test/std/utilities/tuple/tuple.tuple/tuple.assign/move_pair.pass.cpp - llvm-project/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
 //
 //===----------------------------------------------------------------------===//

 // <tuple>

 // template <class... Types> class tuple;

 // template <class U1, class U2>
 //   tuple& operator=(pair<U1, U2>&& u);

 // UNSUPPORTED: c++03

 #include <tuple>
 #include <utility>
 #include <memory>
 #include <cassert>

 #include "test_macros.h"

 struct B
 {
     int id_;

     explicit B(int i = 0) : id_(i) {}

     virtual ~B() {}
 };

 struct D
     : B
 {
     explicit D(int i) : B(i) {}
 };

 struct TrackMove
 {
     TrackMove() : value(0), moved_from(false) { }
     explicit TrackMove(int v) : value(v), moved_from(false) { }
     TrackMove(TrackMove const& other) : value(other.value), moved_from(false) { }
     TrackMove(TrackMove&& other) : value(other.value), moved_from(false) {
         other.moved_from = true;
     }
     TrackMove& operator=(TrackMove const& other) {
         value = other.value;
         moved_from = false;
         return *this;
     }
     TrackMove& operator=(TrackMove&& other) {
         value = other.value;
         moved_from = false;
         other.moved_from = true;
         return *this;
     }

     int value;
     bool moved_from;
 };

 struct NonAssignable
 {
   NonAssignable& operator=(NonAssignable const&) = delete;
   NonAssignable& operator=(NonAssignable&&) = delete;
 };

 struct MoveAssignable
 {
   MoveAssignable& operator=(MoveAssignable const&) = delete;
   MoveAssignable& operator=(MoveAssignable&&) = default;
 };

 struct CopyAssignable
 {
   CopyAssignable& operator=(CopyAssignable const&) = default;
   CopyAssignable& operator=(CopyAssignable&&) = delete;
 };

 struct NothrowMoveAssignable
 {
     NothrowMoveAssignable& operator=(NothrowMoveAssignable&&) noexcept { return *this; }
 };

 struct PotentiallyThrowingMoveAssignable
 {
     PotentiallyThrowingMoveAssignable& operator=(PotentiallyThrowingMoveAssignable&&) { return *this; }
 };

 int main(int, char**)
 {
     {
         typedef std::pair<long, std::unique_ptr<D>> T0;
         typedef std::tuple<long long, std::unique_ptr<B>> T1;
         T0 t0(2, std::unique_ptr<D>(new D(3)));
         T1 t1;
         t1 = std::move(t0);
         assert(std::get<0>(t1) == 2);
         assert(std::get<1>(t1)->id_ == 3);
     }
     {
         using T = std::tuple<int, NonAssignable>;
         using P = std::pair<int, NonAssignable>;
         static_assert(!std::is_assignable<T&, P&&>::value, "");
     }
     {
       using T = std::tuple<int, int, int>;
       using P = std::pair<int, int>;
       static_assert(!std::is_assignable<T&, P&&>::value, "");
     }
     {
         typedef std::tuple<NothrowMoveAssignable, long> Tuple;
         typedef std::pair<NothrowMoveAssignable, int> Pair;
         static_assert(std::is_nothrow_assignable<Tuple&, Pair&&>::value, "");
         static_assert(!std::is_assignable<Tuple&, Pair const&&>::value, "");
     }
     {
         typedef std::tuple<PotentiallyThrowingMoveAssignable, long> Tuple;
         typedef std::pair<PotentiallyThrowingMoveAssignable, int> Pair;
         static_assert(std::is_assignable<Tuple&, Pair&&>::value, "");
         static_assert(!std::is_nothrow_assignable<Tuple&, Pair&&>::value, "");
         static_assert(!std::is_assignable<Tuple&, Pair const&&>::value, "");
     }
     {
         // We assign through the reference and don't move out of the incoming ref,
         // so this doesn't work (but would if the type were CopyAssignable).
         {
             using T = std::tuple<MoveAssignable&, int>;
             using P = std::pair<MoveAssignable&, int>;
             static_assert(!std::is_assignable<T&, P&&>::value, "");
         }

         // ... works if it's CopyAssignable
         {
             using T = std::tuple<CopyAssignable&, int>;
             using P = std::pair<CopyAssignable&, int>;
             static_assert(std::is_assignable<T&, P&&>::value, "");
         }

