test/SemaCXX/warn-return-std-move.cpp - clang - Git at Google

 // RUN: %clang_cc1 -fsyntax-only -fcxx-exceptions -Wreturn-std-move -Wreturn-std-move-in-c++11 -std=c++14 -verify %s
 // RUN: %clang_cc1 -fsyntax-only -fcxx-exceptions -Wreturn-std-move -Wreturn-std-move-in-c++11 -std=c++14 -fdiagnostics-parseable-fixits %s 2>&1 | FileCheck %s

 // definitions for std::move
 namespace std {
 inline namespace foo {
 template <class T> struct remove_reference { typedef T type; };
 template <class T> struct remove_reference<T&> { typedef T type; };
 template <class T> struct remove_reference<T&&> { typedef T type; };

 template <class T> typename remove_reference<T>::type &&move(T &&t);
 } // namespace foo
 } // namespace std

 struct Instrument {
     Instrument() {}
     Instrument(Instrument&&) { /* MOVE */ }
     Instrument(const Instrument&) { /* COPY */ }
 };
 struct ConvertFromBase { Instrument i; };
 struct ConvertFromDerived { Instrument i; };
 struct Base {
     Instrument i;
     operator ConvertFromBase() const& { return ConvertFromBase{i}; }
     operator ConvertFromBase() && { return ConvertFromBase{std::move(i)}; }
 };
 struct Derived : public Base {
     operator ConvertFromDerived() const& { return ConvertFromDerived{i}; }
     operator ConvertFromDerived() && { return ConvertFromDerived{std::move(i)}; }
 };
 struct ConstructFromBase {
     Instrument i;
     ConstructFromBase(const Base& b): i(b.i) {}
     ConstructFromBase(Base&& b): i(std::move(b.i)) {}
 };
 struct ConstructFromDerived {
     Instrument i;
     ConstructFromDerived(const Derived& d): i(d.i) {}
     ConstructFromDerived(Derived&& d): i(std::move(d.i)) {}
 };

 struct TrivialInstrument {
     int i = 42;
 };
 struct ConvertFromTrivialBase { TrivialInstrument i; };
 struct ConvertFromTrivialDerived { TrivialInstrument i; };
 struct TrivialBase {
     TrivialInstrument i;
     operator ConvertFromTrivialBase() const& { return ConvertFromTrivialBase{i}; }
     operator ConvertFromTrivialBase() && { return ConvertFromTrivialBase{std::move(i)}; }
 };
 struct TrivialDerived : public TrivialBase {
     operator ConvertFromTrivialDerived() const& { return ConvertFromTrivialDerived{i}; }
     operator ConvertFromTrivialDerived() && { return ConvertFromTrivialDerived{std::move(i)}; }
 };
 struct ConstructFromTrivialBase {
     TrivialInstrument i;
     ConstructFromTrivialBase(const TrivialBase& b): i(b.i) {}
     ConstructFromTrivialBase(TrivialBase&& b): i(std::move(b.i)) {}
 };
 struct ConstructFromTrivialDerived {
     TrivialInstrument i;
     ConstructFromTrivialDerived(const TrivialDerived& d): i(d.i) {}
     ConstructFromTrivialDerived(TrivialDerived&& d): i(std::move(d.i)) {}
 };

 Derived test1() {
     Derived d1;
     return d1;  // ok
 }
 Base test2() {
     Derived d2;
     return d2;  // e1
     // expected-warning@-1{{will be copied despite being returned by name}}
     // expected-note@-2{{to avoid copying}}
     // CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:12-[[@LINE-3]]:14}:"std::move(d2)"
 }
 ConstructFromDerived test3() {
     Derived d3;
     return d3;  // e2-cxx11
     // expected-warning@-1{{would have been copied despite being returned by name}}
     // expected-note@-2{{to avoid copying on older compilers}}
     // CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:12-[[@LINE-3]]:14}:"std::move(d3)"
 }
 ConstructFromBase test4() {
     Derived d4;
     return d4;  // e3
     // expected-warning@-1{{will be copied despite being returned by name}}
     // expected-note@-2{{to avoid copying}}
     // CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:12-[[@LINE-3]]:14}:"std::move(d4)"
 }
 ConvertFromDerived test5() {
     Derived d5;
     return d5;  // e4
     // expected-warning@-1{{will be copied despite being returned by name}}
     // expected-note@-2{{to avoid copying}}
     // CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:12-[[@LINE-3]]:14}:"std::move(d5)"
 }
 ConvertFromBase test6() {
     Derived d6;
     return d6;  // e5
     // expected-warning@-1{{will be copied despite being returned by name}}
     // expected-note@-2{{to avoid copying}}
     // CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:12-[[@LINE-3]]:14}:"std::move(d6)"
 }

