gcc/testsuite/g++.dg/lto/pr65549_0.C - gcc - Git at Google

 // { dg-lto-do link }
 // { dg-require-effective-target lto_incremental }
 // { dg-lto-options { { -std=gnu++14 -flto -g -Wno-return-type } { -std=gnu++14 -flto -g -O2 -fno-inline -flto-partition=max -Wno-return-type } } }
 // { dg-extra-ld-options "-r -nostdlib" }

 namespace std {
 inline namespace __cxx11 {}
 template <typename _Tp, _Tp> struct integral_constant {
   static constexpr _Tp value = 0;
 };
 template <typename> struct __and_;
 struct is_member_object_pointer : integral_constant<bool, false> {};
 template <typename>
 struct is_member_function_pointer : integral_constant<bool, false> {};
 template <typename> struct remove_reference { typedef int type; };
 template <typename> class C;
 template <bool, int, typename...> struct __result_of_impl;
 template <typename _Functor, typename... _ArgTypes>
 struct __result_of_impl<false, 0, _Functor, _ArgTypes...> {
   typedef decltype(0) type;
 };
 template <typename _Functor, typename... _ArgTypes>
 struct C<_Functor(_ArgTypes...)>
     : __result_of_impl<is_member_object_pointer::value,
                        is_member_function_pointer<
                            typename remove_reference<_Functor>::type>::value,
                        _Functor> {};
 template <typename _Tp> using result_of_t = typename C<_Tp>::type;
 template <typename> void forward() { }
 template <typename _Tp> _Tp move(_Tp) {}
 namespace __cxx11 {
 class basic_string typedef string;
 }
 template <typename> struct allocator_traits { typedef decltype(0) pointer; };
 }
 struct F : std::allocator_traits<int> {};
 namespace std {
 namespace __cxx11 {
 class basic_string {
 public:
   struct _Alloc_hider : F {
     _Alloc_hider(pointer);
   } _M_dataplus;
   basic_string(int) : _M_dataplus(0) {}
   ~basic_string();
 };
 }
 template <typename> class function;
 template <typename _Functor> class _Base_manager {
 protected:
   static _Functor *_M_get_pointer(int) {}
 };
 template <typename, typename> class _Function_handler;
 template <typename _Res, typename _Functor, typename... _ArgTypes>
 class _Function_handler<_Res(_ArgTypes...), _Functor>
     : _Base_manager<_Functor> {
 public:
   static _Res _M_invoke(const int &) {
     (*_Base_manager<_Functor>::_M_get_pointer(0))();
   }
 };
 template <typename, typename> using __check_func_return_type = int;
 template <typename _Res, typename... _ArgTypes>
 class function<_Res(_ArgTypes...)> {
   template <typename> using _Invoke = decltype(0);
   template <typename _Functor>
   using _Callable = __and_<__check_func_return_type<_Invoke<_Functor>, _Res>>;
   template <typename, typename> using _Requires = int;

 public:
   template <typename _Functor, typename = _Requires<_Callable<_Functor>, void>>
   function(_Functor);
   using _Invoker_type = _Res (*)(const int &);
   _Invoker_type _M_invoker;
 };
 template <typename _Res, typename... _ArgTypes>
 template <typename _Functor, typename>
 function<_Res(_ArgTypes...)>::function(_Functor) {
   _M_invoker = _Function_handler<_Res(), _Functor>::_M_invoke;
 }
 class unique_ptr {
 public:
   ~unique_ptr();
 };
 template <typename _Tp, typename... _Args> _Tp make_unique(_Args... __args) {
   _Tp(__args...);
 }
 }
 class A {
 public:
   template <class T> T as();
 };
 class variables_map {
 public:
   A operator[](std::basic_string);
 };
 class B {
 public:
   variables_map configuration();
   void run(int, int, std::function<void()>);
 };
 class H;
 struct G {
   enum {} _state;
 };
 class D {
   G _local_state;
   std::unique_ptr _task;
   template <typename Func> void schedule(Func func) {
     struct task_with_state {
       task_with_state(Func func) : _func(func) {}
       Func _func;
     } tws = std::make_unique<task_with_state>(std::move(func));
   }
   friend H;
 };
 template <typename> using futurize_t = H;
 class H {
   D *_promise;
   template <typename Func> void schedule(Func func) {
     G __trans_tmp_1;
     struct task_with_ready_state {
       task_with_ready_state(Func, G) { };
     };
     std::make_unique<task_with_ready_state>(std::move(func), __trans_tmp_1);
     _promise->schedule(std::move(func));
   }
   template <typename Func, typename Param> void then(Func func, Param) {
     using P = D;
     P pr;
     schedule([ pr = std::move(pr), func, param = std::forward<Param> ]{});
   }

 public:
   template <typename Func> futurize_t<std::result_of_t<Func()>> then(Func) {
     then(0, [] {});
   }
 } clients;
 int main() {
   B app;
   app.run(0, 0, [&] {
     auto config = app.configuration()[0].as<std::string>();
     clients.then([] {});
   });

