = c[#c]", sol::script_pass_on_error); REQUIRE(r.valid()); }; REQUIRE_NOTHROW(ffind()); REQUIRE_NOTHROW(fget()); REQUIRE_NOTHROW(fset()); REQUIRE_NOTHROW(ferase()); REQUIRE_NOTHROW(fadd()); REQUIRE_NOTHROW(fopset()); REQUIRE_NOTHROW(fopget()); } auto backit = items.begin(); std::size_t len = 0; { auto e = items.end(); auto last = backit; for (; backit != e; ++backit, ++len) { if (backit == e) { break; } last = backit; } backit = last; } const int& first = *items.begin(); const int& last = *backit; std::size_t i1 = lua["i1"]; std::size_t i2 = lua["i2"]; std::size_t s1 = lua["s1"]; std::size_t s2 = lua["s2"]; std::size_t s3 = lua["s3"]; int v1 = lua["v1"]; int v2 = lua["v2"]; int v3 = lua["v3"]; int values[6] = { 20, 13, 14, 16, 17, 18 }; { std::size_t idx = 0; for (const auto& i : items) { const auto& v = values[idx]; REQUIRE((i == v)); ++idx; } } REQUIRE((s1 == 6)); REQUIRE((s2 == 5)); REQUIRE((s3 == 4)); REQUIRE((len == 6)); REQUIRE((first == 20)); REQUIRE((last == 18)); REQUIRE((i1 == 1)); REQUIRE((i2 == 4)); REQUIRE((v1 == 11)); REQUIRE((v2 == 13)); REQUIRE((v3 == 18)); } template void ordered_container_check(sol::state& lua, T& items) { { auto r1 = lua.script(R"( for i=1,#c do v = c[(i + 10)] assert(v == (i + 10)) end )", sol::script_pass_on_error); REQUIRE(r1.valid()); } { auto ffind = [&]() { auto r1 = lua.script("i1 = c:find(11)", sol::script_pass_on_error); REQUIRE(r1.valid()); auto r2 = lua.script("i2 = c:find(14)", sol::script_pass_on_error); REQUIRE(r2.valid()); }; auto fget = [&]() { auto r1 = lua.script("v1 = c:get(11)", sol::script_pass_on_error); REQUIRE(r1.valid()); auto r2 = lua.script("v2 = c:get(13)", sol::script_pass_on_error); REQUIRE(r2.valid()); }; auto fset = [&]() { auto r1 = lua.script("c:set(20)", sol::script_pass_on_error); REQUIRE(r1.valid()); auto r2 = lua.script("c:set(16)", sol::script_pass_on_error); REQUIRE(r2.valid()); }; auto ferase = [&]() { auto r5 = lua.script("s1 = #c", sol::script_pass_on_error); REQUIRE(r5.valid()); auto r1 = lua.script("c:erase(i1)", sol::script_pass_on_error); REQUIRE(r1.valid()); auto r3 = lua.script("s2 = #c", sol::script_pass_on_error); REQUIRE(r3.valid()); auto r2 = lua.script("c:erase(i2)", sol::script_pass_on_error); REQUIRE(r2.valid()); auto r4 = lua.script("s3 = #c", sol::script_pass_on_error); REQUIRE(r4.valid()); }; auto fadd = [&]() { auto r = lua.script("c:add(17)", sol::script_pass_on_error); REQUIRE(r.valid()); }; auto fopset = [&]() { auto r = lua.script("c[18] = true", sol::script_pass_on_error); REQUIRE(r.valid()); }; auto fopget = [&]() { auto r = lua.script("v3 = c[20]", sol::script_pass_on_error); REQUIRE(r.valid()); }; REQUIRE_NOTHROW(ffind()); REQUIRE_NOTHROW(fget()); REQUIRE_NOTHROW(fset()); REQUIRE_NOTHROW(ferase()); REQUIRE_NOTHROW(fadd()); REQUIRE_NOTHROW(fopset()); REQUIRE_NOTHROW(fopget()); } auto backit = items.begin(); std::size_t len = 0; { auto e = items.end(); auto last = backit; for (; backit != e; ++backit, ++len) { if (backit == e) { break; } last = backit; } backit = last; } const int& first = *items.begin(); const int& last = *backit; int i1 = lua["i1"]; int i2 = lua["i2"]; std::size_t s1 = lua["s1"]; std::size_t s2 = lua["s2"]; std::size_t s3 = lua["s3"]; int v1 = lua["v1"]; int v2 = lua["v2"]; int