 // These test cases should not produce the warning.
 Derived ok1() { Derived d; return d; }
 Base ok2() { Derived d; return static_cast<Derived&&>(d); }
 ConstructFromDerived ok3() { Derived d; return static_cast<Derived&&>(d); }
 ConstructFromBase ok4() { Derived d; return static_cast<Derived&&>(d); }
 ConvertFromDerived ok5() { Derived d; return static_cast<Derived&&>(d); }
 ConvertFromBase ok6() { Derived d; return static_cast<Derived&&>(d); }

 // If the target is an lvalue reference, assume it's not safe to move from.
 Derived ok_plvalue1(Derived& d) { return d; }
 Base ok_plvalue2(Derived& d) { return d; }
 ConstructFromDerived ok_plvalue3(const Derived& d) { return d; }
 ConstructFromBase ok_plvalue4(Derived& d) { return d; }
 ConvertFromDerived ok_plvalue5(Derived& d) { return d; }
 ConvertFromBase ok_plvalue6(Derived& d) { return d; }

 Derived ok_lvalue1(Derived *p) { Derived& d = *p; return d; }
 Base ok_lvalue2(Derived *p) { Derived& d = *p; return d; }
 ConstructFromDerived ok_lvalue3(Derived *p) { const Derived& d = *p; return d; }
 ConstructFromBase ok_lvalue4(Derived *p) { Derived& d = *p; return d; }
 ConvertFromDerived ok_lvalue5(Derived *p) { Derived& d = *p; return d; }
 ConvertFromBase ok_lvalue6(Derived *p) { Derived& d = *p; return d; }

 // If the target is a global, assume it's not safe to move from.
 static Derived global_d;
 Derived ok_global1() { return global_d; }
 Base ok_global2() { return global_d; }
 ConstructFromDerived ok_global3() { return global_d; }
 ConstructFromBase ok_global4() { return global_d; }
 ConvertFromDerived ok_global5() { return global_d; }
 ConvertFromBase ok_global6() { return global_d; }

 // If the target's copy constructor is trivial, assume the programmer doesn't care.
 TrivialDerived ok_trivial1(TrivialDerived d) { return d; }
 TrivialBase ok_trivial2(TrivialDerived d) { return d; }
 ConstructFromTrivialDerived ok_trivial3(TrivialDerived d) { return d; }
 ConstructFromTrivialBase ok_trivial4(TrivialDerived d) { return d; }
 ConvertFromTrivialDerived ok_trivial5(TrivialDerived d) { return d; }
 ConvertFromTrivialBase ok_trivial6(TrivialDerived d) { return d; }

 // If the target is a parameter, do apply the diagnostic.
 Derived testParam1(Derived d) { return d; }
 Base testParam2(Derived d) {
     return d;  // e6
     // expected-warning@-1{{will be copied despite being returned by name}}
     // expected-note@-2{{to avoid copying}}
     // CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:12-[[@LINE-3]]:13}:"std::move(d)"
 }
 ConstructFromDerived testParam3(Derived d) {
     return d;  // e7-cxx11
     // expected-warning@-1{{would have been copied despite being returned by name}}
     // expected-note@-2{{to avoid copying on older compilers}}
     // CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:12-[[@LINE-3]]:13}:"std::move(d)"
 }
 ConstructFromBase testParam4(Derived d) {
     return d;  // e8
     // expected-warning@-1{{will be copied despite being returned by name}}
     // expected-note@-2{{to avoid copying}}
     // CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:12-[[@LINE-3]]:13}:"std::move(d)"
 }
 ConvertFromDerived testParam5(Derived d) {
     return d;  // e9
     // expected-warning@-1{{will be copied despite being returned by name}}
     // expected-note@-2{{to avoid copying}}
     // CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:12-[[@LINE-3]]:13}:"std::move(d)"
 }
 ConvertFromBase testParam6(Derived d) {
     return d;  // e10
     // expected-warning@-1{{will be copied despite being returned by name}}
     // expected-note@-2{{to avoid copying}}
     // CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:12-[[@LINE-3]]:13}:"std::move(d)"
 }

