test/SemaCXX/attr-noreturn.cpp - clang - Git at Google

 // RUN: %clang_cc1 -fsyntax-only -verify %s

 // Reachability tests have to come first because they get suppressed
 // if any errors have occurred.
 namespace test5 {
   struct A {
     __attribute__((noreturn)) void fail();
     void nofail();
   } a;

   int &test1() {
     a.nofail();
   } // expected-warning {{control reaches end of non-void function}}

   int &test2() {
     a.fail();
   }
 }

 namespace destructor_tests {
   __attribute__((noreturn)) void fail();

   struct A {
     ~A() __attribute__((noreturn)) { fail(); }
   };
   struct B {
     B() {}
     ~B() __attribute__((noreturn)) { fail(); }
   };
   struct C : A {};
   struct D : B {};
   struct E : virtual A {};
   struct F : A, virtual B {};
   struct G : E {};
   struct H : virtual D {};
   struct I : A {};
   struct J : I {};
   struct K : virtual A {};
   struct L : K {};
   struct M : virtual C {};
   struct N : M {};
   struct O { N n; };

   __attribute__((noreturn)) void test_1() { A a; }
   __attribute__((noreturn)) void test_2() { B b; }
   __attribute__((noreturn)) void test_3() { C c; }
   __attribute__((noreturn)) void test_4() { D d; }
   __attribute__((noreturn)) void test_5() { E e; }
   __attribute__((noreturn)) void test_6() { F f; }
   __attribute__((noreturn)) void test_7() { G g; }
   __attribute__((noreturn)) void test_8() { H h; }
   __attribute__((noreturn)) void test_9() { I i; }
   __attribute__((noreturn)) void test_10() { J j; }
   __attribute__((noreturn)) void test_11() { K k; }
   __attribute__((noreturn)) void test_12() { L l; }
   __attribute__((noreturn)) void test_13() { M m; }
   __attribute__((noreturn)) void test_14() { N n; }
   __attribute__((noreturn)) void test_15() { O o; }

   __attribute__((noreturn)) void test_16() { const A& a = A(); }
   __attribute__((noreturn)) void test_17() { const B& b = B(); }
   __attribute__((noreturn)) void test_18() { const C& c = C(); }
   __attribute__((noreturn)) void test_19() { const D& d = D(); }
   __attribute__((noreturn)) void test_20() { const E& e = E(); }
   __attribute__((noreturn)) void test_21() { const F& f = F(); }
   __attribute__((noreturn)) void test_22() { const G& g = G(); }
   __attribute__((noreturn)) void test_23() { const H& h = H(); }
   __attribute__((noreturn)) void test_24() { const I& i = I(); }
   __attribute__((noreturn)) void test_25() { const J& j = J(); }
   __attribute__((noreturn)) void test_26() { const K& k = K(); }
   __attribute__((noreturn)) void test_27() { const L& l = L(); }
   __attribute__((noreturn)) void test_28() { const M& m = M(); }
   __attribute__((noreturn)) void test_29() { const N& n = N(); }
   __attribute__((noreturn)) void test_30() { const O& o = O(); }

   struct AA {};
   struct BB { BB() {} ~BB() {} };
   struct CC : AA {};
   struct DD : BB {};
   struct EE : virtual AA {};
   struct FF : AA, virtual BB {};
   struct GG : EE {};
   struct HH : virtual DD {};
   struct II : AA {};
   struct JJ : II {};
   struct KK : virtual AA {};
   struct LL : KK {};
   struct MM : virtual CC {};
   struct NN : MM {};
   struct OO { NN n; };

   __attribute__((noreturn)) void test_31() {
     AA a;
     BB b;
     CC c;
     DD d;
     EE e;
     FF f;
     GG g;
     HH h;
     II i;
     JJ j;
     KK k;
     LL l;
     MM m;
     NN n;
     OO o;

     const AA& aa = AA();
     const BB& bb = BB();
     const CC& cc = CC();
     const DD& dd = DD();
     const EE& ee = EE();
     const FF& ff = FF();
     const GG& gg = GG();
     const HH& hh = HH();
     const II& ii = II();
     const JJ& jj = JJ();
     const KK& kk = KK();
     const LL& ll = LL();
     const MM& mm = MM();
     const NN& nn = NN();
     const OO& oo = OO();
   }  // expected-warning {{function declared 'noreturn' should not return}}

   struct P {
     ~P() __attribute__((noreturn)) { fail(); }
     void foo() {}
   };
   struct Q : P { };
   __attribute__((noreturn)) void test31() {
     P().foo();
   }
   __attribute__((noreturn)) void test32() {
     Q().foo();
   }

   struct R {
     A a[5];
   };
   __attribute__((noreturn)) void test33() {
     R r;
   }

