src/third_party/llvm-project/clang/test/SemaCXX/implicit-exception-spec.cpp - cobalt - Git at Google

 // RUN: %clang_cc1 -fsyntax-only -fcxx-exceptions -verify -std=c++11 -Wall -Wno-unused-local-typedefs %s

 template<bool b> struct ExceptionIf { static int f(); };
 template<> struct ExceptionIf<false> { typedef int f; };

 // The exception specification of a defaulted default constructor depends on
 // the contents of in-class member initializers. However, the in-class member
 // initializers can depend on the exception specification of the constructor,
 // since the class is considered complete within them. We reject any such cases.
 namespace InClassInitializers {
   // Noexcept::Noexcept() is implicitly declared as noexcept(false), because it
   // directly invokes ThrowSomething(). However...
   //
   // If noexcept(Noexcept()) is false, then Noexcept() is a constant expression,
   // so noexcept(Noexcept()) is true. But if noexcept(Noexcept()) is true, then
   // Noexcept::Noexcept is not declared constexpr, therefore noexcept(Noexcept())
   // is false.
   bool ThrowSomething() noexcept(false);
   struct ConstExpr {
     bool b = // expected-note {{declared here}}
       noexcept(ConstExpr()) && ThrowSomething(); // expected-error {{default member initializer for 'b' needed}}
   };

   // Much more obviously broken: we can't parse the initializer without already
   // knowing whether it produces a noexcept expression.
   struct TemplateArg {
     int n = // expected-note {{declared here}}
       ExceptionIf<noexcept(TemplateArg())>::f(); // expected-error {{default member initializer for 'n' needed}}
   };

   // And within a nested class.
   struct Nested {
     struct Inner {
       int n = // expected-note {{declared here}}
         ExceptionIf<noexcept(Nested())>::f();
     } inner; // expected-error {{default member initializer for 'n' needed}}
   };

   struct Nested2 {
     struct Inner;
     int n = Inner().n; // expected-error {{initializer for 'n' needed}}
     struct Inner {
       int n = ExceptionIf<noexcept(Nested2())>::f(); // expected-note {{declared here}}
     } inner;
   };
 }

 namespace ExceptionSpecification {
   // FIXME: This diagnostic is quite useless; we should indicate whose
   // exception specification we were looking for and why.
   struct Nested {
     struct T {
       T() noexcept(!noexcept(Nested()));
     } t; // expected-error{{exception specification is not available until end of class definition}}
   };
 }

 namespace DefaultArgument {
   struct Default {
     struct T {
       T(int = ExceptionIf<noexcept(Default())::f()); // expected-error {{call to implicitly-deleted default constructor}}
     } t; // expected-note {{has no default constructor}}
   };
 }

 namespace ImplicitDtorExceptionSpec {
   struct A {
     virtual ~A();

     struct Inner {
       ~Inner() throw();
     };
     Inner inner;
   };

   struct B {
     virtual ~B() {} // expected-note {{here}}
   };

   struct C : B {
     virtual ~C() {}
     A a;
   };

   struct D : B {
     ~D(); // expected-error {{more lax than base}}
     struct E {
       ~E();
       struct F {
         ~F() throw(A);
       } f;
     } e;
   };
 }

 struct nothrow_t {} nothrow;
 void *operator new(decltype(sizeof(0)), nothrow_t) noexcept;

 namespace PotentiallyConstructed {
   template<bool NE> struct A {
     A() noexcept(NE);
     A(const A&) noexcept(NE);
     A(A&&) noexcept(NE);
     A &operator=(const A&) noexcept(NE);
     A &operator=(A&&) noexcept(NE);
     ~A() noexcept(NE);
   };

   template<bool NE> struct B : virtual A<NE> {};

   template<bool NE> struct C : virtual A<NE> {
     virtual void f() = 0; // expected-note 2{{unimplemented}}
   };

   template<bool NE> struct D final : C<NE> {
     void f();
   };

   template<typename T, bool A, bool B, bool C, bool D, bool E, bool F> void check() {
     T *p = nullptr;
     T &a = *p;
     static_assert(noexcept(a = a) == D, "");
     static_assert(noexcept(a = static_cast<T&&>(a)) == E, "");
     static_assert(noexcept(delete &a) == F, "");

     // These are last because the first failure here causes instantiation to bail out.
     static_assert(noexcept(new (nothrow) T()) == A, ""); // expected-error 2{{abstract}}
     static_assert(noexcept(new (nothrow) T(a)) == B, "");
     static_assert(noexcept(new (nothrow) T(static_cast<T&&>(a))) == C, "");
   }

   template void check<A<false>, 0, 0, 0, 0, 0, 0>();
   template void check<A<true >, 1, 1, 1, 1, 1, 1>();
   template void check<B<false>, 0, 0, 0, 0, 0, 0>();
   template void check<B<true >, 1, 1, 1, 1, 1, 1>();
   template void check<C<false>, 1, 1, 1, 0, 0, 0>(); // expected-note {{instantiation}}
   template void check<C<true >, 1, 1, 1, 1, 1, 1>(); // expected-note {{instantiation}}
   template void check<D<false>, 0, 0, 0, 0, 0, 0>();
   template void check<D<true >, 1, 1, 1, 1, 1, 1>();

   // ... the above trick doesn't work for this case...
   struct Cfalse : virtual A<false> {
     virtual void f() = 0;

