// -*- 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
// The following compilers don't generate constexpr special members correctly.
// XFAIL: clang-3.5, clang-3.6, clang-3.7, clang-3.8
// XFAIL: apple-clang-6, apple-clang-7, apple-clang-8.0
// XFAIL: availability=macosx10.13
// XFAIL: availability=macosx10.12
// XFAIL: availability=macosx10.11
// XFAIL: availability=macosx10.10
// XFAIL: availability=macosx10.9
// XFAIL: availability=macosx10.8
// XFAIL: availability=macosx10.7
// <variant>
// template <class ...Types> class variant;
// variant& operator=(variant&&) noexcept(see below); // constexpr in C++20
#include <cassert>
#include <string>
#include <type_traits>
#include <utility>
#include <variant>
#include "test_macros.h"
#include "variant_test_helpers.hpp"
struct NoCopy {
NoCopy(const NoCopy &) = delete;
NoCopy &operator=(const NoCopy &) = default;
};
struct CopyOnly {
CopyOnly(const CopyOnly &) = default;
CopyOnly(CopyOnly &&) = delete;
CopyOnly &operator=(const CopyOnly &) = default;
CopyOnly &operator=(CopyOnly &&) = delete;
};
struct MoveOnly {
MoveOnly(const MoveOnly &) = delete;
MoveOnly(MoveOnly &&) = default;
MoveOnly &operator=(const MoveOnly &) = delete;
MoveOnly &operator=(MoveOnly &&) = default;
};
struct MoveOnlyNT {
MoveOnlyNT(const MoveOnlyNT &) = delete;
MoveOnlyNT(MoveOnlyNT &&) {}
MoveOnlyNT &operator=(const MoveOnlyNT &) = delete;
MoveOnlyNT &operator=(MoveOnlyNT &&) = default;
};
struct MoveOnlyOddNothrow {
MoveOnlyOddNothrow(MoveOnlyOddNothrow &&) noexcept(false) {}
MoveOnlyOddNothrow(const MoveOnlyOddNothrow &) = delete;
MoveOnlyOddNothrow &operator=(MoveOnlyOddNothrow &&) noexcept = default;
MoveOnlyOddNothrow &operator=(const MoveOnlyOddNothrow &) = delete;
};
struct MoveAssignOnly {
MoveAssignOnly(MoveAssignOnly &&) = delete;
MoveAssignOnly &operator=(MoveAssignOnly &&) = default;
};
struct MoveAssign {
static int move_construct;
static int move_assign;
static void reset() { move_construct = move_assign = 0; }
MoveAssign(int v) : value(v) {}
MoveAssign(MoveAssign &&o) : value(o.value) {
++move_construct;
o.value = -1;
}
MoveAssign &operator=(MoveAssign &&o) {
value = o.value;
++move_assign;
o.value = -1;
return *this;
}
int value;
};
int MoveAssign::move_construct = 0;
int MoveAssign::move_assign = 0;
struct NTMoveAssign {
constexpr NTMoveAssign(int v) : value(v) {}
NTMoveAssign(const NTMoveAssign &) = default;
NTMoveAssign(NTMoveAssign &&) = default;
NTMoveAssign &operator=(const NTMoveAssign &that) = default;
NTMoveAssign &operator=(NTMoveAssign &&that) {
value = that.value;
that.value = -1;
return *this;
};
int value;
};
static_assert(!std::is_trivially_move_assignable<NTMoveAssign>::value, "");
static_assert(std::is_move_assignable<NTMoveAssign>::value, "");
struct TMoveAssign {
constexpr TMoveAssign(int v) : value(v) {}
TMoveAssign(const TMoveAssign &) = delete;
TMoveAssign(TMoveAssign &&) = default;
TMoveAssign &operator=(const TMoveAssign &) = delete;
TMoveAssign &operator=(TMoveAssign &&) = default;
int value;
};
static_assert(std::is_trivially_move_assignable<TMoveAssign>::value, "");