v3 = lua["v3"]; int values[] = { 12, 13, 15, 16, 17, 18, 20 }; { std::size_t idx = 0; for (const auto& i : items) { const auto& v = values[idx]; REQUIRE((i == v)); ++idx; } } REQUIRE((s1 == 7)); REQUIRE((s2 == 6)); REQUIRE((s3 == 5)); REQUIRE((len == 7)); REQUIRE((first == 12)); REQUIRE((last == 20)); REQUIRE((i1 == 11)); REQUIRE((i2 == 14)); REQUIRE((v1 == 11)); REQUIRE((v2 == 13)); REQUIRE((v3 == 20)); } template void unordered_container_check(sol::state& lua, T& items) { { auto ffind = [&]() { auto r1 = lua.script("i1 = c:find(11)", sol::script_pass_on_error); REQUIRE(r1.valid()); auto r2 = lua.script("i2 = c:find(14)", sol::script_pass_on_error); REQUIRE(r2.valid()); }; auto fget = [&]() { auto r1 = lua.script("v1 = c:get(11)", sol::script_pass_on_error); REQUIRE(r1.valid()); auto r2 = lua.script("v2 = c:get(13)", sol::script_pass_on_error); REQUIRE(r2.valid()); }; auto fset = [&]() { auto r1 = lua.script("c:set(20)", sol::script_pass_on_error); REQUIRE(r1.valid()); auto r2 = lua.script("c:set(16)", sol::script_pass_on_error); REQUIRE(r2.valid()); }; auto ferase = [&]() { auto r5 = lua.script("s1 = #c", sol::script_pass_on_error); REQUIRE(r5.valid()); auto r1 = lua.script("c:erase(i1)", sol::script_pass_on_error); REQUIRE(r1.valid()); auto r3 = lua.script("s2 = #c", sol::script_pass_on_error); REQUIRE(r3.valid()); auto r2 = lua.script("c:erase(i2)", sol::script_pass_on_error); REQUIRE(r2.valid()); auto r4 = lua.script("s3 = #c", sol::script_pass_on_error); REQUIRE(r4.valid()); }; auto fadd = [&]() { auto r = lua.script("c:add(17)", sol::script_pass_on_error); REQUIRE(r.valid()); }; auto fopset = [&]() { auto r = lua.script("c[18] = true", sol::script_pass_on_error); REQUIRE(r.valid()); }; auto fopget = [&]() { auto r = lua.script("v3 = c[20]", sol::script_pass_on_error); REQUIRE(r.valid()); }; REQUIRE_NOTHROW(ffind()); REQUIRE_NOTHROW(fget()); REQUIRE_NOTHROW(fset()); REQUIRE_NOTHROW(ferase()); REQUIRE_NOTHROW(fadd()); REQUIRE_NOTHROW(fopset()); REQUIRE_NOTHROW(fopget()); } std::size_t len = items.size(); int i1 = lua["i1"]; int i2 = lua["i2"]; std::size_t s1 = lua["s1"]; std::size_t s2 = lua["s2"]; std::size_t s3 = lua["s3"]; int v1 = lua["v1"]; int v2 = lua["v2"]; int v3 = lua["v3"]; int values[] = { 12, 13, 15, 16, 17, 18, 20 }; { std::size_t idx = 0; for (const auto& i : items) { const auto& v = values[idx]; auto it = items.find(v); REQUIRE((it != items.cend())); REQUIRE((*it == v)); ++idx; } } REQUIRE((s1 == 7)); REQUIRE((s2 == 6)); REQUIRE((s3 == 5)); REQUIRE((len == 7)); REQUIRE((i1 == 11)); REQUIRE((i2 == 14)); REQUIRE((v1 == 11)); REQUIRE((v2 == 13)); REQUIRE((v3 == 20)); } template void associative_ordered_container_check(sol::state& lua, T& items) { { auto r1 = lua.script(R"( for i=1,#c do v = c[(i + 10)] assert(v == (i + 20)) end )", sol::script_pass_on_error); REQUIRE(r1.valid()); } { auto ffind = [&]() { auto r1 = lua.script("i1 = c:find(11)", sol::script_pass_on_error); REQUIRE(r1.valid()); auto r2 = lua.script("i2 = c:find(14)", sol::script_pass_on_error); REQUIRE(r2.valid()); }; auto fget = [&]() { auto r1 = lua.script("v1 = c:get(11)", sol::script_pass_on_error); REQUIRE(r1.valid()); auto r2 = lua.script("v2 = c:get(13)", sol::script_pass_on_error); REQUIRE(r2.valid()); }; auto