     Cfalse() noexcept;
     Cfalse(const Cfalse&) noexcept;
     Cfalse(Cfalse&&) noexcept;
   };
   Cfalse::Cfalse() noexcept = default;
   Cfalse::Cfalse(const Cfalse&) noexcept = default;
   Cfalse::Cfalse(Cfalse&&) noexcept = default;
 }
	// RUN: %clang_cc1 -fsyntax-only -fcxx-exceptions -verify -std=c++11 -Wall -Wno-unused-local-typedefs %s

	template<bool b> struct ExceptionIf { static int f(); };
	template<> struct ExceptionIf<false> { typedef int f; };

	// The exception specification of a defaulted default constructor depends on
	// the contents of in-class member initializers. However, the in-class member
	// initializers can depend on the exception specification of the constructor,
	// since the class is considered complete within them. We reject any such cases.
	namespace InClassInitializers {
	// Noexcept::Noexcept() is implicitly declared as noexcept(false), because it
	// directly invokes ThrowSomething(). However...
	//
	// If noexcept(Noexcept()) is false, then Noexcept() is a constant expression,
	// so noexcept(Noexcept()) is true. But if noexcept(Noexcept()) is true, then
	// Noexcept::Noexcept is not declared constexpr, therefore noexcept(Noexcept())
	// is false.
	bool ThrowSomething() noexcept(false);
	struct ConstExpr {
	bool b = // expected-note {{declared here}}
	noexcept(ConstExpr()) && ThrowSomething(); // expected-error {{default member initializer for 'b' needed}}
	};

	// Much more obviously broken: we can't parse the initializer without already
	// knowing whether it produces a noexcept expression.
	struct TemplateArg {
	int n = // expected-note {{declared here}}
	ExceptionIf<noexcept(TemplateArg())>::f(); // expected-error {{default member initializer for 'n' needed}}
	};

	// And within a nested class.
	struct Nested {
	struct Inner {
	int n = // expected-note {{declared here}}
	ExceptionIf<noexcept(Nested())>::f();
	} inner; // expected-error {{default member initializer for 'n' needed}}
	};

	struct Nested2 {
	struct Inner;
	int n = Inner().n; // expected-error {{initializer for 'n' needed}}
	struct Inner {
	int n = ExceptionIf<noexcept(Nested2())>::f(); // expected-note {{declared here}}
	} inner;
	};
	}

	namespace ExceptionSpecification {
	// FIXME: This diagnostic is quite useless; we should indicate whose
	// exception specification we were looking for and why.
	struct Nested {
	struct T {
	T() noexcept(!noexcept(Nested()));
	} t; // expected-error{{exception specification is not available until end of class definition}}
	};
	}

	namespace DefaultArgument {
	struct Default {
	struct T {
	T(int = ExceptionIf<noexcept(Default())::f()); // expected-error {{call to implicitly-deleted default constructor}}
	} t; // expected-note {{has no default constructor}}
	};
	}

	namespace ImplicitDtorExceptionSpec {
	struct A {
	virtual ~A();

	struct Inner {
	~Inner() throw();
	};
	Inner inner;
	};

	struct B {
	virtual ~B() {} // expected-note {{here}}
	};

	struct C : B {
	virtual ~C() {}
	A a;
	};

	struct D : B {
	~D(); // expected-error {{more lax than base}}
	struct E {
	~E();
	struct F {
	~F() throw(A);
	} f;
	} e;
	};
	}

	struct nothrow_t {} nothrow;
	void *operator new(decltype(sizeof(0)), nothrow_t) noexcept;

	namespace PotentiallyConstructed {
	template<bool NE> struct A {
	A() noexcept(NE);
	A(const A&) noexcept(NE);
	A(A&&) noexcept(NE);
	A &operator=(const A&) noexcept(NE);
	A &operator=(A&&) noexcept(NE);
	~A() noexcept(NE);
	};

	template<bool NE> struct B : virtual A<NE> {};

	template<bool NE> struct C : virtual A<NE> {
	virtual void f() = 0; // expected-note 2{{unimplemented}}
	};

	template<bool NE> struct D final : C<NE> {
	void f();
	};

	template<typename T, bool A, bool B, bool C, bool D, bool E, bool F> void check() {
	T *p = nullptr;
	T &a = *p;
	static_assert(noexcept(a = a) == D, "");
	static_assert(noexcept(a = static_cast<T&&>(a)) == E, "");
	static_assert(noexcept(delete &a) == F, "");

	// These are last because the first failure here causes instantiation to bail out.
	static_assert(noexcept(new (nothrow) T()) == A, ""); // expected-error 2{{abstract}}
	static_assert(noexcept(new (nothrow) T(a)) == B, "");
	static_assert(noexcept(new (nothrow) T(static_cast<T&&>(a))) == C, "");
	}

	template void check<A<false>, 0, 0, 0, 0, 0, 0>();
	template void check<A<true >, 1, 1, 1, 1, 1, 1>();
	template void check<B<false>, 0, 0, 0, 0, 0, 0>();
	template void check<B<true >, 1, 1, 1, 1, 1, 1>();
	template void check<C<false>, 1, 1, 1, 0, 0, 0>(); // expected-note {{instantiation}}
	template void check<C<true >, 1, 1, 1, 1, 1, 1>(); // expected-note {{instantiation}}
	template void check<D<false>, 0, 0, 0, 0, 0, 0>();
	template void check<D<true >, 1, 1, 1, 1, 1, 1>();

	// ... the above trick doesn't work for this case...
	struct Cfalse : virtual A<false> {
	virtual void f() = 0;

	Cfalse() noexcept;
	Cfalse(const Cfalse&) noexcept;
	Cfalse(Cfalse&&) noexcept;
	};
	Cfalse::Cfalse() noexcept = default;
	Cfalse::Cfalse(const Cfalse&) noexcept = default;
	Cfalse::Cfalse(Cfalse&&) noexcept = default;
	}