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276 lines
8.5 KiB
C++
276 lines
8.5 KiB
C++
//===----------------------------------------------------------------------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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// UNSUPPORTED: c++98, c++03, c++11, c++14
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// <tuple>
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// template <class F, class T> constexpr decltype(auto) apply(F &&, T &&)
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// Test with different ref/ptr/cv qualified argument types.
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#include <tuple>
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#include <array>
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#include <utility>
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#include <cassert>
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#include "test_macros.h"
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#include "type_id.h"
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// std::array is explicitly allowed to be initialized with A a = { init-list };.
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// Disable the missing braces warning for this reason.
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#include "disable_missing_braces_warning.h"
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constexpr int constexpr_sum_fn() { return 0; }
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template <class ...Ints>
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constexpr int constexpr_sum_fn(int x1, Ints... rest) { return x1 + constexpr_sum_fn(rest...); }
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struct ConstexprSumT {
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constexpr ConstexprSumT() = default;
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template <class ...Ints>
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constexpr int operator()(Ints... values) const {
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return constexpr_sum_fn(values...);
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}
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};
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void test_constexpr_evaluation()
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{
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constexpr ConstexprSumT sum_obj{};
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{
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using Tup = std::tuple<>;
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using Fn = int(&)();
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constexpr Tup t;
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static_assert(std::apply(static_cast<Fn>(constexpr_sum_fn), t) == 0, "");
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static_assert(std::apply(sum_obj, t) == 0, "");
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}
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{
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using Tup = std::tuple<int>;
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using Fn = int(&)(int);
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constexpr Tup t(42);
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static_assert(std::apply(static_cast<Fn>(constexpr_sum_fn), t) == 42, "");
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static_assert(std::apply(sum_obj, t) == 42, "");
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}
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{
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using Tup = std::tuple<int, long>;
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using Fn = int(&)(int, int);
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constexpr Tup t(42, 101);
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static_assert(std::apply(static_cast<Fn>(constexpr_sum_fn), t) == 143, "");
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static_assert(std::apply(sum_obj, t) == 143, "");
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}
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{
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using Tup = std::pair<int, long>;
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using Fn = int(&)(int, int);
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constexpr Tup t(42, 101);
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static_assert(std::apply(static_cast<Fn>(constexpr_sum_fn), t) == 143, "");
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static_assert(std::apply(sum_obj, t) == 143, "");
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}
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{
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using Tup = std::tuple<int, long, int>;
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using Fn = int(&)(int, int, int);
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constexpr Tup t(42, 101, -1);
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static_assert(std::apply(static_cast<Fn>(constexpr_sum_fn), t) == 142, "");
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static_assert(std::apply(sum_obj, t) == 142, "");
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}
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{
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using Tup = std::array<int, 3>;
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using Fn = int(&)(int, int, int);
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constexpr Tup t = {42, 101, -1};
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static_assert(std::apply(static_cast<Fn>(constexpr_sum_fn), t) == 142, "");
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static_assert(std::apply(sum_obj, t) == 142, "");
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}
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}
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enum CallQuals {
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CQ_None,
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CQ_LValue,
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CQ_ConstLValue,
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CQ_RValue,
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CQ_ConstRValue
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};
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template <class Tuple>
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struct CallInfo {
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CallQuals quals;
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TypeID const* arg_types;
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Tuple args;
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template <class ...Args>
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CallInfo(CallQuals q, Args&&... xargs)
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: quals(q), arg_types(&makeArgumentID<Args&&...>()), args(std::forward<Args>(xargs)...)