fset = [&]() { auto r1 = lua.script("c:set(20, 30)", sol::script_pass_on_error); REQUIRE(r1.valid()); auto r2 = lua.script("c:set(16, 26)", sol::script_pass_on_error); REQUIRE(r2.valid()); auto r3 = lua.script("c:set(12, 31)", sol::script_pass_on_error); REQUIRE(r3.valid()); }; auto ferase = [&]() { auto r5 = lua.script("s1 = #c", sol::script_pass_on_error); REQUIRE(r5.valid()); auto r1 = lua.script("c:erase(11)", sol::script_pass_on_error); REQUIRE(r1.valid()); auto r3 = lua.script("s2 = #c", sol::script_pass_on_error); REQUIRE(r3.valid()); auto r2 = lua.script("c:erase(14)", sol::script_pass_on_error); REQUIRE(r2.valid()); auto r4 = lua.script("s3 = #c", sol::script_pass_on_error); REQUIRE(r4.valid()); }; auto fadd = [&]() { auto r = lua.script("c:add(17, 27)", sol::script_pass_on_error); REQUIRE(r.valid()); }; auto fopset = [&]() { auto r = lua.script("c[18] = 28", sol::script_pass_on_error); REQUIRE(r.valid()); }; auto fopget = [&]() { auto r = lua.script("v3 = c[20]", sol::script_pass_on_error); REQUIRE(r.valid()); }; REQUIRE_NOTHROW(ffind()); REQUIRE_NOTHROW(fget()); REQUIRE_NOTHROW(fset()); REQUIRE_NOTHROW(ferase()); REQUIRE_NOTHROW(fadd()); REQUIRE_NOTHROW(fopset()); REQUIRE_NOTHROW(fopget()); } auto backit = items.begin(); std::size_t len = 0; { auto e = items.end(); auto last = backit; for (; backit != e; ++backit, ++len) { if (backit == e) { break; } last = backit; } backit = last; } const std::pair& first = *items.begin(); const std::pair& last = *backit; int i1 = lua["i1"]; int i2 = lua["i2"]; std::size_t s1 = lua["s1"]; std::size_t s2 = lua["s2"]; std::size_t s3 = lua["s3"]; int v1 = lua["v1"]; int v2 = lua["v2"]; int v3 = lua["v3"]; std::pair values[] = { { 12, 31 }, { 13, 23 }, { 15, 25 }, { 16, 26 }, { 17, 27 }, { 18, 28 }, { 20, 30 } }; { std::size_t idx = 0; for (const auto& i : items) { const auto& v = values[idx]; REQUIRE((i == v)); ++idx; } } REQUIRE((s1 == 7)); REQUIRE((s2 == 6)); REQUIRE((s3 == 5)); REQUIRE((len == 7)); REQUIRE((first.first == 12)); REQUIRE((last.first == 20)); REQUIRE((first.second == 31)); REQUIRE((last.second == 30)); REQUIRE((i1 == 21)); REQUIRE((i2 == 24)); REQUIRE((v1 == 21)); REQUIRE((v2 == 23)); REQUIRE((v3 == 30)); } template void associative_unordered_container_check(sol::state& lua, T& items) { { auto ffind = [&]() { auto r1 = lua.script("i1 = c:find(11)", sol::script_pass_on_error); REQUIRE(r1.valid()); auto r2 = lua.script("i2 = c:find(14)", sol::script_pass_on_error); REQUIRE(r2.valid()); }; auto fget = [&]() { auto r1 = lua.script("v1 = c:get(11)", sol::script_pass_on_error); REQUIRE(r1.valid()); auto r2 = lua.script("v2 = c:get(13)", sol::script_pass_on_error); REQUIRE(r2.valid()); }; auto fset = [&]() { auto r1 = lua.script("c:set(20, 30)", sol::script_pass_on_error); REQUIRE(r1.valid()); auto r2 = lua.script("c:set(16, 26)", sol::script_pass_on_error); REQUIRE(r2.valid()); auto r3 = lua.script("c:set(12, 31)", sol::script_pass_on_error); REQUIRE(r3.valid()); }; auto ferase = [&]() { auto r5 = lua.script("s1 = #c", sol::script_pass_on_error); REQUIRE(r5.valid()); auto r1 = lua.script("c:erase(11)", sol::script_pass_on_error); REQUIRE(r1.valid()); auto r3 = lua.script("s2 = #c", sol::script_pass_on_error); REQUIRE(r3.valid()); auto