struct TMoveAssignNTCopyAssign {
constexpr TMoveAssignNTCopyAssign(int v) : value(v) {}
TMoveAssignNTCopyAssign(const TMoveAssignNTCopyAssign &) = default;
TMoveAssignNTCopyAssign(TMoveAssignNTCopyAssign &&) = default;
TMoveAssignNTCopyAssign &operator=(const TMoveAssignNTCopyAssign &that) {
value = that.value;
return *this;
}
TMoveAssignNTCopyAssign &operator=(TMoveAssignNTCopyAssign &&) = default;
int value;
};
static_assert(std::is_trivially_move_assignable_v<TMoveAssignNTCopyAssign>, "");
struct TrivialCopyNontrivialMove {
TrivialCopyNontrivialMove(TrivialCopyNontrivialMove const&) = default;
TrivialCopyNontrivialMove(TrivialCopyNontrivialMove&&) noexcept {}
TrivialCopyNontrivialMove& operator=(TrivialCopyNontrivialMove const&) = default;
TrivialCopyNontrivialMove& operator=(TrivialCopyNontrivialMove&&) noexcept {
return *this;
}
};
static_assert(std::is_trivially_copy_assignable_v<TrivialCopyNontrivialMove>, "");
static_assert(!std::is_trivially_move_assignable_v<TrivialCopyNontrivialMove>, "");
void test_move_assignment_noexcept() {
{
using V = std::variant<int>;
static_assert(std::is_nothrow_move_assignable<V>::value, "");
}
{
using V = std::variant<MoveOnly>;
static_assert(std::is_nothrow_move_assignable<V>::value, "");
}
{
using V = std::variant<int, long>;
static_assert(std::is_nothrow_move_assignable<V>::value, "");
}
{
using V = std::variant<int, MoveOnly>;
static_assert(std::is_nothrow_move_assignable<V>::value, "");
}
{
using V = std::variant<MoveOnlyNT>;
static_assert(!std::is_nothrow_move_assignable<V>::value, "");
}
{
using V = std::variant<MoveOnlyOddNothrow>;
static_assert(!std::is_nothrow_move_assignable<V>::value, "");
}
}
void test_move_assignment_sfinae() {
{
using V = std::variant<int, long>;
static_assert(std::is_move_assignable<V>::value, "");
}
{
using V = std::variant<int, CopyOnly>;
static_assert(std::is_move_assignable<V>::value, "");
}
{
using V = std::variant<int, NoCopy>;
static_assert(!std::is_move_assignable<V>::value, "");
}
{
using V = std::variant<int, MoveOnly>;
static_assert(std::is_move_assignable<V>::value, "");
}
{
using V = std::variant<int, MoveOnlyNT>;
static_assert(std::is_move_assignable<V>::value, "");
}
{
// variant only provides move assignment when the types also provide
// a move constructor.
using V = std::variant<int, MoveAssignOnly>;
static_assert(!std::is_move_assignable<V>::value, "");
}
// Make sure we properly propagate triviality (see P0602R4).
#if TEST_STD_VER > 17
{
using V = std::variant<int, long>;
static_assert(std::is_trivially_move_assignable<V>::value, "");
}
{
using V = std::variant<int, NTMoveAssign>;
static_assert(!std::is_trivially_move_assignable<V>::value, "");
static_assert(std::is_move_assignable<V>::value, "");
}
{
using V = std::variant<int, TMoveAssign>;
static_assert(std::is_trivially_move_assignable<V>::value, "");
}
{
using V = std::variant<int, TMoveAssignNTCopyAssign>;
static_assert(std::is_trivially_move_assignable<V>::value, "");
}
{
using V = std::variant<int, TrivialCopyNontrivialMove>;
static_assert(!std::is_trivially_move_assignable<V>::value, "");
