// -*- C++ -*- //===----------------------------------------------------------------------===// // // The LLVM Compiler Infrastructure // // This file is dual licensed under the MIT and the University of Illinois Open // Source Licenses. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // UNSUPPORTED: c++98, c++03, c++11, c++14 // // template // constexpr bool // operator==(variant const&, variant const&) noexcept; // // template // constexpr bool // operator!=(variant const&, variant const&) noexcept; // // template // constexpr bool // operator<(variant const&, variant const&) noexcept; // // template // constexpr bool // operator>(variant const&, variant const&) noexcept; // // template // constexpr bool // operator<=(variant const&, variant const&) noexcept; // // template // constexpr bool // operator>=(variant const&, variant const&) noexcept; #include #include #include #include #include "test_macros.h" #ifndef TEST_HAS_NO_EXCEPTIONS struct MakeEmptyT { MakeEmptyT() = default; MakeEmptyT(MakeEmptyT &&) { throw 42; } MakeEmptyT &operator=(MakeEmptyT &&) { throw 42; } }; inline bool operator==(const MakeEmptyT &, const MakeEmptyT &) { assert(false); return false; } inline bool operator!=(const MakeEmptyT &, const MakeEmptyT &) { assert(false); return false; } inline bool operator<(const MakeEmptyT &, const MakeEmptyT &) { assert(false); return false; } inline bool operator<=(const MakeEmptyT &, const MakeEmptyT &) { assert(false); return false; } inline bool operator>(const MakeEmptyT &, const MakeEmptyT &) { assert(false); return false; } inline bool operator>=(const MakeEmptyT &, const MakeEmptyT &) { assert(false); return false; } template void makeEmpty(Variant &v) { Variant v2(std::in_place_type); try { v = std::move(v2); assert(false); } catch (...) { assert(v.valueless_by_exception()); } } #endif // TEST_HAS_NO_EXCEPTIONS struct MyBool { bool value; constexpr explicit MyBool(bool v) : value(v) {} constexpr operator bool() const noexcept { return value; } }; struct ComparesToMyBool { int value = 0; }; inline constexpr MyBool operator==(const ComparesToMyBool& LHS, const ComparesToMyBool& RHS) noexcept { return MyBool(LHS.value == RHS.value); } inline constexpr MyBool operator!=(const ComparesToMyBool& LHS, const ComparesToMyBool& RHS) noexcept { return MyBool(LHS.value != RHS.value); } inline constexpr MyBool operator<(const ComparesToMyBool& LHS, const ComparesToMyBool& RHS) noexcept { return MyBool(LHS.value < RHS.value); } inline constexpr MyBool operator<=(const ComparesToMyBool& LHS, const ComparesToMyBool& RHS) noexcept { return MyBool(LHS.value <= RHS.value); } inline constexpr MyBool operator>(const ComparesToMyBool& LHS, const ComparesToMyBool& RHS) noexcept { return MyBool(LHS.value > RHS.value); } inline constexpr MyBool operator>=(const ComparesToMyBool& LHS, const ComparesToMyBool& RHS) noexcept { return MyBool(LHS.value >= RHS.value); } template void test_equality_basic() { { using V = std::variant; constexpr V v1(std::in_place_index<0>, T1{42}); constexpr V v2(std::in_place_index<0>, T1{42}); static_assert(v1 == v2, ""); static_assert(v2 == v1, ""); static_assert(!(v1 != v2), ""); static_assert(!(v2 != v1), ""); } { using V = std::variant; constexpr V v1(std::in_place_index<0>, T1{42}); constexpr V v2(std::in_place_index<0>, T1{43}); static_assert(!(v1 == v2), ""); static_assert(!(v2 == v1), ""); static_assert(v1 != v2, ""); static_assert(v2 != v1, ""); } { using V = std::variant; constexpr V v1(std::in_place_index<0>, T1{42}); constexpr V v2(std::in_place_index<1>, T2{42}); static_assert(!(v1 == v2), ""); static_assert(!(v2 == v1), ""); static_assert(v1 != v2, ""); static_assert(v2 != v1, ""); } { using V = std::variant; constexpr V v1(std::in_place_index<1>, T2{42}); constexpr V v2(std::in_place_index<1>, T2{42}); static_assert(v1 == v2, ""); static_assert(v2 == v1, ""); static_assert(!(v1 != v2), ""); static_assert(!(v2 != v1), ""); } } void test_equality() { test_equality_basic(); test_equality_basic(); test_equality_basic(); test_equality_basic(); #ifndef TEST_HAS_NO_EXCEPTIONS { using V = std::variant; V v1; V v2; makeEmpty(v2); assert(!(v1 == v2)); assert(!(v2 == v1)); assert(v1 != v2); assert(v2 != v1); } { using V = std::variant; V v1; makeEmpty(v1); V v2; assert(!(v1 == v2)); assert(!(v2 == v1)); assert(v1 != v2); assert(v2 != v1); } { using V = std::variant; V v1; makeEmpty(v1); V v2; makeEmpty(v2); assert(v1 == v2); assert(v2 == v1); assert(!(v1 != v2)); assert(!(v2 != v1)); } #endif } template constexpr bool test_less(const Var &l, const Var &r, bool expect_less, bool expect_greater) { static_assert(std::is_same_v, ""); static_assert(std::is_same_v, ""); static_assert(std::is_same_v r), bool>, ""); static_assert(std::is_same_v= r), bool>, ""); return ((l < r) == expect_less) && (!(l >= r) == expect_less) && ((l > r) == expect_greater) && (!(l <= r) == expect_greater); } template void test_relational_basic() { { // same index, same value using V = std::variant; constexpr V v1(std::in_place_index<0>, T1{1}); constexpr V v2(std::in_place_index<0>, T1{1}); static_assert(test_less(v1, v2, false, false), ""); } { // same index, value < other_value using V = std::variant; constexpr V v1(std::in_place_index<0>, T1{0}); constexpr V v2(std::in_place_index<0>, T1{1}); static_assert(test_less(v1, v2, true, false), ""); } { // same index, value > other_value using V = std::variant; constexpr V v1(std::in_place_index<0>, T1{1}); constexpr V v2(std::in_place_index<0>, T1{0}); static_assert(test_less(v1, v2, false, true), ""); } { // LHS.index() < RHS.index() using V = std::variant; constexpr V v1(std::in_place_index<0>, T1{0}); constexpr V v2(std::in_place_index<1>, T2{0}); static_assert(test_less(v1, v2, true, false), ""); } { // LHS.index() > RHS.index() using V = std::variant; constexpr V v1(std::in_place_index<1>, T2{0}); constexpr V v2(std::in_place_index<0>, T1{0}); static_assert(test_less(v1, v2, false, true), ""); } } void test_relational() { test_relational_basic(); test_relational_basic(); test_relational_basic(); test_relational_basic(); #ifndef TEST_HAS_NO_EXCEPTIONS { // LHS.index() < RHS.index(), RHS is empty using V = std::variant; V v1; V v2; makeEmpty(v2); assert(test_less(v1, v2, false, true)); } { // LHS.index() > RHS.index(), LHS is empty using V = std::variant; V v1; makeEmpty(v1); V v2; assert(test_less(v1, v2, true, false)); } { // LHS.index() == RHS.index(), LHS and RHS are empty using V = std::variant; V v1; makeEmpty(v1); V v2; makeEmpty(v2); assert(test_less(v1, v2, false, false)); } #endif } int main() { test_equality(); test_relational(); }