 // If the target is an rvalue reference parameter, do apply the diagnostic.
 Derived testRParam1(Derived&& d) {
     return d;  // e11
     // expected-warning@-1{{will be copied despite being returned by name}}
     // expected-note@-2{{to avoid copying}}
     // CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:12-[[@LINE-3]]:13}:"std::move(d)"
 }
 Base testRParam2(Derived&& d) {
     return d;  // e12
     // expected-warning@-1{{will be copied despite being returned by name}}
     // expected-note@-2{{to avoid copying}}
     // CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:12-[[@LINE-3]]:13}:"std::move(d)"
 }
 ConstructFromDerived testRParam3(Derived&& d) {
     return d;  // e13
     // expected-warning@-1{{will be copied despite being returned by name}}
     // expected-note@-2{{to avoid copying}}
     // CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:12-[[@LINE-3]]:13}:"std::move(d)"
 }
 ConstructFromBase testRParam4(Derived&& d) {
     return d;  // e14
     // expected-warning@-1{{will be copied despite being returned by name}}
     // expected-note@-2{{to avoid copying}}
     // CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:12-[[@LINE-3]]:13}:"std::move(d)"
 }
 ConvertFromDerived testRParam5(Derived&& d) {
     return d;  // e15
     // expected-warning@-1{{will be copied despite being returned by name}}
     // expected-note@-2{{to avoid copying}}
     // CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:12-[[@LINE-3]]:13}:"std::move(d)"
 }
 ConvertFromBase testRParam6(Derived&& d) {
     return d;  // e16
     // expected-warning@-1{{will be copied despite being returned by name}}
     // expected-note@-2{{to avoid copying}}
     // CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:12-[[@LINE-3]]:13}:"std::move(d)"
 }

 // But if the return type is a reference type, then moving would be wrong.
 Derived& testRetRef1(Derived&& d) { return d; }
 Base& testRetRef2(Derived&& d) { return d; }
 auto&& testRetRef3(Derived&& d) { return d; }
 decltype(auto) testRetRef4(Derived&& d) { return (d); }

 // As long as we're checking parentheses, make sure parentheses don't disable the warning.
 Base testParens1() {
     Derived d;
     return (d);  // e17
     // expected-warning@-1{{will be copied despite being returned by name}}
     // expected-note@-2{{to avoid copying}}
     // CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:12-[[@LINE-3]]:15}:"std::move(d)"
 }
 ConstructFromDerived testParens2() {
     Derived d;
     return (d);  // e18-cxx11
     // expected-warning@-1{{would have been copied despite being returned by name}}
     // expected-note@-2{{to avoid copying}}
     // CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:12-[[@LINE-3]]:15}:"std::move(d)"
 }


 // If the target is a catch-handler parameter, do apply the diagnostic.
 void throw_derived();
 Derived testEParam1() {
     try { throw_derived(); } catch (Derived d) { return d; }  // e19
     // expected-warning@-1{{will be copied despite being returned by name}}
     // expected-note@-2{{to avoid copying}}
     // CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:57-[[@LINE-3]]:58}:"std::move(d)"
     __builtin_unreachable();
 }
 Base testEParam2() {
     try { throw_derived(); } catch (Derived d) { return d; }  // e20
     // expected-warning@-1{{will be copied despite being returned by name}}
     // expected-note@-2{{to avoid copying}}
     // CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:57-[[@LINE-3]]:58}:"std::move(d)"
     __builtin_unreachable();
 }
 ConstructFromDerived testEParam3() {
     try { throw_derived(); } catch (Derived d) { return d; }  // e21
     // expected-warning@-1{{will be copied despite being returned by name}}
     // expected-note@-2{{to avoid copying}}
     // CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:57-[[@LINE-3]]:58}:"std::move(d)"
     __builtin_unreachable();
 }
 ConstructFromBase testEParam4() {
     try { throw_derived(); } catch (Derived d) { return d; }  // e22
     // expected-warning@-1{{will be copied despite being returned by name}}
     // expected-note@-2{{to avoid copying}}
     // CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:57-[[@LINE-3]]:58}:"std::move(d)"
     __builtin_unreachable();
 }
 ConvertFromDerived testEParam5() {
     try { throw_derived(); } catch (Derived d) { return d; }  // e23
     // expected-warning@-1{{will be copied despite being returned by name}}
     // expected-note@-2{{to avoid copying}}
     // CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:57-[[@LINE-3]]:58}:"std::move(d)"
     __builtin_unreachable();
 }
 ConvertFromBase testEParam6() {
     try { throw_derived(); } catch (Derived d) { return d; }  // e24
     // expected-warning@-1{{will be copied despite being returned by name}}
     // expected-note@-2{{to avoid copying}}
     // CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:57-[[@LINE-3]]:58}:"std::move(d)"
     __builtin_unreachable();
 }