         // For rvalue-references, we can move-assign if the type is MoveAssignable
         // or CopyAssignable (since in the worst case the move will decay into a copy).
         {
             using T1 = std::tuple<MoveAssignable&&, int>;
             using P1 = std::pair<MoveAssignable&&, int>;
             static_assert(std::is_assignable<T1&, P1&&>::value, "");

             using T2 = std::tuple<CopyAssignable&&, int>;
             using P2 = std::pair<CopyAssignable&&, int>;
             static_assert(std::is_assignable<T2&, P2&&>::value, "");
         }

         // In all cases, we can't move-assign if the types are not assignable,
         // since we assign through the reference.
         {
             using T1 = std::tuple<NonAssignable&, int>;
             using P1 = std::pair<NonAssignable&, int>;
             static_assert(!std::is_assignable<T1&, P1&&>::value, "");

             using T2 = std::tuple<NonAssignable&&, int>;
             using P2 = std::pair<NonAssignable&&, int>;
             static_assert(!std::is_assignable<T2&, P2&&>::value, "");
         }
     }
     {
         // Make sure that we don't incorrectly move out of the source's reference.
         using Dest = std::tuple<TrackMove, int>;
         using Source = std::pair<TrackMove&, int>;
         TrackMove track{3};
         Source src(track, 4);
         assert(!track.moved_from);

         Dest dst;
         dst = std::move(src); // here we should make a copy
         assert(!track.moved_from);
         assert(std::get<0>(dst).value == 3);
     }
     {
         // But we do move out of the source's reference if it's a rvalue ref
         using Dest = std::tuple<TrackMove, int>;
         using Source = std::pair<TrackMove&&, int>;
         TrackMove track{3};
         Source src(std::move(track), 4);
         assert(!track.moved_from); // we just took a reference

         Dest dst;
         dst = std::move(src);
         assert(track.moved_from);
         assert(std::get<0>(dst).value == 3);
     }
     {
         // If the pair holds a value, then we move out of it too
         using Dest = std::tuple<TrackMove, int>;
         using Source = std::pair<TrackMove, int>;
         Source src(TrackMove{3}, 4);
         Dest dst;
         dst = std::move(src);
         assert(src.first.moved_from);
         assert(std::get<0>(dst).value == 3);
     }

     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
	//
	//===----------------------------------------------------------------------===//

	// <tuple>

	// template <class... Types> class tuple;

	// template <class U1, class U2>
	// tuple& operator=(pair<U1, U2>&& u);

	// UNSUPPORTED: c++03

	#include <tuple>
	#include <utility>
	#include <memory>
	#include <cassert>

	#include "test_macros.h"

	struct B
	{
	int id_;

	explicit B(int i = 0) : id_(i) {}

	virtual ~B() {}
	};

	struct D
	: B
	{
	explicit D(int i) : B(i) {}
	};

	struct TrackMove
	{
	TrackMove() : value(0), moved_from(false) { }
	explicit TrackMove(int v) : value(v), moved_from(false) { }
	TrackMove(TrackMove const& other) : value(other.value), moved_from(false) { }
	TrackMove(TrackMove&& other) : value(other.value), moved_from(false) {
	other.moved_from = true;
	}
	TrackMove& operator=(TrackMove const& other) {
	value = other.value;
	moved_from = false;
	return *this;
	}
	TrackMove& operator=(TrackMove&& other) {
	value = other.value;
	moved_from = false;
	other.moved_from = true;
	return *this;
	}

	int value;
	bool moved_from;
	};

	struct NonAssignable
	{
	NonAssignable& operator=(NonAssignable const&) = delete;
	NonAssignable& operator=(NonAssignable&&) = delete;
	};

	struct MoveAssignable
	{
	MoveAssignable& operator=(MoveAssignable const&) = delete;
	MoveAssignable& operator=(MoveAssignable&&) = default;
	};

	struct CopyAssignable
	{
	CopyAssignable& operator=(CopyAssignable const&) = default;
	CopyAssignable& operator=(CopyAssignable&&) = delete;
	};

	struct NothrowMoveAssignable
	{
	NothrowMoveAssignable& operator=(NothrowMoveAssignable&&) noexcept { return *this; }
	};

	struct PotentiallyThrowingMoveAssignable
	{
	PotentiallyThrowingMoveAssignable& operator=(PotentiallyThrowingMoveAssignable&&) { return *this; }
	};