}
{
using V = std::variant<int, CopyOnly>;
static_assert(std::is_trivially_move_assignable<V>::value, "");
}
#endif // > C++17
}
void test_move_assignment_empty_empty() {
#ifndef TEST_HAS_NO_EXCEPTIONS
using MET = MakeEmptyT;
{
using V = std::variant<int, long, MET>;
V v1(std::in_place_index<0>);
makeEmpty(v1);
V v2(std::in_place_index<0>);
makeEmpty(v2);
V &vref = (v1 = std::move(v2));
assert(&vref == &v1);
assert(v1.valueless_by_exception());
assert(v1.index() == std::variant_npos);
}
#endif // TEST_HAS_NO_EXCEPTIONS
}
void test_move_assignment_non_empty_empty() {
#ifndef TEST_HAS_NO_EXCEPTIONS
using MET = MakeEmptyT;
{
using V = std::variant<int, MET>;
V v1(std::in_place_index<0>, 42);
V v2(std::in_place_index<0>);
makeEmpty(v2);
V &vref = (v1 = std::move(v2));
assert(&vref == &v1);
assert(v1.valueless_by_exception());
assert(v1.index() == std::variant_npos);
}
{
using V = std::variant<int, MET, std::string>;
V v1(std::in_place_index<2>, "hello");
V v2(std::in_place_index<0>);
makeEmpty(v2);
V &vref = (v1 = std::move(v2));
assert(&vref == &v1);
assert(v1.valueless_by_exception());
assert(v1.index() == std::variant_npos);
}
#endif // TEST_HAS_NO_EXCEPTIONS
}
void test_move_assignment_empty_non_empty() {
#ifndef TEST_HAS_NO_EXCEPTIONS
using MET = MakeEmptyT;
{
using V = std::variant<int, MET>;
V v1(std::in_place_index<0>);
makeEmpty(v1);
V v2(std::in_place_index<0>, 42);
V &vref = (v1 = std::move(v2));
assert(&vref == &v1);
assert(v1.index() == 0);
assert(std::get<0>(v1) == 42);
}
{
using V = std::variant<int, MET, std::string>;
V v1(std::in_place_index<0>);
makeEmpty(v1);
V v2(std::in_place_type<std::string>, "hello");
V &vref = (v1 = std::move(v2));
assert(&vref == &v1);
assert(v1.index() == 2);
assert(std::get<2>(v1) == "hello");
}
#endif // TEST_HAS_NO_EXCEPTIONS
}
template <typename T> struct Result { size_t index; T value; };
void test_move_assignment_same_index() {
{
using V = std::variant<int>;
V v1(43);
V v2(42);
V &vref = (v1 = std::move(v2));
assert(&vref == &v1);
assert(v1.index() == 0);
assert(std::get<0>(v1) == 42);
}
{
using V = std::variant<int, long, unsigned>;
V v1(43l);
V v2(42l);
V &vref = (v1 = std::move(v2));
assert(&vref == &v1);
assert(v1.index() == 1);
assert(std::get<1>(v1) == 42);
}
{
using V = std::variant<int, MoveAssign, unsigned>;
V v1(std::in_place_type<MoveAssign>, 43);
V v2(std::in_place_type<MoveAssign>, 42);
MoveAssign::reset();
V &vref = (v1 = std::move(v2));
assert(&vref == &v1);
assert(v1.index() == 1);
assert(std::get<1>(v1).value == 42);
assert(MoveAssign::move_construct == 0);
assert(MoveAssign::move_assign == 1);
}
#ifndef TEST_HAS_NO_EXCEPTIONS
using MET = MakeEmptyT;
{
using V = std::variant<int, MET, std::string>;
V v1(std::in_place_type<MET>);
MET &mref = std::get<1>(v1);
V v2(std::in_place_type<MET>);
try {
v1 = std::move(v2);
assert(false);
} catch (...) {
}
assert(v1.index() == 1);
assert(&std::get<1>(v1) == &mref);
}
#endif // TEST_HAS_NO_EXCEPTIONS
// Make sure we properly propagate triviality, which implies constexpr-ness (see P0602R4).