 // If the exception variable is an lvalue reference, we cannot be sure
 // that we own it; it is extremely contrived, but possible, for this to
 // be a reference to an exception object that was thrown via
 // `std::rethrow_exception(xp)` in Thread A, and meanwhile somebody else
 // has got a copy of `xp` in Thread B, so that moving out of this object
 // in Thread A would be observable (and racy) with respect to Thread B.
 // Therefore assume it's not safe to move from.
 Derived ok_REParam1() { try { throw_derived(); } catch (Derived& d) { return d; } __builtin_unreachable(); }
 Base ok_REParam2() { try { throw_derived(); } catch (Derived& d) { return d; } __builtin_unreachable(); }
 ConstructFromDerived ok_REParam3() { try { throw_derived(); } catch (Derived& d) { return d; } __builtin_unreachable(); }
 ConstructFromBase ok_REParam4() { try { throw_derived(); } catch (Derived& d) { return d; } __builtin_unreachable(); }
 ConvertFromDerived ok_REParam5() { try { throw_derived(); } catch (Derived& d) { return d; } __builtin_unreachable(); }
 ConvertFromBase ok_REParam6() { try { throw_derived(); } catch (Derived& d) { return d; } __builtin_unreachable(); }

 Derived ok_CEParam1() { try { throw_derived(); } catch (const Derived& d) { return d; } __builtin_unreachable(); }
 Base ok_CEParam2() { try { throw_derived(); } catch (const Derived& d) { return d; } __builtin_unreachable(); }
 ConstructFromDerived ok_CEParam3() { try { throw_derived(); } catch (const Derived& d) { return d; } __builtin_unreachable(); }
 ConstructFromBase ok_CEParam4() { try { throw_derived(); } catch (const Derived& d) { return d; } __builtin_unreachable(); }
 ConvertFromDerived ok_CEParam5() { try { throw_derived(); } catch (const Derived& d) { return d; } __builtin_unreachable(); }
 ConvertFromBase ok_CEParam6() { try { throw_derived(); } catch (const Derived& d) { return d; } __builtin_unreachable(); }

 // If rvalue overload resolution would find a copy constructor anyway,
 // or if the copy constructor actually selected is trivial, then don't warn.
 struct TriviallyCopyable {};
 struct OnlyCopyable {
     OnlyCopyable() = default;
     OnlyCopyable(const OnlyCopyable&) {}
 };

 TriviallyCopyable ok_copy1() { TriviallyCopyable c; return c; }
 OnlyCopyable ok_copy2() { OnlyCopyable c; return c; }
 TriviallyCopyable ok_copyparam1(TriviallyCopyable c) { return c; }
 OnlyCopyable ok_copyparam2(OnlyCopyable c) { return c; }

 void test_throw1(Derived&& d) {
     throw d;  // e25
     // expected-warning@-1{{will be copied despite being thrown by name}}
     // expected-note@-2{{to avoid copying}}
     // CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:11-[[@LINE-3]]:12}:"std::move(d)"
 }

 void ok_throw1() { Derived d; throw d; }
 void ok_throw2(Derived d) { throw d; }
 void ok_throw3(Derived& d) { throw d; }
 void ok_throw4(Derived d) { throw std::move(d); }
 void ok_throw5(Derived& d) { throw std::move(d); }
 void ok_throw6(Derived& d) { throw static_cast<Derived&&>(d); }
 void ok_throw7(TriviallyCopyable d) { throw d; }
 void ok_throw8(OnlyCopyable d) { throw d; }
	// RUN: %clang_cc1 -fsyntax-only -fcxx-exceptions -Wreturn-std-move -Wreturn-std-move-in-c++11 -std=c++14 -verify %s
	// RUN: %clang_cc1 -fsyntax-only -fcxx-exceptions -Wreturn-std-move -Wreturn-std-move-in-c++11 -std=c++14 -fdiagnostics-parseable-fixits %s 2>&1 \| FileCheck %s