r2 = lua.script("c:erase(14)", sol::script_pass_on_error); REQUIRE(r2.valid()); auto r4 = lua.script("s3 = #c", sol::script_pass_on_error); REQUIRE(r4.valid()); }; auto fadd = [&]() { auto r = lua.script("c:add(17, 27)", sol::script_pass_on_error); REQUIRE(r.valid()); }; auto fopset = [&]() { auto r = lua.script("c[18] = 28", sol::script_pass_on_error); REQUIRE(r.valid()); }; auto fopget = [&]() { auto r = lua.script("v3 = c[20]", sol::script_pass_on_error); REQUIRE(r.valid()); }; REQUIRE_NOTHROW(ffind()); REQUIRE_NOTHROW(fget()); REQUIRE_NOTHROW(fset()); REQUIRE_NOTHROW(ferase()); REQUIRE_NOTHROW(fadd()); REQUIRE_NOTHROW(fopset()); REQUIRE_NOTHROW(fopget()); } std::size_t len = items.size(); int i1 = lua["i1"]; int i2 = lua["i2"]; std::size_t s1 = lua["s1"]; std::size_t s2 = lua["s2"]; std::size_t s3 = lua["s3"]; int v1 = lua["v1"]; int v2 = lua["v2"]; int v3 = lua["v3"]; std::pair values[] = { { 12, 31 }, { 13, 23 }, { 15, 25 }, { 16, 26 }, { 17, 27 }, { 18, 28 }, { 20, 30 } }; std::pair item_values[7]; { std::size_t idx = 0; for (const auto& i : items) { const auto& v = values[idx]; auto it = items.find(v.first); REQUIRE((it != items.cend())); REQUIRE((it->second == v.second)); ++idx; } } REQUIRE((s1 == 7)); REQUIRE((s2 == 6)); REQUIRE((s3 == 5)); REQUIRE((len == 7)); REQUIRE((i1 == 21)); REQUIRE((i2 == 24)); REQUIRE((v1 == 21)); REQUIRE((v2 == 23)); REQUIRE((v3 == 30)); } template void fixed_container_check(sol::state& lua, T& items) { { auto r1 = lua.script(R"( for i=1,#c do v = c[i] assert(v == (i + 10)) end )", sol::script_pass_on_error); REQUIRE(r1.valid()); } { auto ffind = [&]() { auto r1 = lua.script("i1 = c:find(11)", sol::script_pass_on_error); REQUIRE(r1.valid()); auto r2 = lua.script("i2 = c:find(14)", sol::script_pass_on_error); REQUIRE(r2.valid()); }; auto fget = [&]() { auto r1 = lua.script("v1 = c:get(2)", sol::script_pass_on_error); REQUIRE(r1.valid()); auto r2 = lua.script("v2 = c:get(5)", sol::script_pass_on_error); REQUIRE(r2.valid()); }; auto fset = [&]() { auto r1 = lua.script("c:set(2, 20)", sol::script_pass_on_error); REQUIRE(r1.valid()); auto r2 = lua.script("c:set(6, 16)", sol::script_pass_on_error); REQUIRE_FALSE(r2.valid()); }; auto ferase = [&]() { auto r5 = lua.script("s1 = #c", sol::script_pass_on_error); REQUIRE(r5.valid()); auto r1 = lua.script("c:erase(i1)", sol::script_pass_on_error); REQUIRE_FALSE(r1.valid()); auto r3 = lua.script("s2 = #c", sol::script_pass_on_error); REQUIRE(r3.valid()); auto r2 = lua.script("c:erase(i2)", sol::script_pass_on_error); REQUIRE_FALSE(r2.valid()); auto r4 = lua.script("s3 = #c", sol::script_pass_on_error); REQUIRE(r4.valid()); }; auto fadd = [&]() { auto r = lua.script("c:add(17)", sol::script_pass_on_error); REQUIRE_FALSE(r.valid()); }; auto fopset = [&]() { auto r = lua.script("c[5] = 18", sol::script_pass_on_error); REQUIRE(r.valid()); }; auto fopget = [&]() { auto r = lua.script("v3 = c[4]", sol::script_pass_on_error); REQUIRE(r.valid()); }; REQUIRE_NOTHROW(ffind()); REQUIRE_NOTHROW(fget()); REQUIRE_NOTHROW(fset()); REQUIRE_NOTHROW(ferase()); REQUIRE_NOTHROW(fadd()); REQUIRE_NOTHROW(fopset()); REQUIRE_NOTHROW(fopget()); } auto backit = std::begin(items); std::size_t len = 0; { auto e = std::end(items); auto