test/std/utilities/tuple/tuple.tuple/tuple.apply/make_from_tuple.pass.cpp - libcxx - Git at Google

 //===----------------------------------------------------------------------===//
 //
 // 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++98, c++03, c++11, c++14

 // <tuple>

 // template <class T, class Tuple> constexpr T make_from_tuple(Tuple&&);

 #include <tuple>
 #include <array>
 #include <utility>
 #include <string>
 #include <cassert>

 #include "test_macros.h"
 #include "type_id.h"

 // std::array is explicitly allowed to be initialized with A a = { init-list };.
 // Disable the missing braces warning for this reason.
 #include "disable_missing_braces_warning.h"

 template <class Tuple>
 struct ConstexprConstructibleFromTuple {
   template <class ...Args>
   explicit constexpr ConstexprConstructibleFromTuple(Args&&... xargs)
       : args{std::forward<Args>(xargs)...} {}
   Tuple args;
 };

 template <class TupleLike>
 struct ConstructibleFromTuple;

 template <template <class ...> class Tuple, class ...Types>
 struct ConstructibleFromTuple<Tuple<Types...>> {
   template <class ...Args>
   explicit ConstructibleFromTuple(Args&&... xargs)
       : args(xargs...),
         arg_types(&makeArgumentID<Args&&...>())
   {}
   Tuple<std::decay_t<Types>...> args;
   TypeID const* arg_types;
 };

 template <class Tp, size_t N>
 struct ConstructibleFromTuple<std::array<Tp, N>> {
 template <class ...Args>
   explicit ConstructibleFromTuple(Args&&... xargs)
       : args{xargs...},
         arg_types(&makeArgumentID<Args&&...>())
   {}
   std::array<Tp, N> args;
   TypeID const* arg_types;
 };

 template <class Tuple>
 constexpr bool do_constexpr_test(Tuple&& tup) {
     using RawTuple = std::decay_t<Tuple>;
     using Tp = ConstexprConstructibleFromTuple<RawTuple>;
     return std::make_from_tuple<Tp>(std::forward<Tuple>(tup)).args == tup;
 }

 // Needed by do_forwarding_test() since it compares pairs of different types.
 template <class T1, class T2, class U1, class U2>
 inline bool operator==(const std::pair<T1, T2>& lhs, const std::pair<U1, U2>& rhs) {
     return lhs.first == rhs.first && lhs.second == rhs.second;
 }

 template <class ...ExpectTypes, class Tuple>
 bool do_forwarding_test(Tuple&& tup) {
     using RawTuple = std::decay_t<Tuple>;
     using Tp = ConstructibleFromTuple<RawTuple>;
     const Tp value = std::make_from_tuple<Tp>(std::forward<Tuple>(tup));
     return value.args == tup
         && value.arg_types == &makeArgumentID<ExpectTypes...>();
 }

 void test_constexpr_construction() {
     {
         constexpr std::tuple<> tup;
         static_assert(do_constexpr_test(tup), "");
     }
     {
         constexpr std::tuple<int> tup(42);
         static_assert(do_constexpr_test(tup), "");
     }
     {
         constexpr std::tuple<int, long, void*> tup(42, 101, nullptr);
         static_assert(do_constexpr_test(tup), "");
     }
     {
         constexpr std::pair<int, const char*> p(42, "hello world");
         static_assert(do_constexpr_test(p), "");
     }
     {
         using Tuple = std::array<int, 3>;
         using ValueTp = ConstexprConstructibleFromTuple<Tuple>;
         constexpr Tuple arr = {42, 101, -1};
         constexpr ValueTp value = std::make_from_tuple<ValueTp>(arr);
         static_assert(value.args[0] == arr[0] && value.args[1] == arr[1]
             && value.args[2] == arr[2], "");
     }
 }