	// definitions for std::move
	namespace std {
	inline namespace foo {
	template <class T> struct remove_reference { typedef T type; };
	template <class T> struct remove_reference<T&> { typedef T type; };
	template <class T> struct remove_reference<T&&> { typedef T type; };

	template <class T> typename remove_reference<T>::type &&move(T &&t);
	} // namespace foo
	} // namespace std

	struct Instrument {
	Instrument() {}
	Instrument(Instrument&&) { /* MOVE */ }
	Instrument(const Instrument&) { /* COPY */ }
	};
	struct ConvertFromBase { Instrument i; };
	struct ConvertFromDerived { Instrument i; };
	struct Base {
	Instrument i;
	operator ConvertFromBase() const& { return ConvertFromBase{i}; }
	operator ConvertFromBase() && { return ConvertFromBase{std::move(i)}; }
	};
	struct Derived : public Base {
	operator ConvertFromDerived() const& { return ConvertFromDerived{i}; }
	operator ConvertFromDerived() && { return ConvertFromDerived{std::move(i)}; }
	};
	struct ConstructFromBase {
	Instrument i;
	ConstructFromBase(const Base& b): i(b.i) {}
	ConstructFromBase(Base&& b): i(std::move(b.i)) {}
	};
	struct ConstructFromDerived {
	Instrument i;
	ConstructFromDerived(const Derived& d): i(d.i) {}
	ConstructFromDerived(Derived&& d): i(std::move(d.i)) {}
	};

	struct TrivialInstrument {
	int i = 42;
	};
	struct ConvertFromTrivialBase { TrivialInstrument i; };
	struct ConvertFromTrivialDerived { TrivialInstrument i; };
	struct TrivialBase {
	TrivialInstrument i;
	operator ConvertFromTrivialBase() const& { return ConvertFromTrivialBase{i}; }
	operator ConvertFromTrivialBase() && { return ConvertFromTrivialBase{std::move(i)}; }
	};
	struct TrivialDerived : public TrivialBase {
	operator ConvertFromTrivialDerived() const& { return ConvertFromTrivialDerived{i}; }
	operator ConvertFromTrivialDerived() && { return ConvertFromTrivialDerived{std::move(i)}; }
	};
	struct ConstructFromTrivialBase {
	TrivialInstrument i;
	ConstructFromTrivialBase(const TrivialBase& b): i(b.i) {}
	ConstructFromTrivialBase(TrivialBase&& b): i(std::move(b.i)) {}
	};
	struct ConstructFromTrivialDerived {
	TrivialInstrument i;
	ConstructFromTrivialDerived(const TrivialDerived& d): i(d.i) {}
	ConstructFromTrivialDerived(TrivialDerived&& d): i(std::move(d.i)) {}
	};

	Derived test1() {
	Derived d1;
	return d1; // ok
	}
	Base test2() {
	Derived d2;
	return d2; // e1
	// expected-warning@-1{{will be copied despite being returned by name}}
	// expected-note@-2{{to avoid copying}}
	// CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:12-[[@LINE-3]]:14}:"std::move(d2)"
	}
	ConstructFromDerived test3() {
	Derived d3;
	return d3; // e2-cxx11
	// expected-warning@-1{{would have been copied despite being returned by name}}
	// expected-note@-2{{to avoid copying on older compilers}}
	// CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:12-[[@LINE-3]]:14}:"std::move(d3)"
	}
	ConstructFromBase test4() {
	Derived d4;
	return d4; // e3
	// expected-warning@-1{{will be copied despite being returned by name}}
	// expected-note@-2{{to avoid copying}}
	// CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:12-[[@LINE-3]]:14}:"std::move(d4)"
	}
	ConvertFromDerived test5() {
	Derived d5;
	return d5; // e4
	// expected-warning@-1{{will be copied despite being returned by name}}
	// expected-note@-2{{to avoid copying}}
	// CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:12-[[@LINE-3]]:14}:"std::move(d5)"
	}
	ConvertFromBase test6() {
	Derived d6;
	return d6; // e5
	// expected-warning@-1{{will be copied despite being returned by name}}
	// expected-note@-2{{to avoid copying}}
	// CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:12-[[@LINE-3]]:14}:"std::move(d6)"
	}