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{}
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};
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template <class ...Args>
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inline CallInfo<decltype(std::forward_as_tuple(std::declval<Args>()...))>
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makeCallInfo(CallQuals quals, Args&&... args) {
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return {quals, std::forward<Args>(args)...};
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}
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struct TrackedCallable {
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TrackedCallable() = default;
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template <class ...Args> auto operator()(Args&&... xargs) &
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{ return makeCallInfo(CQ_LValue, std::forward<Args>(xargs)...); }
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template <class ...Args> auto operator()(Args&&... xargs) const&
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{ return makeCallInfo(CQ_ConstLValue, std::forward<Args>(xargs)...); }
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template <class ...Args> auto operator()(Args&&... xargs) &&
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{ return makeCallInfo(CQ_RValue, std::forward<Args>(xargs)...); }
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template <class ...Args> auto operator()(Args&&... xargs) const&&
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{ return makeCallInfo(CQ_ConstRValue, std::forward<Args>(xargs)...); }
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};
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template <class ...ExpectArgs, class Tuple>
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void check_apply_quals_and_types(Tuple&& t) {
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TypeID const* const expect_args = &makeArgumentID<ExpectArgs...>();
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TrackedCallable obj;
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TrackedCallable const& cobj = obj;
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{
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auto ret = std::apply(obj, std::forward<Tuple>(t));
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assert(ret.quals == CQ_LValue);
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assert(ret.arg_types == expect_args);
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assert(ret.args == t);
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}
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{
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auto ret = std::apply(cobj, std::forward<Tuple>(t));
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assert(ret.quals == CQ_ConstLValue);
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assert(ret.arg_types == expect_args);
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assert(ret.args == t);
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}
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{
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auto ret = std::apply(std::move(obj), std::forward<Tuple>(t));
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assert(ret.quals == CQ_RValue);
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assert(ret.arg_types == expect_args);
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assert(ret.args == t);
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}
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{
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auto ret = std::apply(std::move(cobj), std::forward<Tuple>(t));
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assert(ret.quals == CQ_ConstRValue);
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assert(ret.arg_types == expect_args);
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assert(ret.args == t);
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}
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}
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void test_call_quals_and_arg_types()
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{
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using Tup = std::tuple<int, int const&, unsigned&&>;
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const int x = 42;
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unsigned y = 101;
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Tup t(-1, x, std::move(y));
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Tup const& ct = t;
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check_apply_quals_and_types<int&, int const&, unsigned&>(t);
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check_apply_quals_and_types<int const&, int const&, unsigned&>(ct);
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check_apply_quals_and_types<int&&, int const&, unsigned&&>(std::move(t));
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check_apply_quals_and_types<int const&&, int const&, unsigned&&>(std::move(ct));
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}
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struct NothrowMoveable {
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NothrowMoveable() noexcept = default;
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NothrowMoveable(NothrowMoveable const&) noexcept(false) {}
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NothrowMoveable(NothrowMoveable&&) noexcept {}
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};
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template <bool IsNoexcept>
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struct TestNoexceptCallable {
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template <class ...Args>
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NothrowMoveable operator()(Args...) const noexcept(IsNoexcept) { return {}; }
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};
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void test_noexcept()
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{
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TestNoexceptCallable<true> nec;
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TestNoexceptCallable<false> tc;
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{
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// test that the functions noexcept-ness is propagated
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using Tup = std::tuple<int, const char*, long>;
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Tup t;
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LIBCPP_ASSERT_NOEXCEPT(std::apply(nec, t));
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ASSERT_NOT_NOEXCEPT(std::apply(tc, t));
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}
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{
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// test that the noexcept-ness of the argument conversions is checked.
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using Tup = std::tuple<NothrowMoveable, int>;
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Tup t;
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ASSERT_NOT_NOEXCEPT(std::apply(nec, t));
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LIBCPP_ASSERT_NOEXCEPT(std::apply(nec, std::move(t)));
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}
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}
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namespace ReturnTypeTest {
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static int my_int = 42;
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template <int N> struct index {};
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void f(index<0>) {}
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int f(index<1>) { return 0; }
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int & f(index<2>) { return static_cast<int &>(my_int); }
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int const & f(index<3>) { return static_cast<int const &>(my_int); }
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int volatile & f(index<4>) { return static_cast<int volatile &>(my_int); }
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int const volatile & f(index<5>) { return static_cast<int const volatile &>(my_int); }
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int && f(index<6>) { return static_cast<int &&>(my_int); }
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int const && f(index<7>) { return static_cast<int const &&>(my_int); }
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int volatile && f(index<8>) { return static_cast<int volatile &&>(my_int); }
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int const volatile && f(index<9>) { return static_cast<int const volatile &&>(my_int); }
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int * f(index<10>) { return static_cast<int *>(&my_int); }
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int const * f(index<11>) { return static_cast<int const *>(&my_int); }
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int volatile * f(index<12>) { return static_cast<int volatile *>(&my_int); }
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int const volatile * f(index<13>) { return static_cast<int const volatile *>(&my_int); }
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template <int Func, class Expect>
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void test()
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{
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using RawInvokeResult = decltype(f(index<Func>{}));
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static_assert(std::is_same<RawInvokeResult, Expect>::value, "");
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using FnType = RawInvokeResult (*) (index<Func>);
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FnType fn = f;
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std::tuple<index<Func>> t; ((void)t);
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using InvokeResult = decltype(std::apply(fn, t));
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static_assert(std::is_same<InvokeResult, Expect>::value, "");
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}
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} // end namespace ReturnTypeTest
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void test_return_type()
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{
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using ReturnTypeTest::test;
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test<0, void>();
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test<1, int>();
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test<2, int &>();
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test<3, int const &>();
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test<4, int volatile &>();
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test<5, int const volatile &>();
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test<6, int &&>();
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test<7, int const &&>();
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test<8, int volatile &&>();
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test<9, int const volatile &&>();
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test<10, int *>();
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test<11, int const *>();
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test<12, int volatile *>();
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test<13, int const volatile *>();
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}
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int main(int, char**) {
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test_constexpr_evaluation();
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test_call_quals_and_arg_types();
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test_return_type();
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test_noexcept();
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return 0;
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}
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