   // FIXME: Code flow analysis does not preserve information about non-null
   // pointers, so it can't determine that this function is noreturn.
   __attribute__((noreturn)) void test34() {
     A *a = new A;
     delete a;
   }  // expected-warning {{function declared 'noreturn' should not return}}

   struct S {
     virtual ~S();
   };
   struct T : S {
     __attribute__((noreturn)) ~T();
   };

   // FIXME: Code flow analysis does not preserve information about non-null
   // pointers or derived class pointers,  so it can't determine that this
   // function is noreturn.
   __attribute__((noreturn)) void test35() {
     S *s = new T;
     delete s;
   }  // expected-warning {{function declared 'noreturn' should not return}}
 }

 // PR5620
 void f0() __attribute__((__noreturn__));
 void f1(void (*)());
 void f2() { f1(f0); }

 // Taking the address of a noreturn function
 void test_f0a() {
   void (*fp)() = f0;
   void (*fp1)() __attribute__((noreturn)) = f0;
 }

 // Taking the address of an overloaded noreturn function
 void f0(int) __attribute__((__noreturn__));

 void test_f0b() {
   void (*fp)() = f0;
   void (*fp1)() __attribute__((noreturn)) = f0;
 }

 // No-returned function pointers
 typedef void (* noreturn_fp)() __attribute__((noreturn));

 void f3(noreturn_fp); // expected-note{{candidate function}}

 void test_f3() {
   f3(f0); // okay
   f3(f2); // expected-error{{no matching function for call}}
 }


 class xpto {
   int blah() __attribute__((noreturn));
 };

 int xpto::blah() {
   return 3; // expected-warning {{function 'blah' declared 'noreturn' should not return}}
 }

 // PR12948

 namespace PR12948 {
   template<int>
   void foo() __attribute__((__noreturn__));

   template<int>
   void foo() {
     while (1) continue;
   }

   void bar() __attribute__((__noreturn__));

   void bar() {
     foo<0>();
   }


   void baz() __attribute__((__noreturn__));
   typedef void voidfn();
   voidfn baz;

   template<typename> void wibble()  __attribute__((__noreturn__));
   template<typename> voidfn wibble;
 }

 // PR15291
 // Overload resolution per over.over should allow implicit noreturn adjustment.
 namespace PR15291 {
   __attribute__((noreturn)) void foo(int) {}
   __attribute__((noreturn)) void foo(double) {}

   template <typename T>
   __attribute__((noreturn)) void bar(T) {}

   void baz(int) {}
   void baz(double) {}

   template <typename T>
   void qux(T) {}

   // expected-note@+5 {{candidate function template not viable: no overload of 'baz' matching 'void (*)(int) __attribute__((noreturn))' for 1st argument}}
   // expected-note@+4 {{candidate function template not viable: no overload of 'qux' matching 'void (*)(int) __attribute__((noreturn))' for 1st argument}}
   // expected-note@+3 {{candidate function template not viable: no overload of 'bar' matching 'void (*)(int) __attribute__((noreturn))' for 1st argument}}
   // expected-note@+2 {{candidate function template not viable: no overload of 'bar' matching 'void (*)(int)' for 1st argument}}
   // expected-note@+1 {{candidate function template not viable: no overload of 'bar' matching 'void (*)(int)' for 1st argument}}
   template <typename T> void accept_T(T) {}

   // expected-note@+1 {{candidate function not viable: no overload of 'bar' matching 'void (*)(int)' for 1st argument}}
   void accept_fptr(void (*f)(int)) {
     f(42);
   }

   // expected-note@+2 {{candidate function not viable: no overload of 'baz' matching 'void (*)(int) __attribute__((noreturn))' for 1st argument}}
   // expected-note@+1 {{candidate function not viable: no overload of 'qux' matching 'void (*)(int) __attribute__((noreturn))' for 1st argument}}
   void accept_noreturn_fptr(void __attribute__((noreturn)) (*f)(int)) {
     f(42);
   }

   typedef void (*fptr_t)(int);
   typedef void __attribute__((noreturn)) (*fptr_noreturn_t)(int);

   // expected-note@+1 {{candidate function not viable: no overload of 'bar' matching 'PR15291::fptr_t' (aka 'void (*)(int)') for 1st argument}}
   void accept_fptr_t(fptr_t f) {
     f(42);
   }