	// These test cases should not produce the warning.
	Derived ok1() { Derived d; return d; }
	Base ok2() { Derived d; return static_cast<Derived&&>(d); }
	ConstructFromDerived ok3() { Derived d; return static_cast<Derived&&>(d); }
	ConstructFromBase ok4() { Derived d; return static_cast<Derived&&>(d); }
	ConvertFromDerived ok5() { Derived d; return static_cast<Derived&&>(d); }
	ConvertFromBase ok6() { Derived d; return static_cast<Derived&&>(d); }

	// If the target is an lvalue reference, assume it's not safe to move from.
	Derived ok_plvalue1(Derived& d) { return d; }
	Base ok_plvalue2(Derived& d) { return d; }
	ConstructFromDerived ok_plvalue3(const Derived& d) { return d; }
	ConstructFromBase ok_plvalue4(Derived& d) { return d; }
	ConvertFromDerived ok_plvalue5(Derived& d) { return d; }
	ConvertFromBase ok_plvalue6(Derived& d) { return d; }

	Derived ok_lvalue1(Derived p) { Derived& d = p; return d; }
	Base ok_lvalue2(Derived p) { Derived& d = p; return d; }
	ConstructFromDerived ok_lvalue3(Derived p) { const Derived& d = p; return d; }
	ConstructFromBase ok_lvalue4(Derived p) { Derived& d = p; return d; }
	ConvertFromDerived ok_lvalue5(Derived p) { Derived& d = p; return d; }
	ConvertFromBase ok_lvalue6(Derived p) { Derived& d = p; return d; }

	// If the target is a global, assume it's not safe to move from.
	static Derived global_d;
	Derived ok_global1() { return global_d; }
	Base ok_global2() { return global_d; }
	ConstructFromDerived ok_global3() { return global_d; }
	ConstructFromBase ok_global4() { return global_d; }
	ConvertFromDerived ok_global5() { return global_d; }
	ConvertFromBase ok_global6() { return global_d; }

	// If the target's copy constructor is trivial, assume the programmer doesn't care.
	TrivialDerived ok_trivial1(TrivialDerived d) { return d; }
	TrivialBase ok_trivial2(TrivialDerived d) { return d; }
	ConstructFromTrivialDerived ok_trivial3(TrivialDerived d) { return d; }
	ConstructFromTrivialBase ok_trivial4(TrivialDerived d) { return d; }
	ConvertFromTrivialDerived ok_trivial5(TrivialDerived d) { return d; }
	ConvertFromTrivialBase ok_trivial6(TrivialDerived d) { return d; }

	// If the target is a parameter, do apply the diagnostic.
	Derived testParam1(Derived d) { return d; }
	Base testParam2(Derived d) {
	return d; // e6
	// expected-warning@-1{{will be copied despite being returned by name}}
	// expected-note@-2{{to avoid copying}}
	// CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:12-[[@LINE-3]]:13}:"std::move(d)"
	}
	ConstructFromDerived testParam3(Derived d) {
	return d; // e7-cxx11
	// expected-warning@-1{{would have been copied despite being returned by name}}
	// expected-note@-2{{to avoid copying on older compilers}}
	// CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:12-[[@LINE-3]]:13}:"std::move(d)"
	}
	ConstructFromBase testParam4(Derived d) {
	return d; // e8
	// expected-warning@-1{{will be copied despite being returned by name}}
	// expected-note@-2{{to avoid copying}}
	// CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:12-[[@LINE-3]]:13}:"std::move(d)"
	}
	ConvertFromDerived testParam5(Derived d) {
	return d; // e9
	// expected-warning@-1{{will be copied despite being returned by name}}
	// expected-note@-2{{to avoid copying}}
	// CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:12-[[@LINE-3]]:13}:"std::move(d)"
	}
	ConvertFromBase testParam6(Derived d) {
	return d; // e10
	// expected-warning@-1{{will be copied despite being returned by name}}
	// expected-note@-2{{to avoid copying}}
	// CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:12-[[@LINE-3]]:13}:"std::move(d)"
	}

