safecode/tools/clang/test/SemaCXX/implicit-exception-spec.cpp - llvm-archive - Git at Google

 // RUN: %clang_cc1 -fsyntax-only -fcxx-exceptions -verify -std=c++11 -Wall %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 = noexcept(ConstExpr()) && ThrowSomething(); // expected-error {{exception specification is not available until end of class definition}}
   };
   // We can use it now.
   bool w = noexcept(ConstExpr());

   // Much more obviously broken: we can't parse the initializer without already
   // knowing whether it produces a noexcept expression.
   struct TemplateArg {
     int n = ExceptionIf<noexcept(TemplateArg())>::f(); // expected-error {{exception specification is not available until end of class definition}}
   };
   bool x = noexcept(TemplateArg());

   // And within a nested class.
   struct Nested {
     struct Inner {
       int n = ExceptionIf<noexcept(Nested())>::f(); // expected-error {{exception specification is not available until end of class definition}}
     } inner;
   };
   bool y = noexcept(Nested());
   bool z = noexcept(Nested::Inner());
 }

 // FIXME:
 // The same problem arises in delayed parsing of exception specifications,
 // which clang does not yet support.
 namespace ExceptionSpecification {
   struct Nested { // expected-note {{not complete}}
     struct T {
       T() noexcept(!noexcept(Nested())); // expected-error {{incomplete type}}
     } t;
   };
 }

 // FIXME:
 // The same problem arises in delayed parsing of default arguments,
 // which clang does not yet support.
 namespace DefaultArgument {
   // FIXME: this diagnostic is completely wrong.
   struct Default { // expected-note {{explicitly marked deleted here}}
     struct T {
       T(int = ExceptionIf<noexcept(Default())::f()); // expected-error {{call to deleted constructor}}
     } t;
   };
 }
	// RUN: %clang_cc1 -fsyntax-only -fcxx-exceptions -verify -std=c++11 -Wall %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 = noexcept(ConstExpr()) && ThrowSomething(); // expected-error {{exception specification is not available until end of class definition}}
	};
	// We can use it now.
	bool w = noexcept(ConstExpr());

	// Much more obviously broken: we can't parse the initializer without already
	// knowing whether it produces a noexcept expression.
	struct TemplateArg {
	int n = ExceptionIf<noexcept(TemplateArg())>::f(); // expected-error {{exception specification is not available until end of class definition}}
	};
	bool x = noexcept(TemplateArg());

	// And within a nested class.
	struct Nested {
	struct Inner {
	int n = ExceptionIf<noexcept(Nested())>::f(); // expected-error {{exception specification is not available until end of class definition}}
	} inner;
	};
	bool y = noexcept(Nested());
	bool z = noexcept(Nested::Inner());
	}

	// FIXME:
	// The same problem arises in delayed parsing of exception specifications,
	// which clang does not yet support.
	namespace ExceptionSpecification {
	struct Nested { // expected-note {{not complete}}
	struct T {
	T() noexcept(!noexcept(Nested())); // expected-error {{incomplete type}}
	} t;
	};
	}

	// FIXME:
	// The same problem arises in delayed parsing of default arguments,
	// which clang does not yet support.
	namespace DefaultArgument {
	// FIXME: this diagnostic is completely wrong.
	struct Default { // expected-note {{explicitly marked deleted here}}
	struct T {
	T(int = ExceptionIf<noexcept(Default())::f()); // expected-error {{call to deleted constructor}}
	} t;
	};
	}