   // expected-note@+2 {{candidate function not viable: no overload of 'baz' matching 'PR15291::fptr_noreturn_t' (aka 'void (*)(int) __attribute__((noreturn))') for 1st argument}}
   // expected-note@+1 {{candidate function not viable: no overload of 'qux' matching 'PR15291::fptr_noreturn_t' (aka 'void (*)(int) __attribute__((noreturn))') for 1st argument}}
   void accept_fptr_noreturn_t(fptr_noreturn_t f) {
     f(42);
   }

   // Stripping noreturn should work if everything else is correct.
   void strip_noreturn() {
     accept_fptr(foo);
     accept_fptr(bar<int>);
     accept_fptr(bar<double>); // expected-error {{no matching function for call to 'accept_fptr'}}

     accept_fptr_t(foo);
     accept_fptr_t(bar<int>);
     accept_fptr_t(bar<double>); // expected-error {{no matching function for call to 'accept_fptr_t'}}

     accept_T<void __attribute__((noreturn)) (*)(int)>(foo);
     accept_T<void __attribute__((noreturn)) (*)(int)>(bar<int>);
     accept_T<void __attribute__((noreturn)) (*)(int)>(bar<double>); // expected-error {{no matching function for call to 'accept_T'}}

     accept_T<void (*)(int)>(foo);
     accept_T<void (*)(int)>(bar<int>);
     accept_T<void (*)(int)>(bar<double>); // expected-error {{no matching function for call to 'accept_T'}}

     accept_T<void (int)>(foo);
     accept_T<void (int)>(bar<int>);
     accept_T<void (int)>(bar<double>); // expected-error {{no matching function for call to 'accept_T'}}
   }

   // Introducing noreturn should not work.
   void introduce_noreturn() {
     accept_noreturn_fptr(baz); // expected-error {{no matching function for call to 'accept_noreturn_fptr'}}
     accept_noreturn_fptr(qux<int>); // expected-error {{no matching function for call to 'accept_noreturn_fptr'}}

     accept_fptr_noreturn_t(baz); // expected-error {{no matching function for call to 'accept_fptr_noreturn_t'}}
     accept_fptr_noreturn_t(qux<int>); // expected-error {{no matching function for call to 'accept_fptr_noreturn_t'}}

     accept_T<void __attribute__((noreturn)) (*)(int)>(baz); // expected-error {{no matching function for call to 'accept_T'}}
     accept_T<void __attribute__((noreturn)) (*)(int)>(qux<int>); // expected-error {{no matching function for call to 'accept_T'}}
   }
 }
	// RUN: %clang_cc1 -fsyntax-only -verify %s

	// Reachability tests have to come first because they get suppressed
	// if any errors have occurred.
	namespace test5 {
	struct A {
	__attribute__((noreturn)) void fail();
	void nofail();
	} a;

	int &test1() {
	a.nofail();
	} // expected-warning {{control reaches end of non-void function}}

	int &test2() {
	a.fail();
	}
	}

	namespace destructor_tests {
	__attribute__((noreturn)) void fail();

	struct A {
	~A() __attribute__((noreturn)) { fail(); }
	};
	struct B {
	B() {}
	~B() __attribute__((noreturn)) { fail(); }
	};
	struct C : A {};
	struct D : B {};
	struct E : virtual A {};
	struct F : A, virtual B {};
	struct G : E {};
	struct H : virtual D {};
	struct I : A {};
	struct J : I {};
	struct K : virtual A {};
	struct L : K {};
	struct M : virtual C {};
	struct N : M {};
	struct O { N n; };

	__attribute__((noreturn)) void test_1() { A a; }
	__attribute__((noreturn)) void test_2() { B b; }
	__attribute__((noreturn)) void test_3() { C c; }
	__attribute__((noreturn)) void test_4() { D d; }
	__attribute__((noreturn)) void test_5() { E e; }
	__attribute__((noreturn)) void test_6() { F f; }
	__attribute__((noreturn)) void test_7() { G g; }
	__attribute__((noreturn)) void test_8() { H h; }
	__attribute__((noreturn)) void test_9() { I i; }
	__attribute__((noreturn)) void test_10() { J j; }
	__attribute__((noreturn)) void test_11() { K k; }
	__attribute__((noreturn)) void test_12() { L l; }
	__attribute__((noreturn)) void test_13() { M m; }
	__attribute__((noreturn)) void test_14() { N n; }
	__attribute__((noreturn)) void test_15() { O o; }

