//===----------------------------------------------------------------------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// // UNSUPPORTED: c++03, c++11, c++14, c++17, c++20 // constexpr expected& operator=(const expected& rhs); // // Effects: // - If this->has_value() && rhs.has_value() is true, equivalent to val = *rhs. // - Otherwise, if this->has_value() is true, equivalent to: // reinit-expected(unex, val, rhs.error()) // - Otherwise, if rhs.has_value() is true, equivalent to: // reinit-expected(val, unex, *rhs) // - Otherwise, equivalent to unex = rhs.error(). // // - Then, if no exception was thrown, equivalent to: has_val = rhs.has_value(); return *this; // // Returns: *this. // // Remarks: This operator is defined as deleted unless: // - is_copy_assignable_v is true and // - is_copy_constructible_v is true and // - is_copy_assignable_v is true and // - is_copy_constructible_v is true and // - is_nothrow_move_constructible_v || is_nothrow_move_constructible_v is true. #include #include #include #include #include #include "../../types.h" #include "test_macros.h" struct NotCopyConstructible { NotCopyConstructible(const NotCopyConstructible&) = delete; NotCopyConstructible& operator=(const NotCopyConstructible&) = default; }; struct NotCopyAssignable { NotCopyAssignable(const NotCopyAssignable&) = default; NotCopyAssignable& operator=(const NotCopyAssignable&) = delete; }; struct MoveMayThrow { MoveMayThrow(MoveMayThrow const&) = default; MoveMayThrow& operator=(const MoveMayThrow&) = default; MoveMayThrow(MoveMayThrow&&) noexcept(false) {} MoveMayThrow& operator=(MoveMayThrow&&) noexcept(false) { return *this; } }; // Test constraints static_assert(std::is_copy_assignable_v>); // !is_copy_assignable_v static_assert(!std::is_copy_assignable_v>); // !is_copy_constructible_v static_assert(!std::is_copy_assignable_v>); // !is_copy_assignable_v static_assert(!std::is_copy_assignable_v>); // !is_copy_constructible_v static_assert(!std::is_copy_assignable_v>); // !is_nothrow_move_constructible_v && is_nothrow_move_constructible_v static_assert(std::is_copy_assignable_v>); // is_nothrow_move_constructible_v && !is_nothrow_move_constructible_v static_assert(std::is_copy_assignable_v>); // !is_nothrow_move_constructible_v && !is_nothrow_move_constructible_v static_assert(!std::is_copy_assignable_v>); constexpr bool test() { // If this->has_value() && rhs.has_value() is true, equivalent to val = *rhs. { Traced::state oldState{}; Traced::state newState{}; std::expected e1(std::in_place, oldState, 5); const std::expected e2(std::in_place, newState, 10); decltype(auto) x = (e1 = e2); static_assert(std::same_as&>); assert(&x == &e1); assert(e1.has_value()); assert(e1.value().data_ == 10); assert(oldState.copyAssignCalled); } // - Otherwise, if this->has_value() is true, equivalent to: // reinit-expected(unex, val, rhs.error()) // E move is not noexcept // In this case, it should call the branch // // U tmp(std::move(oldval)); // destroy_at(addressof(oldval)); // try { // construct_at(addressof(newval), std::forward(args)...); // } catch (...) { // construct_at(addressof(oldval), std::move(tmp)); // throw; // } // { TracedNoexcept::state oldState{}; Traced::state newState{}; std::expected e1(std::in_place, oldState, 5); const std::expected e2(std::unexpect, newState, 10); decltype(auto) x = (e1 = e2); static_assert(std::same_as&>); assert(&x == &e1); assert(!e1.has_value()); assert(e1.error().data_ == 10); assert(!oldState.copyAssignCalled); assert(oldState.moveCtorCalled); assert(oldState.dtorCalled); assert(!oldState.copyCtorCalled); assert(newState.copyCtorCalled); assert(!newState.moveCtorCalled); assert(!newState.dtorCalled); } // - Otherwise, if this->has_value() is true, equivalent to: // reinit-expected(unex, val, rhs.error()) // E move is noexcept // In this case, it should call the branch // // destroy_at(addressof(oldval)); // construct_at(addressof(newval), std::forward(args)...); // { Traced::state oldState{}; TracedNoexcept::state newState{}; std::expected e1(std::in_place, oldState, 5); const std::expected e2(std::unexpect, newState, 10); decltype(auto) x = (e1 = e2); static_assert(std::same_as&>); assert(&x == &e1); assert(!e1.has_value()); assert(e1.error().data_ == 10); assert(!oldState.copyAssignCalled); assert(!oldState.moveCtorCalled); assert(oldState.dtorCalled); assert(!oldState.copyCtorCalled); assert(newState.copyCtorCalled); assert(!newState.moveCtorCalled); assert(!newState.dtorCalled); } // - Otherwise, if rhs.has_value() is true, equivalent to: // reinit-expected(val, unex, *rhs) // T move is not noexcept // In this case, it should call the branch // // U tmp(std::move(oldval)); // destroy_at(addressof(oldval)); // try { // construct_at(addressof(newval), std::forward(args)...); // } catch (...) { // construct_at(addressof(oldval), std::move(tmp)); // throw; // } // { TracedNoexcept::state oldState{}; Traced::state newState{}; std::expected e1(std::unexpect, oldState, 5); const std::expected e2(std::in_place, newState, 10); decltype(auto) x = (e1 = e2); static_assert(std::same_as&>); assert(&x == &e1); assert(e1.has_value()); assert(e1.value().data_ == 10); assert(!oldState.copyAssignCalled); assert(oldState.moveCtorCalled); assert(oldState.dtorCalled); assert(!oldState.copyCtorCalled); assert(newState.copyCtorCalled); assert(!newState.moveCtorCalled); assert(!newState.dtorCalled); } // - Otherwise, if rhs.has_value() is true, equivalent to: // reinit-expected(val, unex, *rhs) // T move is noexcept // In this case, it should call the branch // // destroy_at(addressof(oldval)); // construct_at(addressof(newval), std::forward(args)...); // { Traced::state oldState{}; TracedNoexcept::state newState{}; std::expected e1(std::unexpect, oldState, 5); const std::expected e2(std::in_place, newState, 10); decltype(auto) x = (e1 = e2); static_assert(std::same_as&>); assert(&x == &e1); assert(e1.has_value()); assert(e1.value().data_ == 10); assert(!oldState.copyAssignCalled); assert(!oldState.moveCtorCalled); assert(oldState.dtorCalled); assert(!oldState.copyCtorCalled); assert(newState.copyCtorCalled); assert(!newState.moveCtorCalled); assert(!newState.dtorCalled); } // Otherwise, equivalent to unex = rhs.error(). { Traced::state oldState{}; Traced::state newState{}; std::expected e1(std::unexpect, oldState, 5); const std::expected e2(std::unexpect, newState, 10); decltype(auto) x = (e1 = e2); static_assert(std::same_as&>); assert(&x == &e1); assert(!e1.has_value()); assert(e1.error().data_ == 10); assert(oldState.copyAssignCalled); } // CheckForInvalidWrites { { CheckForInvalidWrites e1(std::unexpect); CheckForInvalidWrites e2; e1 = e2; assert(e1.check()); assert(e2.check()); } { CheckForInvalidWrites e1(std::unexpect); CheckForInvalidWrites e2; e1 = e2; assert(e1.check()); assert(e2.check()); } } return true; } void testException() { #ifndef TEST_HAS_NO_EXCEPTIONS struct ThrowOnCopyMoveMayThrow { ThrowOnCopyMoveMayThrow() = default; ThrowOnCopyMoveMayThrow(const ThrowOnCopyMoveMayThrow&) { throw Except{}; }; ThrowOnCopyMoveMayThrow& operator=(const ThrowOnCopyMoveMayThrow&) = default; ThrowOnCopyMoveMayThrow(ThrowOnCopyMoveMayThrow&&) noexcept(false) {} }; // assign value throw on copy { std::expected e1(std::unexpect, 5); const std::expected e2(std::in_place); try { e1 = e2; assert(false); } catch (Except) { assert(!e1.has_value()); assert(e1.error() == 5); } } // assign error throw on copy { std::expected e1(5); const std::expected e2(std::unexpect); try { e1 = e2; assert(false); } catch (Except) { assert(e1.has_value()); assert(e1.value() == 5); } } #endif // TEST_HAS_NO_EXCEPTIONS } int main(int, char**) { test(); static_assert(test()); testException(); return 0; }