// sol2 // The MIT License (MIT) // Copyright (c) 2013-2017 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 "test_sol.hpp" #include #include #include #include TEST_CASE("operators/default", "test that generic equality operators and all sorts of equality tests can be used") { struct T {}; struct U { int a; U(int x = 20) : a(x) { } bool operator==(const U& r) { return a == r.a; } }; struct V { int a; V(int x = 20) : a(x) { } bool operator==(const V& r) const { return a == r.a; } }; sol::state lua; lua.open_libraries(sol::lib::base); T t1; T& t2 = t1; T t3; U u1; U u2{ 30 }; U u3; U v1; U v2{ 30 }; U v3; lua["t1"] = &t1; lua["t2"] = &t2; lua["t3"] = &t3; lua["u1"] = &u1; lua["u2"] = &u2; lua["u3"] = &u3; lua["v1"] = &v1; lua["v2"] = &v2; lua["v3"] = &v3; SECTION("plain") { // Can only compare identity here { auto result1 = lua.safe_script("assert(t1 == t1)" "assert(t2 == t2)" "assert(t3 == t3)", sol::script_pass_on_error); REQUIRE(result1.valid()); } { auto result1 = lua.safe_script("assert(t1 == t2)" "assert(not (t1 == t3))" "assert(not (t2 == t3))", sol::script_pass_on_error); REQUIRE(result1.valid()); } // Object should compare equal to themselves // (and not invoke operator==; pointer test should be sufficient) { auto result1 = lua.safe_script("assert(u1 == u1)" "assert(u2 == u2)" "assert(u3 == u3)", sol::script_pass_on_error); REQUIRE(result1.valid()); } { auto result1 = lua.safe_script("assert(not (u1 == u2))" "assert(u1 == u3)" "assert(not (u2 == u3))", sol::script_pass_on_error); REQUIRE(result1.valid()); } // Object should compare equal to themselves // (and not invoke operator==; pointer test should be sufficient) { auto result1 = lua.safe_script("assert(v1 == v1)" "assert(v2 == v2)" "assert(v3 == v3)", sol::script_pass_on_error); REQUIRE(result1.valid()); } { auto result1 = lua.safe_script("assert(not (v1 == v2))" "assert(v1 == v3)" "assert(not (v2 == v3))", sol::script_pass_on_error); REQUIRE(result1.valid()); } } SECTION("regular") { lua.new_usertype("T"); lua.new_usertype("U"); lua.new_usertype("V"); // Can only compare identity here { auto result1 = lua.safe_script("assert(t1 == t1)" "assert(t2 == t2)" "assert(t3 == t3)", sol::script_pass_on_error); REQUIRE(result1.valid()); } { auto result1 = lua.safe_script("assert(t1 == t2)" "assert(not (t1 == t3))" "assert(not (t2 == t3))", sol::script_pass_on_error); REQUIRE(result1.valid()); } // Object should compare equal to themselves // (and not invoke operator==; pointer test should be sufficient) { auto result1 = lua.safe_script("assert(u1 == u1)" "assert(u2 == u2)" "assert(u3 == u3)", sol::script_pass_on_error); REQUIRE(result1.valid()); } { auto result1 = lua.safe_script("assert(not (u1 == u2))" "assert(u1 == u3)" "assert(not (u2 == u3))", sol::script_pass_on_error); REQUIRE(result1.valid()); } // Object should compare equal to themselves // (and not invoke operator==; pointer test should be sufficient) { auto result1 = lua.safe_script("assert(v1 == v1)" "assert(v2 == v2)" "assert(v3 == v3)", sol::script_pass_on_error); REQUIRE(result1.valid()); } { auto result1 = lua.safe_script("assert(not (v1 == v2))" "assert(v1 == v3)" "assert(not (v2 == v3))", sol::script_pass_on_error); REQUIRE(result1.valid()); } } SECTION("simple") { lua.new_simple_usertype("T"); lua.new_simple_usertype("U"); lua.new_simple_usertype("V"); // Can only compare identity here { auto result1 = lua.safe_script("assert(t1 == t1)" "assert(t2 == t2)" "assert(t3 == t3)", sol::script_pass_on_error); REQUIRE(result1.valid()); } { auto result1 = lua.safe_script("assert(t1 == t2)" "assert(not (t1 == t3))" "assert(not (t2 == t3))", sol::script_pass_on_error); REQUIRE(result1.valid()); } // Object should compare equal to themselves // (and not invoke operator==; pointer test should be sufficient) { auto