	__attribute__((noreturn)) void test_16() { const A& a = A(); }
	__attribute__((noreturn)) void test_17() { const B& b = B(); }
	__attribute__((noreturn)) void test_18() { const C& c = C(); }
	__attribute__((noreturn)) void test_19() { const D& d = D(); }
	__attribute__((noreturn)) void test_20() { const E& e = E(); }
	__attribute__((noreturn)) void test_21() { const F& f = F(); }
	__attribute__((noreturn)) void test_22() { const G& g = G(); }
	__attribute__((noreturn)) void test_23() { const H& h = H(); }
	__attribute__((noreturn)) void test_24() { const I& i = I(); }
	__attribute__((noreturn)) void test_25() { const J& j = J(); }
	__attribute__((noreturn)) void test_26() { const K& k = K(); }
	__attribute__((noreturn)) void test_27() { const L& l = L(); }
	__attribute__((noreturn)) void test_28() { const M& m = M(); }
	__attribute__((noreturn)) void test_29() { const N& n = N(); }
	__attribute__((noreturn)) void test_30() { const O& o = O(); }

	struct AA {};
	struct BB { BB() {} ~BB() {} };
	struct CC : AA {};
	struct DD : BB {};
	struct EE : virtual AA {};
	struct FF : AA, virtual BB {};
	struct GG : EE {};
	struct HH : virtual DD {};
	struct II : AA {};
	struct JJ : II {};
	struct KK : virtual AA {};
	struct LL : KK {};
	struct MM : virtual CC {};
	struct NN : MM {};
	struct OO { NN n; };

	__attribute__((noreturn)) void test_31() {
	AA a;
	BB b;
	CC c;
	DD d;
	EE e;
	FF f;
	GG g;
	HH h;
	II i;
	JJ j;
	KK k;
	LL l;
	MM m;
	NN n;
	OO o;

	const AA& aa = AA();
	const BB& bb = BB();
	const CC& cc = CC();
	const DD& dd = DD();
	const EE& ee = EE();
	const FF& ff = FF();
	const GG& gg = GG();
	const HH& hh = HH();
	const II& ii = II();
	const JJ& jj = JJ();
	const KK& kk = KK();
	const LL& ll = LL();
	const MM& mm = MM();
	const NN& nn = NN();
	const OO& oo = OO();
	} // expected-warning {{function declared 'noreturn' should not return}}

	struct P {
	~P() __attribute__((noreturn)) { fail(); }
	void foo() {}
	};
	struct Q : P { };
	__attribute__((noreturn)) void test31() {
	P().foo();
	}
	__attribute__((noreturn)) void test32() {
	Q().foo();
	}

	struct R {
	A a[5];
	};
	__attribute__((noreturn)) void test33() {
	R r;
	}

	// FIXME: Code flow analysis does not preserve information about non-null
	// pointers, so it can't determine that this function is noreturn.
	__attribute__((noreturn)) void test34() {
	A *a = new A;
	delete a;
	} // expected-warning {{function declared 'noreturn' should not return}}

	struct S {
	virtual ~S();
	};
	struct T : S {
	__attribute__((noreturn)) ~T();
	};

	// FIXME: Code flow analysis does not preserve information about non-null
	// pointers or derived class pointers, so it can't determine that this
	// function is noreturn.
	__attribute__((noreturn)) void test35() {
	S *s = new T;
	delete s;
	} // expected-warning {{function declared 'noreturn' should not return}}
	}

	// PR5620
	void f0() __attribute__((__noreturn__));
	void f1(void (*)());
	void f2() { f1(f0); }

	// Taking the address of a noreturn function
	void test_f0a() {
	void (*fp)() = f0;
	void (*fp1)() __attribute__((noreturn)) = f0;
	}

	// Taking the address of an overloaded noreturn function
	void f0(int) __attribute__((__noreturn__));

	void test_f0b() {
	void (*fp)() = f0;
	void (*fp1)() __attribute__((noreturn)) = f0;
	}

	// No-returned function pointers
	typedef void (* noreturn_fp)() __attribute__((noreturn));

	void f3(noreturn_fp); // expected-note{{candidate function}}

	void test_f3() {
	f3(f0); // okay
	f3(f2); // expected-error{{no matching function for call}}
	}


	class xpto {
	int blah() __attribute__((noreturn));
	};

	int xpto::blah() {
	return 3; // expected-warning {{function 'blah' declared 'noreturn' should not return}}
	}