	// If the target is an rvalue reference parameter, do apply the diagnostic.
	Derived testRParam1(Derived&& d) {
	return d; // e11
	// expected-warning@-1{{will be copied despite being returned by name}}
	// expected-note@-2{{to avoid copying}}
	// CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:12-[[@LINE-3]]:13}:"std::move(d)"
	}
	Base testRParam2(Derived&& d) {
	return d; // e12
	// expected-warning@-1{{will be copied despite being returned by name}}
	// expected-note@-2{{to avoid copying}}
	// CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:12-[[@LINE-3]]:13}:"std::move(d)"
	}
	ConstructFromDerived testRParam3(Derived&& d) {
	return d; // e13
	// expected-warning@-1{{will be copied despite being returned by name}}
	// expected-note@-2{{to avoid copying}}
	// CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:12-[[@LINE-3]]:13}:"std::move(d)"
	}
	ConstructFromBase testRParam4(Derived&& d) {
	return d; // e14
	// expected-warning@-1{{will be copied despite being returned by name}}
	// expected-note@-2{{to avoid copying}}
	// CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:12-[[@LINE-3]]:13}:"std::move(d)"
	}
	ConvertFromDerived testRParam5(Derived&& d) {
	return d; // e15
	// expected-warning@-1{{will be copied despite being returned by name}}
	// expected-note@-2{{to avoid copying}}
	// CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:12-[[@LINE-3]]:13}:"std::move(d)"
	}
	ConvertFromBase testRParam6(Derived&& d) {
	return d; // e16
	// expected-warning@-1{{will be copied despite being returned by name}}
	// expected-note@-2{{to avoid copying}}
	// CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:12-[[@LINE-3]]:13}:"std::move(d)"
	}

	// But if the return type is a reference type, then moving would be wrong.
	Derived& testRetRef1(Derived&& d) { return d; }
	Base& testRetRef2(Derived&& d) { return d; }
	auto&& testRetRef3(Derived&& d) { return d; }
	decltype(auto) testRetRef4(Derived&& d) { return (d); }

	// As long as we're checking parentheses, make sure parentheses don't disable the warning.
	Base testParens1() {
	Derived d;
	return (d); // e17
	// expected-warning@-1{{will be copied despite being returned by name}}
	// expected-note@-2{{to avoid copying}}
	// CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:12-[[@LINE-3]]:15}:"std::move(d)"
	}
	ConstructFromDerived testParens2() {
	Derived d;
	return (d); // e18-cxx11
	// expected-warning@-1{{would have been copied despite being returned by name}}
	// expected-note@-2{{to avoid copying}}
	// CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:12-[[@LINE-3]]:15}:"std::move(d)"
	}


	// If the target is a catch-handler parameter, do apply the diagnostic.
	void throw_derived();
	Derived testEParam1() {
	try { throw_derived(); } catch (Derived d) { return d; } // e19
	// expected-warning@-1{{will be copied despite being returned by name}}
	// expected-note@-2{{to avoid copying}}
	// CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:57-[[@LINE-3]]:58}:"std::move(d)"
	__builtin_unreachable();
	}
	Base testEParam2() {
	try { throw_derived(); } catch (Derived d) { return d; } // e20
	// expected-warning@-1{{will be copied despite being returned by name}}
	// expected-note@-2{{to avoid copying}}
	// CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:57-[[@LINE-3]]:58}:"std::move(d)"
	__builtin_unreachable();
	}
	ConstructFromDerived testEParam3() {
	try { throw_derived(); } catch (Derived d) { return d; } // e21
	// expected-warning@-1{{will be copied despite being returned by name}}
	// expected-note@-2{{to avoid copying}}
	// CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:57-[[@LINE-3]]:58}:"std::move(d)"
	__builtin_unreachable();
	}
	ConstructFromBase testEParam4() {
	try { throw_derived(); } catch (Derived d) { return d; } // e22
	// expected-warning@-1{{will be copied despite being returned by name}}
	// expected-note@-2{{to avoid copying}}
	// CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:57-[[@LINE-3]]:58}:"std::move(d)"
	__builtin_unreachable();
	}
	ConvertFromDerived testEParam5() {
	try { throw_derived(); } catch (Derived d) { return d; } // e23
	// expected-warning@-1{{will be copied despite being returned by name}}
	// expected-note@-2{{to avoid copying}}
	// CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:57-[[@LINE-3]]:58}:"std::move(d)"
	__builtin_unreachable();
	}
	ConvertFromBase testEParam6() {
	try { throw_derived(); } catch (Derived d) { return d; } // e24
	// expected-warning@-1{{will be copied despite being returned by name}}
	// expected-note@-2{{to avoid copying}}
	// CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:57-[[@LINE-3]]:58}:"std::move(d)"
	__builtin_unreachable();
	}