 void test_perfect_forwarding() {
     {
         using Tup = std::tuple<>;
         Tup tup;
         Tup const& ctup = tup;
         assert(do_forwarding_test<>(tup));
         assert(do_forwarding_test<>(ctup));
     }
     {
         using Tup = std::tuple<int>;
         Tup tup(42);
         Tup const& ctup = tup;
         assert(do_forwarding_test<int&>(tup));
         assert(do_forwarding_test<int const&>(ctup));
         assert(do_forwarding_test<int&&>(std::move(tup)));
         assert(do_forwarding_test<int const&&>(std::move(ctup)));
     }
     {
         using Tup = std::tuple<int&, const char*, unsigned&&>;
         int x = 42;
         unsigned y = 101;
         Tup tup(x, "hello world", std::move(y));
         Tup const& ctup = tup;
         assert((do_forwarding_test<int&, const char*&, unsigned&>(tup)));
         assert((do_forwarding_test<int&, const char* const&, unsigned &>(ctup)));
         assert((do_forwarding_test<int&, const char*&&, unsigned&&>(std::move(tup))));
         assert((do_forwarding_test<int&, const char* const&&, unsigned &&>(std::move(ctup))));
     }
     // test with pair<T, U>
     {
         using Tup = std::pair<int&, const char*>;
         int x = 42;
         Tup tup(x, "hello world");
         Tup const& ctup = tup;
         assert((do_forwarding_test<int&, const char*&>(tup)));
         assert((do_forwarding_test<int&, const char* const&>(ctup)));
         assert((do_forwarding_test<int&, const char*&&>(std::move(tup))));
         assert((do_forwarding_test<int&, const char* const&&>(std::move(ctup))));
     }
     // test with array<T, I>
     {
         using Tup = std::array<int, 3>;
         Tup tup = {42, 101, -1};
         Tup const& ctup = tup;
         assert((do_forwarding_test<int&, int&, int&>(tup)));
         assert((do_forwarding_test<int const&, int const&, int const&>(ctup)));
         assert((do_forwarding_test<int&&, int&&, int&&>(std::move(tup))));
         assert((do_forwarding_test<int const&&, int const&&, int const&&>(std::move(ctup))));
     }
 }

 void test_noexcept() {
     struct NothrowMoveable {
       NothrowMoveable() = default;
       NothrowMoveable(NothrowMoveable const&) {}
       NothrowMoveable(NothrowMoveable&&) noexcept {}
     };
     struct TestType {
       TestType(int, NothrowMoveable) noexcept {}
       TestType(int, int, int) noexcept(false) {}
       TestType(long, long, long) noexcept {}
     };
     {
         using Tuple = std::tuple<int, NothrowMoveable>;
         Tuple tup; ((void)tup);
         Tuple const& ctup = tup; ((void)ctup);
         ASSERT_NOT_NOEXCEPT(std::make_from_tuple<TestType>(ctup));
         LIBCPP_ASSERT_NOEXCEPT(std::make_from_tuple<TestType>(std::move(tup)));
     }
     {
         using Tuple = std::pair<int, NothrowMoveable>;
         Tuple tup; ((void)tup);
         Tuple const& ctup = tup; ((void)ctup);
         ASSERT_NOT_NOEXCEPT(std::make_from_tuple<TestType>(ctup));
         LIBCPP_ASSERT_NOEXCEPT(std::make_from_tuple<TestType>(std::move(tup)));
     }
     {
         using Tuple = std::tuple<int, int, int>;
         Tuple tup; ((void)tup);
         ASSERT_NOT_NOEXCEPT(std::make_from_tuple<TestType>(tup));
     }
     {
         using Tuple = std::tuple<long, long, long>;
         Tuple tup; ((void)tup);
         LIBCPP_ASSERT_NOEXCEPT(std::make_from_tuple<TestType>(tup));
     }
     {
         using Tuple = std::array<int, 3>;
         Tuple tup; ((void)tup);
         ASSERT_NOT_NOEXCEPT(std::make_from_tuple<TestType>(tup));
     }
     {
         using Tuple = std::array<long, 3>;
         Tuple tup; ((void)tup);
         LIBCPP_ASSERT_NOEXCEPT(std::make_from_tuple<TestType>(tup));
     }
 }

 int main(int, char**)
 {
     test_constexpr_construction();
     test_perfect_forwarding();
     test_noexcept();

   return 0;
 }
	//===----------------------------------------------------------------------===//
	//
	// 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++98, c++03, c++11, c++14