   return 0;
 }
	// { dg-lto-do link }
	// { dg-require-effective-target lto_incremental }
	// { dg-lto-options { { -std=gnu++14 -flto -g -Wno-return-type } { -std=gnu++14 -flto -g -O2 -fno-inline -flto-partition=max -Wno-return-type } } }
	// { dg-extra-ld-options "-r -nostdlib" }

	namespace std {
	inline namespace __cxx11 {}
	template <typename _Tp, _Tp> struct integral_constant {
	static constexpr _Tp value = 0;
	};
	template <typename> struct __and_;
	struct is_member_object_pointer : integral_constant<bool, false> {};
	template <typename>
	struct is_member_function_pointer : integral_constant<bool, false> {};
	template <typename> struct remove_reference { typedef int type; };
	template <typename> class C;
	template <bool, int, typename...> struct __result_of_impl;
	template <typename _Functor, typename... _ArgTypes>
	struct __result_of_impl<false, 0, _Functor, _ArgTypes...> {
	typedef decltype(0) type;
	};
	template <typename _Functor, typename... _ArgTypes>
	struct C<_Functor(_ArgTypes...)>
	: __result_of_impl<is_member_object_pointer::value,
	is_member_function_pointer<
	typename remove_reference<_Functor>::type>::value,
	_Functor> {};
	template <typename _Tp> using result_of_t = typename C<_Tp>::type;
	template <typename> void forward() { }
	template <typename _Tp> _Tp move(_Tp) {}
	namespace __cxx11 {
	class basic_string typedef string;
	}
	template <typename> struct allocator_traits { typedef decltype(0) pointer; };
	}
	struct F : std::allocator_traits<int> {};
	namespace std {
	namespace __cxx11 {
	class basic_string {
	public:
	struct _Alloc_hider : F {
	_Alloc_hider(pointer);
	} _M_dataplus;
	basic_string(int) : _M_dataplus(0) {}
	~basic_string();
	};
	}
	template <typename> class function;
	template <typename _Functor> class _Base_manager {
	protected:
	static _Functor *_M_get_pointer(int) {}
	};
	template <typename, typename> class _Function_handler;
	template <typename _Res, typename _Functor, typename... _ArgTypes>
	class _Function_handler<_Res(_ArgTypes...), _Functor>
	: _Base_manager<_Functor> {
	public:
	static _Res _M_invoke(const int &) {
	(*_Base_manager<_Functor>::_M_get_pointer(0))();
	}
	};
	template <typename, typename> using __check_func_return_type = int;
	template <typename _Res, typename... _ArgTypes>
	class function<_Res(_ArgTypes...)> {
	template <typename> using _Invoke = decltype(0);
	template <typename _Functor>
	using _Callable = __and_<__check_func_return_type<_Invoke<_Functor>, _Res>>;
	template <typename, typename> using _Requires = int;

	public:
	template <typename _Functor, typename = _Requires<_Callable<_Functor>, void>>
	function(_Functor);
	using _Invoker_type = _Res (*)(const int &);
	_Invoker_type _M_invoker;
	};
	template <typename _Res, typename... _ArgTypes>
	template <typename _Functor, typename>
	function<_Res(_ArgTypes...)>::function(_Functor) {
	_M_invoker = _Function_handler<_Res(), _Functor>::_M_invoke;
	}
	class unique_ptr {
	public:
	~unique_ptr();
	};
	template <typename _Tp, typename... _Args> _Tp make_unique(_Args... __args) {
	_Tp(__args...);
	}
	}
	class A {
	public:
	template <class T> T as();
	};
	class variables_map {
	public:
	A operator[](std::basic_string);
	};
	class B {
	public:
	variables_map configuration();
	void run(int, int, std::function<void()>);
	};
	class H;
	struct G {
	enum {} _state;
	};
	class D {
	G _local_state;
	std::unique_ptr _task;
	template <typename Func> void schedule(Func func) {
	struct task_with_state {
	task_with_state(Func func) : _func(func) {}
	Func _func;
	} tws = std::make_unique<task_with_state>(std::move(func));
	}
	friend H;
	};
	template <typename> using futurize_t = H;
	class H {
	D *_promise;
	template <typename Func> void schedule(Func func) {
	G __trans_tmp_1;
	struct task_with_ready_state {
	task_with_ready_state(Func, G) { };
	};
	std::make_unique<task_with_ready_state>(std::move(func), __trans_tmp_1);
	_promise->schedule(std::move(func));
	}
	template <typename Func, typename Param> void then(Func func, Param) {
	using P = D;
	P pr;
	schedule([ pr = std::move(pr), func, param = std::forward<Param> ]{});
	}

	public:
	template <typename Func> futurize_t<std::result_of_t<Func()>> then(Func) {
	then(0, [] {});
	}
	} clients;
	int main() {
	B app;
	app.run(0, 0, [&] {
	auto config = app.configuration()[0].as<std::string>();
	clients.then([] {});
	});

	return 0;
	}