last = backit; for (; backit != e; ++backit, ++len) { if (backit == e) { break; } last = backit; } backit = last; } const int& first = *std::begin(items); const int& last = *backit; int i1 = lua["i1"]; int i2 = lua["i2"]; std::size_t s1 = lua["s1"]; std::size_t s2 = lua["s2"]; std::size_t s3 = lua["s3"]; int v1 = lua["v1"]; int v2 = lua["v2"]; int v3 = lua["v3"]; int values[] = { 11, 20, 13, 14, 18 }; { std::size_t idx = 0; for (const auto& i : items) { const auto& v = values[idx]; REQUIRE((i == v)); ++idx; } } REQUIRE((first == 11)); REQUIRE((last == 18)); REQUIRE((s1 == 5)); REQUIRE((s2 == 5)); REQUIRE((s3 == 5)); REQUIRE((len == 5)); REQUIRE((i1 == 1)); REQUIRE((i2 == 4)); REQUIRE((v1 == 12)); REQUIRE((v2 == 15)); REQUIRE((v3 == 14)); } TEST_CASE("containers/sequence containers", "check all of the functinos for every single container") { SECTION("vector") { sol::state lua; lua.open_libraries(sol::lib::base); std::vector items{ 11, 12, 13, 14, 15 }; lua["c"] = &items; sequence_container_check(lua, items); } SECTION("list") { sol::state lua; lua.open_libraries(sol::lib::base); std::list items{ 11, 12, 13, 14, 15 }; lua["c"] = &items; sequence_container_check(lua, items); } SECTION("forward_list") { sol::state lua; lua.open_libraries(sol::lib::base); std::forward_list items{ 11, 12, 13, 14, 15 }; lua["c"] = &items; sequence_container_check(lua, items); } SECTION("deque") { sol::state lua; lua.open_libraries(sol::lib::base); std::deque items{ 11, 12, 13, 14, 15 }; lua["c"] = &items; sequence_container_check(lua, items); } } TEST_CASE("containers/fixed containers", "check immutable container types") { SECTION("array") { sol::state lua; lua.open_libraries(sol::lib::base); std::array items{ 11, 12, 13, 14, 15 }; lua["c"] = &items; fixed_container_check(lua, items); } SECTION("array ref") { sol::state lua; lua.open_libraries(sol::lib::base); std::array items{ 11, 12, 13, 14, 15 }; lua["c"] = std::ref(items); fixed_container_check(lua, items); } SECTION("c array") { sol::state lua; lua.open_libraries(sol::lib::base); int items[5] = { 11, 12, 13, 14, 15 }; lua["c"] = &items; fixed_container_check(lua, items); } SECTION("c array ref") { sol::state lua; lua.open_libraries(sol::lib::base); int items[5] = { 11, 12, 13, 14, 15 }; lua["c"] = std::ref(items); fixed_container_check(lua, items); } } TEST_CASE("containers/ordered lookup containers", "check ordered container types") { SECTION("set") { sol::state lua; lua.open_libraries(sol::lib::base); std::set items{ 11, 12, 13, 14, 15 }; lua["c"] = &items; ordered_container_check(lua, items); } SECTION("multiset") { sol::state lua; lua.open_libraries(sol::lib::base); std::multiset items{ 11, 12, 13, 14, 15 }; lua["c"] = &items; ordered_container_check(lua, items); } } TEST_CASE("containers/unordered lookup containers", "check ordered container types") { SECTION("unordered_set") { sol::state lua; lua.open_libraries(sol::lib::base); std::unordered_set items{ 11, 12, 13, 14, 15 }; lua["c"] = &items; unordered_container_check(lua, items); } SECTION("unordered_multiset") { sol::state lua; lua.open_libraries(sol::lib::base); std::unordered_multiset items{ 11, 12, 13, 14, 15 }; lua["c"] = &items; unordered_container_check(lua, items); } } TEST_CASE("containers/associative