safecode/tools/clang/test/CXX/expr/expr.prim/expr.prim.lambda/p4-1y.cpp - llvm-archive - Git at Google

 // RUN: %clang_cc1 -fsyntax-only -std=c++1y %s -verify

 int a;
 int &b = [] (int &r) -> decltype(auto) { return r; } (a);
 int &c = [] (int &r) -> decltype(auto) { return (r); } (a);
 int &d = [] (int &r) -> auto & { return r; } (a);
 int &e = [] (int &r) -> auto { return r; } (a); // expected-error {{cannot bind to a temporary}}
 int &f = [] (int r) -> decltype(auto) { return r; } (a); // expected-error {{cannot bind to a temporary}}
 int &g = [] (int r) -> decltype(auto) { return (r); } (a); // expected-warning {{reference to stack}}


 int test_explicit_auto_return()
 {
     struct X {};
     auto L = [](auto F, auto a) { return F(a); };
     auto M = [](auto a) -> auto { return a; }; // OK
     auto MRef = [](auto b) -> auto& { return b; }; //expected-warning{{reference to stack}}
     auto MPtr = [](auto c) -> auto* { return &c; }; //expected-warning{{address of stack}}
     auto MDeclType = [](auto&& d) -> decltype(auto) { return static_cast<decltype(d)>(d); }; //OK
     M(3);

     auto &&x = MDeclType(X{});
     auto &&x1 = M(X{});
     auto &&x2 = MRef(X{});//expected-note{{in instantiation of}}
     auto &&x3 = MPtr(X{}); //expected-note{{in instantiation of}}
     return 0;
 }

 int test_implicit_auto_return()
 {
   {
     auto M = [](auto a) { return a; };
     struct X {};
     X x = M(X{});

   }
 }

 int test_multiple_returns()  {
     auto M = [](auto a) {
       bool k;
       if (k)
         return a;
       else
         return 5; //expected-error{{deduced as 'int' here}}
     };
     M(3); // OK
     M('a'); //expected-note{{in instantiation of}}
   return 0;
 }
 int test_no_parameter_list()
 {
   static int si = 0;
     auto M = [] { return 5; }; // OK
     auto M2 = [] -> auto&& { return si; }; // expected-error{{lambda requires '()'}}
     M();
 }

 int test_conditional_in_return() {
   auto Fac = [](auto f, auto n) {
     return n <= 0 ? n : f(f, n - 1) * n;
   };
   // FIXME: this test causes a recursive limit - need to error more gracefully.
   //Fac(Fac, 3);

 }
	// RUN: %clang_cc1 -fsyntax-only -std=c++1y %s -verify

	int a;
	int &b = [] (int &r) -> decltype(auto) { return r; } (a);
	int &c = [] (int &r) -> decltype(auto) { return (r); } (a);
	int &d = [] (int &r) -> auto & { return r; } (a);
	int &e = [] (int &r) -> auto { return r; } (a); // expected-error {{cannot bind to a temporary}}
	int &f = [] (int r) -> decltype(auto) { return r; } (a); // expected-error {{cannot bind to a temporary}}
	int &g = [] (int r) -> decltype(auto) { return (r); } (a); // expected-warning {{reference to stack}}


	int test_explicit_auto_return()
	{
	struct X {};
	auto L = [](auto F, auto a) { return F(a); };
	auto M = [](auto a) -> auto { return a; }; // OK
	auto MRef = [](auto b) -> auto& { return b; }; //expected-warning{{reference to stack}}
	auto MPtr = [](auto c) -> auto* { return &c; }; //expected-warning{{address of stack}}
	auto MDeclType = [](auto&& d) -> decltype(auto) { return static_cast<decltype(d)>(d); }; //OK
	M(3);

	auto &&x = MDeclType(X{});
	auto &&x1 = M(X{});
	auto &&x2 = MRef(X{});//expected-note{{in instantiation of}}
	auto &&x3 = MPtr(X{}); //expected-note{{in instantiation of}}
	return 0;
	}

	int test_implicit_auto_return()
	{
	{
	auto M = [](auto a) { return a; };
	struct X {};
	X x = M(X{});

	}
	}

	int test_multiple_returns() {
	auto M = [](auto a) {
	bool k;
	if (k)
	return a;
	else
	return 5; //expected-error{{deduced as 'int' here}}
	};
	M(3); // OK
	M('a'); //expected-note{{in instantiation of}}
	return 0;
	}
	int test_no_parameter_list()
	{
	static int si = 0;
	auto M = [] { return 5; }; // OK
	auto M2 = [] -> auto&& { return si; }; // expected-error{{lambda requires '()'}}
	M();
	}

	int test_conditional_in_return() {
	auto Fac = [](auto f, auto n) {
	return n <= 0 ? n : f(f, n - 1) * n;
	};
	// FIXME: this test causes a recursive limit - need to error more gracefully.
	//Fac(Fac, 3);

	}