#if TEST_STD_VER > 17
{
struct {
constexpr Result<int> operator()() const {
using V = std::variant<int>;
V v(43);
V v2(42);
v = std::move(v2);
return {v.index(), std::get<0>(v)};
}
} test;
constexpr auto result = test();
static_assert(result.index == 0, "");
static_assert(result.value == 42, "");
}
{
struct {
constexpr Result<long> operator()() const {
using V = std::variant<int, long, unsigned>;
V v(43l);
V v2(42l);
v = std::move(v2);
return {v.index(), std::get<1>(v)};
}
} test;
constexpr auto result = test();
static_assert(result.index == 1, "");
static_assert(result.value == 42l, "");
}
{
struct {
constexpr Result<int> operator()() const {
using V = std::variant<int, TMoveAssign, unsigned>;
V v(std::in_place_type<TMoveAssign>, 43);
V v2(std::in_place_type<TMoveAssign>, 42);
v = std::move(v2);
return {v.index(), std::get<1>(v).value};
}
} test;
constexpr auto result = test();
static_assert(result.index == 1, "");
static_assert(result.value == 42, "");
}
#endif // > C++17
}
void test_move_assignment_different_index() {
{
using V = std::variant<int, long, unsigned>;
V v1(43);
V v2(42l);
V &vref = (v1 = std::move(v2));
assert(&vref == &v1);
assert(v1.index() == 1);
assert(std::get<1>(v1) == 42);
}
{
using V = std::variant<int, MoveAssign, unsigned>;
V v1(std::in_place_type<unsigned>, 43);
V v2(std::in_place_type<MoveAssign>, 42);
MoveAssign::reset();
V &vref = (v1 = std::move(v2));
assert(&vref == &v1);
assert(v1.index() == 1);
assert(std::get<1>(v1).value == 42);
assert(MoveAssign::move_construct == 1);
assert(MoveAssign::move_assign == 0);
}
#ifndef TEST_HAS_NO_EXCEPTIONS
using MET = MakeEmptyT;
{
using V = std::variant<int, MET, std::string>;
V v1(std::in_place_type<int>);
V v2(std::in_place_type<MET>);
try {
v1 = std::move(v2);
assert(false);
} catch (...) {
}
assert(v1.valueless_by_exception());
assert(v1.index() == std::variant_npos);
}
{
using V = std::variant<int, MET, std::string>;
V v1(std::in_place_type<MET>);
V v2(std::in_place_type<std::string>, "hello");
V &vref = (v1 = std::move(v2));
assert(&vref == &v1);
assert(v1.index() == 2);
assert(std::get<2>(v1) == "hello");
}
#endif // TEST_HAS_NO_EXCEPTIONS
// Make sure we properly propagate triviality, which implies constexpr-ness (see P0602R4).
#if TEST_STD_VER > 17
{
struct {
constexpr Result<long> operator()() const {
using V = std::variant<int, long, unsigned>;
V v(43);
V v2(42l);
v = std::move(v2);
return {v.index(), std::get<1>(v)};
}
} test;
constexpr auto result = test();
static_assert(result.index == 1, "");
static_assert(result.value == 42l, "");
}
{
struct {
constexpr Result<long> operator()() const {
using V = std::variant<int, TMoveAssign, unsigned>;
V v(std::in_place_type<unsigned>, 43);
V v2(std::in_place_type<TMoveAssign>, 42);
v = std::move(v2);
return {v.index(), std::get<1>(v).value};
}
} test;
constexpr auto result = test();
static_assert(result.index == 1, "");
static_assert(result.value == 42, "");
}
#endif // > C++17
}
template <size_t NewIdx, class ValueType>
constexpr bool test_constexpr_assign_imp(
std::variant<long, void*, int>&& v, ValueType&& new_value)
{
std::variant<long, void*, int> v2(
std::forward<ValueType>(new_value));
const auto cp = v2;
v = std::move(v2);
return v.index() == NewIdx &&
std::get<NewIdx>(v) == std::get<NewIdx>(cp);
}
void test_constexpr_move_assignment() {
// Make sure we properly propagate triviality, which implies constexpr-ness (see P0602R4).
#if TEST_STD_VER > 17
using V = std::variant<long, void*, int>;
static_assert(std::is_trivially_copyable<V>::value, "");
static_assert(std::is_trivially_move_assignable<V>::value, "");
static_assert(test_constexpr_assign_imp<0>(V(42l), 101l), "");
static_assert(test_constexpr_assign_imp<0>(V(nullptr), 101l), "");
static_assert(test_constexpr_assign_imp<1>(V(42l), nullptr), "");
static_assert(test_constexpr_assign_imp<2>(V(42l), 101), "");
#endif // > C++17
}
int main() {
test_move_assignment_empty_empty();
test_move_assignment_non_empty_empty();
test_move_assignment_empty_non_empty();
test_move_assignment_same_index();
test_move_assignment_different_index();
test_move_assignment_sfinae();
test_move_assignment_noexcept();
test_constexpr_move_assignment();
}