	int main(int, char**)
	{
	{
	typedef std::pair<long, std::unique_ptr<D>> T0;
	typedef std::tuple<long long, std::unique_ptr<B>> T1;
	T0 t0(2, std::unique_ptr<D>(new D(3)));
	T1 t1;
	t1 = std::move(t0);
	assert(std::get<0>(t1) == 2);
	assert(std::get<1>(t1)->id_ == 3);
	}
	{
	using T = std::tuple<int, NonAssignable>;
	using P = std::pair<int, NonAssignable>;
	static_assert(!std::is_assignable<T&, P&&>::value, "");
	}
	{
	using T = std::tuple<int, int, int>;
	using P = std::pair<int, int>;
	static_assert(!std::is_assignable<T&, P&&>::value, "");
	}
	{
	typedef std::tuple<NothrowMoveAssignable, long> Tuple;
	typedef std::pair<NothrowMoveAssignable, int> Pair;
	static_assert(std::is_nothrow_assignable<Tuple&, Pair&&>::value, "");
	static_assert(!std::is_assignable<Tuple&, Pair const&&>::value, "");
	}
	{
	typedef std::tuple<PotentiallyThrowingMoveAssignable, long> Tuple;
	typedef std::pair<PotentiallyThrowingMoveAssignable, int> Pair;
	static_assert(std::is_assignable<Tuple&, Pair&&>::value, "");
	static_assert(!std::is_nothrow_assignable<Tuple&, Pair&&>::value, "");
	static_assert(!std::is_assignable<Tuple&, Pair const&&>::value, "");
	}
	{
	// We assign through the reference and don't move out of the incoming ref,
	// so this doesn't work (but would if the type were CopyAssignable).
	{
	using T = std::tuple<MoveAssignable&, int>;
	using P = std::pair<MoveAssignable&, int>;
	static_assert(!std::is_assignable<T&, P&&>::value, "");
	}

	// ... works if it's CopyAssignable
	{
	using T = std::tuple<CopyAssignable&, int>;
	using P = std::pair<CopyAssignable&, int>;
	static_assert(std::is_assignable<T&, P&&>::value, "");
	}

	// For rvalue-references, we can move-assign if the type is MoveAssignable
	// or CopyAssignable (since in the worst case the move will decay into a copy).
	{
	using T1 = std::tuple<MoveAssignable&&, int>;
	using P1 = std::pair<MoveAssignable&&, int>;
	static_assert(std::is_assignable<T1&, P1&&>::value, "");

	using T2 = std::tuple<CopyAssignable&&, int>;
	using P2 = std::pair<CopyAssignable&&, int>;
	static_assert(std::is_assignable<T2&, P2&&>::value, "");
	}

	// In all cases, we can't move-assign if the types are not assignable,
	// since we assign through the reference.
	{
	using T1 = std::tuple<NonAssignable&, int>;
	using P1 = std::pair<NonAssignable&, int>;
	static_assert(!std::is_assignable<T1&, P1&&>::value, "");

	using T2 = std::tuple<NonAssignable&&, int>;
	using P2 = std::pair<NonAssignable&&, int>;
	static_assert(!std::is_assignable<T2&, P2&&>::value, "");
	}
	}
	{
	// Make sure that we don't incorrectly move out of the source's reference.
	using Dest = std::tuple<TrackMove, int>;
	using Source = std::pair<TrackMove&, int>;
	TrackMove track{3};
	Source src(track, 4);
	assert(!track.moved_from);

	Dest dst;
	dst = std::move(src); // here we should make a copy
	assert(!track.moved_from);
	assert(std::get<0>(dst).value == 3);
	}
	{
	// But we do move out of the source's reference if it's a rvalue ref
	using Dest = std::tuple<TrackMove, int>;
	using Source = std::pair<TrackMove&&, int>;
	TrackMove track{3};
	Source src(std::move(track), 4);
	assert(!track.moved_from); // we just took a reference

	Dest dst;
	dst = std::move(src);
	assert(track.moved_from);
	assert(std::get<0>(dst).value == 3);
	}
	{
	// If the pair holds a value, then we move out of it too
	using Dest = std::tuple<TrackMove, int>;
	using Source = std::pair<TrackMove, int>;
	Source src(TrackMove{3}, 4);
	Dest dst;
	dst = std::move(src);
	assert(src.first.moved_from);
	assert(std::get<0>(dst).value == 3);
	}

	return 0;
	}