	// If the exception variable is an lvalue reference, we cannot be sure
	// that we own it; it is extremely contrived, but possible, for this to
	// be a reference to an exception object that was thrown via
	// `std::rethrow_exception(xp)` in Thread A, and meanwhile somebody else
	// has got a copy of `xp` in Thread B, so that moving out of this object
	// in Thread A would be observable (and racy) with respect to Thread B.
	// Therefore assume it's not safe to move from.
	Derived ok_REParam1() { try { throw_derived(); } catch (Derived& d) { return d; } __builtin_unreachable(); }
	Base ok_REParam2() { try { throw_derived(); } catch (Derived& d) { return d; } __builtin_unreachable(); }
	ConstructFromDerived ok_REParam3() { try { throw_derived(); } catch (Derived& d) { return d; } __builtin_unreachable(); }
	ConstructFromBase ok_REParam4() { try { throw_derived(); } catch (Derived& d) { return d; } __builtin_unreachable(); }
	ConvertFromDerived ok_REParam5() { try { throw_derived(); } catch (Derived& d) { return d; } __builtin_unreachable(); }
	ConvertFromBase ok_REParam6() { try { throw_derived(); } catch (Derived& d) { return d; } __builtin_unreachable(); }

	Derived ok_CEParam1() { try { throw_derived(); } catch (const Derived& d) { return d; } __builtin_unreachable(); }
	Base ok_CEParam2() { try { throw_derived(); } catch (const Derived& d) { return d; } __builtin_unreachable(); }
	ConstructFromDerived ok_CEParam3() { try { throw_derived(); } catch (const Derived& d) { return d; } __builtin_unreachable(); }
	ConstructFromBase ok_CEParam4() { try { throw_derived(); } catch (const Derived& d) { return d; } __builtin_unreachable(); }
	ConvertFromDerived ok_CEParam5() { try { throw_derived(); } catch (const Derived& d) { return d; } __builtin_unreachable(); }
	ConvertFromBase ok_CEParam6() { try { throw_derived(); } catch (const Derived& d) { return d; } __builtin_unreachable(); }

	// If rvalue overload resolution would find a copy constructor anyway,
	// or if the copy constructor actually selected is trivial, then don't warn.
	struct TriviallyCopyable {};
	struct OnlyCopyable {
	OnlyCopyable() = default;
	OnlyCopyable(const OnlyCopyable&) {}
	};

	TriviallyCopyable ok_copy1() { TriviallyCopyable c; return c; }
	OnlyCopyable ok_copy2() { OnlyCopyable c; return c; }
	TriviallyCopyable ok_copyparam1(TriviallyCopyable c) { return c; }
	OnlyCopyable ok_copyparam2(OnlyCopyable c) { return c; }

	void test_throw1(Derived&& d) {
	throw d; // e25
	// expected-warning@-1{{will be copied despite being thrown by name}}
	// expected-note@-2{{to avoid copying}}
	// CHECK: fix-it:"{{.*}}":{[[@LINE-3]]:11-[[@LINE-3]]:12}:"std::move(d)"
	}

	void ok_throw1() { Derived d; throw d; }
	void ok_throw2(Derived d) { throw d; }
	void ok_throw3(Derived& d) { throw d; }
	void ok_throw4(Derived d) { throw std::move(d); }
	void ok_throw5(Derived& d) { throw std::move(d); }
	void ok_throw6(Derived& d) { throw static_cast<Derived&&>(d); }
	void ok_throw7(TriviallyCopyable d) { throw d; }
	void ok_throw8(OnlyCopyable d) { throw d; }