	// <tuple>

	// template <class T, class Tuple> constexpr T make_from_tuple(Tuple&&);

	#include <tuple>
	#include <array>
	#include <utility>
	#include <string>
	#include <cassert>

	#include "test_macros.h"
	#include "type_id.h"

	// std::array is explicitly allowed to be initialized with A a = { init-list };.
	// Disable the missing braces warning for this reason.
	#include "disable_missing_braces_warning.h"

	template <class Tuple>
	struct ConstexprConstructibleFromTuple {
	template <class ...Args>
	explicit constexpr ConstexprConstructibleFromTuple(Args&&... xargs)
	: args{std::forward<Args>(xargs)...} {}
	Tuple args;
	};

	template <class TupleLike>
	struct ConstructibleFromTuple;

	template <template <class ...> class Tuple, class ...Types>
	struct ConstructibleFromTuple<Tuple<Types...>> {
	template <class ...Args>
	explicit ConstructibleFromTuple(Args&&... xargs)
	: args(xargs...),
	arg_types(&makeArgumentID<Args&&...>())
	{}
	Tuple<std::decay_t<Types>...> args;
	TypeID const* arg_types;
	};

	template <class Tp, size_t N>
	struct ConstructibleFromTuple<std::array<Tp, N>> {
	template <class ...Args>
	explicit ConstructibleFromTuple(Args&&... xargs)
	: args{xargs...},
	arg_types(&makeArgumentID<Args&&...>())
	{}
	std::array<Tp, N> args;
	TypeID const* arg_types;
	};

	template <class Tuple>
	constexpr bool do_constexpr_test(Tuple&& tup) {
	using RawTuple = std::decay_t<Tuple>;
	using Tp = ConstexprConstructibleFromTuple<RawTuple>;
	return std::make_from_tuple<Tp>(std::forward<Tuple>(tup)).args == tup;
	}

	// Needed by do_forwarding_test() since it compares pairs of different types.
	template <class T1, class T2, class U1, class U2>
	inline bool operator==(const std::pair<T1, T2>& lhs, const std::pair<U1, U2>& rhs) {
	return lhs.first == rhs.first && lhs.second == rhs.second;
	}

	template <class ...ExpectTypes, class Tuple>
	bool do_forwarding_test(Tuple&& tup) {
	using RawTuple = std::decay_t<Tuple>;
	using Tp = ConstructibleFromTuple<RawTuple>;
	const Tp value = std::make_from_tuple<Tp>(std::forward<Tuple>(tup));
	return value.args == tup
	&& value.arg_types == &makeArgumentID<ExpectTypes...>();
	}

	void test_constexpr_construction() {
	{
	constexpr std::tuple<> tup;
	static_assert(do_constexpr_test(tup), "");
	}
	{
	constexpr std::tuple<int> tup(42);
	static_assert(do_constexpr_test(tup), "");
	}
	{
	constexpr std::tuple<int, long, void*> tup(42, 101, nullptr);
	static_assert(do_constexpr_test(tup), "");
	}
	{
	constexpr std::pair<int, const char*> p(42, "hello world");
	static_assert(do_constexpr_test(p), "");
	}
	{
	using Tuple = std::array<int, 3>;
	using ValueTp = ConstexprConstructibleFromTuple<Tuple>;
	constexpr Tuple arr = {42, 101, -1};
	constexpr ValueTp value = std::make_from_tuple<ValueTp>(arr);
	static_assert(value.args[0] == arr[0] && value.args[1] == arr[1]
	&& value.args[2] == arr[2], "");
	}
	}