result1 = lua.safe_script("assert(u1 == u1)" "assert(u2 == u2)" "assert(u3 == u3)", sol::script_pass_on_error); REQUIRE(result1.valid()); } { auto result1 = lua.safe_script("assert(not (u1 == u2))" "assert(u1 == u3)" "assert(not (u2 == u3))", sol::script_pass_on_error); REQUIRE(result1.valid()); } // Object should compare equal to themselves // (and not invoke operator==; pointer test should be sufficient) { auto result1 = lua.safe_script("assert(v1 == v1)" "assert(v2 == v2)" "assert(v3 == v3)", sol::script_pass_on_error); REQUIRE(result1.valid()); } { auto result1 = lua.safe_script("assert(not (v1 == v2))" "assert(v1 == v3)" "assert(not (v2 == v3))", sol::script_pass_on_error); REQUIRE(result1.valid()); } } } TEST_CASE("operators/call", "test call operator generation") { struct callable { int operator()(int a, std::string b) { return a + static_cast(b.length()); } }; sol::state lua; lua.open_libraries(sol::lib::base); SECTION("plain") { { lua.set("obj", callable()); auto result1 = lua.safe_script("v = obj(2, 'bark woof')", sol::script_pass_on_error); REQUIRE(result1.valid()); int v = lua["v"]; REQUIRE(v == 11); } } SECTION("regular") { lua.new_usertype("callable"); { auto result1 = lua.safe_script("obj = callable.new()\n" "v = obj(2, 'bark woof')", sol::script_pass_on_error); REQUIRE(result1.valid()); int v = lua["v"]; REQUIRE(v == 11); } } SECTION("simple") { lua.new_simple_usertype("callable"); { lua.safe_script("obj = callable.new()"); lua.safe_script("v = obj(2, 'bark woof')"); int v = lua["v"]; REQUIRE(v == 11); } } } struct stringable { static const void* last_print_ptr; }; const void* stringable::last_print_ptr = nullptr; std::ostream& operator<<(std::ostream& ostr, const stringable& o) { stringable::last_print_ptr = static_cast(&o); return ostr << "{ stringable, std::ostream! }"; } struct adl_stringable { static const void* last_print_ptr; }; const void* adl_stringable::last_print_ptr = nullptr; std::string to_string(const adl_stringable& o) { adl_stringable::last_print_ptr = static_cast(&o); return "{ adl_stringable, to_string! }"; } namespace inside { struct adl_stringable2 { static const void* last_print_ptr; }; const void* adl_stringable2::last_print_ptr = nullptr; std::string to_string(const adl_stringable2& o) { adl_stringable2::last_print_ptr = static_cast(&o); return "{ inside::adl_stringable2, inside::to_string! }"; } } // namespace inside struct member_stringable { static const void* last_print_ptr; std::string to_string() const { member_stringable::last_print_ptr = static_cast(this); return "{ member_stringable, to_string! }"; } }; const void* member_stringable::last_print_ptr = nullptr; TEST_CASE("operators/stringable", "test std::ostream stringability") { sol::state lua; lua.open_libraries(sol::lib::base); SECTION("plain") { { lua["obj"] = stringable(); auto result1 = lua.safe_script("print(obj)", sol::script_pass_on_error); REQUIRE(result1.valid()); stringable& obj = lua["obj"]; REQUIRE(stringable::last_print_ptr == &obj); } } SECTION("regular") { lua.new_usertype("stringable"); { auto result1 = lua.safe_script(R"(obj = stringable.new() print(obj) )", sol::script_pass_on_error); REQUIRE(result1.valid()); stringable& obj = lua["obj"]; REQUIRE(stringable::last_print_ptr == &obj); } } SECTION("simple") { lua.new_simple_usertype("stringable"); { auto result1 = lua.safe_script(R"(obj = stringable.new() print(obj))", sol::script_pass_on_error); REQUIRE(result1.valid()); stringable& obj = lua["obj"]; REQUIRE(stringable::last_print_ptr == &obj); } } } TEST_CASE("operators/adl_stringable", "test adl to_string stringability") { sol::state lua; lua.open_libraries(sol::lib::base); SECTION("plain") { { lua["obj"] = adl_stringable(); lua.safe_script("print(obj)"); adl_stringable& obj = lua["obj"]; REQUIRE(adl_stringable::last_print_ptr == &obj); } } SECTION("regular") { lua.new_usertype("stringable"); { lua["obj"] = adl_stringable(); lua.safe_script("print(obj)"); adl_stringable& obj = lua["obj"]; REQUIRE(adl_stringable::last_print_ptr == &obj); } } SECTION("simple") { lua.new_simple_usertype("stringable"); { lua.safe_script("obj = stringable.new()"); lua.safe_script("print(obj)"); adl_stringable& obj = lua["obj"]; REQUIRE(adl_stringable::last_print_ptr == &obj); } } } TEST_CASE("operators/inside::adl_stringable2", "test adl to_string stringability from inside a namespace") { sol::state lua; lua.open_libraries(sol::lib::base); SECTION("plain") { { lua["obj"] = inside::adl_stringable2(); lua.safe_script("print(obj)"); inside::adl_stringable2& obj = lua["obj"]; REQUIRE(inside::adl_stringable2::last_print_ptr == &obj); } } SECTION("regular") { lua.new_usertype("stringable"); { lua.safe_script("obj = stringable.new()"); lua.safe_script("print(obj)"); inside::adl_stringable2& obj = lua["obj"]; REQUIRE(inside::adl_stringable2::last_print_ptr == &obj); } } SECTION("simple") { lua.new_simple_usertype("stringable"); { lua.safe_script("obj = stringable.new()"); lua.safe_script("print(obj)"); inside::adl_stringable2& obj = lua["obj"]; REQUIRE(inside::adl_stringable2::last_print_ptr == &obj); } } } TEST_CASE("operators/member_stringable", "test member to_string stringability") { sol::state lua; lua.open_libraries(sol::lib::base); SECTION("plain") { { lua["obj"] = member_stringable(); lua.safe_script("print(obj)"); member_stringable& obj = lua["obj"]; REQUIRE(member_stringable::last_print_ptr == &obj); } } SECTION("regular") { lua.new_usertype("stringable"); { lua.safe_script("obj = stringable.new()"); lua.safe_script("print(obj)"); member_stringable& obj = lua["obj"]; REQUIRE(member_stringable::last_print_ptr == &obj); } } SECTION("simple") { lua.new_simple_usertype("stringable"); { lua.safe_script("obj = stringable.new()"); lua.safe_script("print(obj)"); member_stringable& obj = lua["obj"]; REQUIRE(member_stringable::last_print_ptr == &obj); } } } TEST_CASE("operators/container-like", "test that generic begin/end and iterator are automatically bound") { #if SOL_LUA_VERSION > 501 struct container { typedef int* iterator; typedef int value_type; value_type values[10]; container() { std::iota(begin(), end(), 1); } iterator begin() { return &values[0]; } iterator end() { return &values[0] + 10; } }; sol::state lua; lua.open_libraries(sol::lib::base); SECTION("plain") { { lua["obj"] = container(); lua.safe_script("i = 0 for k, v in pairs(obj) do i = i + 1 assert(k == v) end"); std::size_t i = lua["i"]; REQUIRE(i == 10); } } SECTION("regular") { lua.new_usertype("container"); { lua.safe_script("obj = container.new()"); lua.safe_script("i = 0 for k, v in pairs(obj) do i = i + 1 assert(k == v) end"); std::size_t i = lua["i"]; REQUIRE(i == 10); } } SECTION("simple") { lua.new_simple_usertype("container"); { lua.safe_script("obj = container.new()"); lua.safe_script("i = 0 for k, v in pairs(obj) do i = i + 1 assert(k == v) end"); std::size_t i = lua["i"]; REQUIRE(i == 10); } } #else SUCCEED(""); #endif } TEST_CASE("operators/length", "test that size is automatically bound to the length operator") { struct sizable { std::size_t size() const { return 6; } }; sol::state lua; lua.open_libraries(sol::lib::base); SECTION("plain") { { lua["obj"] = sizable(); lua.safe_script("s = #obj"); std::size_t s = lua["s"]; REQUIRE(s == 6); } } SECTION("regular") { lua.new_usertype("sizable"); { lua.safe_script("obj = sizable.new()"); lua.safe_script("s = #obj"); std::size_t s = lua["s"]; REQUIRE(s == 6); } } SECTION("simple") { lua.new_simple_usertype("sizable"); { lua.safe_script("obj = sizable.new()"); lua.safe_script("s = #obj"); std::size_t s = lua["s"]; REQUIRE(s == 6); } } }