ordered containers", "check associative (map) containers that are ordered fulfill basic functionality requirements") { SECTION("map") { sol::state lua; lua.open_libraries(sol::lib::base); std::map items{ { 11, 21 }, { 12, 22 }, { 13, 23 }, { 14, 24 }, { 15, 25 } }; lua["c"] = &items; associative_ordered_container_check(lua, items); } SECTION("multimap") { sol::state lua; lua.open_libraries(sol::lib::base); std::multimap items{ { 11, 21 }, { 12, 22 }, { 13, 23 }, { 14, 24 }, { 15, 25 } }; lua["c"] = &items; associative_ordered_container_check(lua, items); } } TEST_CASE("containers/associative unordered containers", "check associative (map) containers that are ordered that they fulfill basic functionality requirements") { SECTION("unordered_map") { sol::state lua; lua.open_libraries(sol::lib::base); std::unordered_map items{ { 11, 21 }, { 12, 22 }, { 13, 23 }, { 14, 24 }, { 15, 25 } }; lua["c"] = &items; associative_unordered_container_check(lua, items); } SECTION("unordered_multimap") { sol::state lua; lua.open_libraries(sol::lib::base); std::unordered_multimap items{ { 11, 21 }, { 12, 22 }, { 13, 23 }, { 14, 24 }, { 15, 25 } }; lua["c"] = &items; associative_unordered_container_check(lua, items); } } TEST_CASE("containers/auxiliary functions test", "make sure the manipulation functions are present and usable and working across various container types") { sol::state lua; lua.open_libraries(); lua.script(R"( function g (x) x:add(20) end function h (x) x:add(20, 40) end function i (x) x:clear() end function sf (x,v) return x:find(v) end )"); // Have the function we // just defined in Lua sol::function g = lua["g"]; sol::function h = lua["h"]; sol::function i = lua["i"]; sol::function sf = lua["sf"]; // Set a global variable called // "arr" to be a vector of 5 lements lua["c_arr"] = std::array{ { 2, 4, 6, 8, 10 } }; lua["arr"] = std::vector{ 2, 4, 6, 8, 10 }; lua["map"] = std::map{ { 1 , 2 },{ 2, 4 },{ 3, 6 },{ 4, 8 },{ 5, 10 } }; lua["set"] = std::set{ 2, 4, 6, 8, 10 }; std::array& c_arr = lua["c_arr"]; std::vector& arr = lua["arr"]; std::map& map = lua["map"]; std::set& set = lua["set"]; REQUIRE(c_arr.size() == 5); REQUIRE(arr.size() == 5); REQUIRE(map.size() == 5); REQUIRE(set.size() == 5); g(lua["set"]); g(lua["arr"]); h(lua["map"]); REQUIRE(arr.size() == 6); REQUIRE(map.size() == 6); REQUIRE(set.size() == 6); { int r = sf(set, 8); REQUIRE(r == 8); sol::object rn = sf(set, 9); REQUIRE(rn == sol::nil); } { int r = sf(map, 3); REQUIRE(r == 6); sol::object rn = sf(map, 9); REQUIRE(rn == sol::nil); } i(lua["arr"]); i(lua["map"]); i(lua["set"]); REQUIRE(arr.empty()); REQUIRE(map.empty()); REQUIRE(set.empty()); REQUIRE_NOTHROW([&]() { lua.script(R"( c_arr[1] = 7 c_arr[2] = 7 c_arr[3] = 7 )"); }()); } TEST_CASE("containers/indices test", "test indices on fixed array types") { SECTION("zero index test") { sol::state lua; lua["c_arr"] = std::array{ { 2, 4, 6, 8, 10 } }; auto result = lua.safe_script(R"( c_arr[0] = 7 )", sol::script_pass_on_error); REQUIRE_FALSE(result.valid()); } SECTION("negative index test") { sol::state lua; lua["c_arr"] = std::array{ { 2, 4, 6, 8, 10 } }; auto result = lua.safe_script(R"( c_arr[-1] = 7 )", sol::script_pass_on_error); REQUIRE_FALSE(result.valid()); } }