	void test_perfect_forwarding() {
	{
	using Tup = std::tuple<>;
	Tup tup;
	Tup const& ctup = tup;
	assert(do_forwarding_test<>(tup));
	assert(do_forwarding_test<>(ctup));
	}
	{
	using Tup = std::tuple<int>;
	Tup tup(42);
	Tup const& ctup = tup;
	assert(do_forwarding_test<int&>(tup));
	assert(do_forwarding_test<int const&>(ctup));
	assert(do_forwarding_test<int&&>(std::move(tup)));
	assert(do_forwarding_test<int const&&>(std::move(ctup)));
	}
	{
	using Tup = std::tuple<int&, const char*, unsigned&&>;
	int x = 42;
	unsigned y = 101;
	Tup tup(x, "hello world", std::move(y));
	Tup const& ctup = tup;
	assert((do_forwarding_test<int&, const char*&, unsigned&>(tup)));
	assert((do_forwarding_test<int&, const char* const&, unsigned &>(ctup)));
	assert((do_forwarding_test<int&, const char*&&, unsigned&&>(std::move(tup))));
	assert((do_forwarding_test<int&, const char* const&&, unsigned &&>(std::move(ctup))));
	}
	// test with pair<T, U>
	{
	using Tup = std::pair<int&, const char*>;
	int x = 42;
	Tup tup(x, "hello world");
	Tup const& ctup = tup;
	assert((do_forwarding_test<int&, const char*&>(tup)));
	assert((do_forwarding_test<int&, const char* const&>(ctup)));
	assert((do_forwarding_test<int&, const char*&&>(std::move(tup))));
	assert((do_forwarding_test<int&, const char* const&&>(std::move(ctup))));
	}
	// test with array<T, I>
	{
	using Tup = std::array<int, 3>;
	Tup tup = {42, 101, -1};
	Tup const& ctup = tup;
	assert((do_forwarding_test<int&, int&, int&>(tup)));
	assert((do_forwarding_test<int const&, int const&, int const&>(ctup)));
	assert((do_forwarding_test<int&&, int&&, int&&>(std::move(tup))));
	assert((do_forwarding_test<int const&&, int const&&, int const&&>(std::move(ctup))));
	}
	}

	void test_noexcept() {
	struct NothrowMoveable {
	NothrowMoveable() = default;
	NothrowMoveable(NothrowMoveable const&) {}
	NothrowMoveable(NothrowMoveable&&) noexcept {}
	};
	struct TestType {
	TestType(int, NothrowMoveable) noexcept {}
	TestType(int, int, int) noexcept(false) {}
	TestType(long, long, long) noexcept {}
	};
	{
	using Tuple = std::tuple<int, NothrowMoveable>;
	Tuple tup; ((void)tup);
	Tuple const& ctup = tup; ((void)ctup);
	ASSERT_NOT_NOEXCEPT(std::make_from_tuple<TestType>(ctup));
	LIBCPP_ASSERT_NOEXCEPT(std::make_from_tuple<TestType>(std::move(tup)));
	}
	{
	using Tuple = std::pair<int, NothrowMoveable>;
	Tuple tup; ((void)tup);
	Tuple const& ctup = tup; ((void)ctup);
	ASSERT_NOT_NOEXCEPT(std::make_from_tuple<TestType>(ctup));
	LIBCPP_ASSERT_NOEXCEPT(std::make_from_tuple<TestType>(std::move(tup)));
	}
	{
	using Tuple = std::tuple<int, int, int>;
	Tuple tup; ((void)tup);
	ASSERT_NOT_NOEXCEPT(std::make_from_tuple<TestType>(tup));
	}
	{
	using Tuple = std::tuple<long, long, long>;
	Tuple tup; ((void)tup);
	LIBCPP_ASSERT_NOEXCEPT(std::make_from_tuple<TestType>(tup));
	}
	{
	using Tuple = std::array<int, 3>;
	Tuple tup; ((void)tup);
	ASSERT_NOT_NOEXCEPT(std::make_from_tuple<TestType>(tup));
	}
	{
	using Tuple = std::array<long, 3>;
	Tuple tup; ((void)tup);
	LIBCPP_ASSERT_NOEXCEPT(std::make_from_tuple<TestType>(tup));
	}
	}

	int main(int, char**)
	{
	test_constexpr_construction();
	test_perfect_forwarding();
	test_noexcept();

	return 0;
	}