	// PR12948

	namespace PR12948 {
	template<int>
	void foo() __attribute__((__noreturn__));

	template<int>
	void foo() {
	while (1) continue;
	}

	void bar() __attribute__((__noreturn__));

	void bar() {
	foo<0>();
	}


	void baz() __attribute__((__noreturn__));
	typedef void voidfn();
	voidfn baz;

	template<typename> void wibble() __attribute__((__noreturn__));
	template<typename> voidfn wibble;
	}

	// PR15291
	// Overload resolution per over.over should allow implicit noreturn adjustment.
	namespace PR15291 {
	__attribute__((noreturn)) void foo(int) {}
	__attribute__((noreturn)) void foo(double) {}

	template <typename T>
	__attribute__((noreturn)) void bar(T) {}

	void baz(int) {}
	void baz(double) {}

	template <typename T>
	void qux(T) {}

	// expected-note@+5 {{candidate function template not viable: no overload of 'baz' matching 'void (*)(int) __attribute__((noreturn))' for 1st argument}}
	// expected-note@+4 {{candidate function template not viable: no overload of 'qux' matching 'void (*)(int) __attribute__((noreturn))' for 1st argument}}
	// expected-note@+3 {{candidate function template not viable: no overload of 'bar' matching 'void (*)(int) __attribute__((noreturn))' for 1st argument}}
	// expected-note@+2 {{candidate function template not viable: no overload of 'bar' matching 'void (*)(int)' for 1st argument}}
	// expected-note@+1 {{candidate function template not viable: no overload of 'bar' matching 'void (*)(int)' for 1st argument}}
	template <typename T> void accept_T(T) {}

	// expected-note@+1 {{candidate function not viable: no overload of 'bar' matching 'void (*)(int)' for 1st argument}}
	void accept_fptr(void (*f)(int)) {
	f(42);
	}

	// expected-note@+2 {{candidate function not viable: no overload of 'baz' matching 'void (*)(int) __attribute__((noreturn))' for 1st argument}}
	// expected-note@+1 {{candidate function not viable: no overload of 'qux' matching 'void (*)(int) __attribute__((noreturn))' for 1st argument}}
	void accept_noreturn_fptr(void __attribute__((noreturn)) (*f)(int)) {
	f(42);
	}

	typedef void (*fptr_t)(int);
	typedef void __attribute__((noreturn)) (*fptr_noreturn_t)(int);

	// expected-note@+1 {{candidate function not viable: no overload of 'bar' matching 'PR15291::fptr_t' (aka 'void (*)(int)') for 1st argument}}
	void accept_fptr_t(fptr_t f) {
	f(42);
	}

	// expected-note@+2 {{candidate function not viable: no overload of 'baz' matching 'PR15291::fptr_noreturn_t' (aka 'void (*)(int) __attribute__((noreturn))') for 1st argument}}
	// expected-note@+1 {{candidate function not viable: no overload of 'qux' matching 'PR15291::fptr_noreturn_t' (aka 'void (*)(int) __attribute__((noreturn))') for 1st argument}}
	void accept_fptr_noreturn_t(fptr_noreturn_t f) {
	f(42);
	}

	// Stripping noreturn should work if everything else is correct.
	void strip_noreturn() {
	accept_fptr(foo);
	accept_fptr(bar<int>);
	accept_fptr(bar<double>); // expected-error {{no matching function for call to 'accept_fptr'}}

	accept_fptr_t(foo);
	accept_fptr_t(bar<int>);
	accept_fptr_t(bar<double>); // expected-error {{no matching function for call to 'accept_fptr_t'}}

	accept_T<void __attribute__((noreturn)) (*)(int)>(foo);
	accept_T<void __attribute__((noreturn)) (*)(int)>(bar<int>);
	accept_T<void __attribute__((noreturn)) (*)(int)>(bar<double>); // expected-error {{no matching function for call to 'accept_T'}}

	accept_T<void (*)(int)>(foo);
	accept_T<void (*)(int)>(bar<int>);
	accept_T<void (*)(int)>(bar<double>); // expected-error {{no matching function for call to 'accept_T'}}

	accept_T<void (int)>(foo);
	accept_T<void (int)>(bar<int>);
	accept_T<void (int)>(bar<double>); // expected-error {{no matching function for call to 'accept_T'}}
	}

	// Introducing noreturn should not work.
	void introduce_noreturn() {
	accept_noreturn_fptr(baz); // expected-error {{no matching function for call to 'accept_noreturn_fptr'}}
	accept_noreturn_fptr(qux<int>); // expected-error {{no matching function for call to 'accept_noreturn_fptr'}}

	accept_fptr_noreturn_t(baz); // expected-error {{no matching function for call to 'accept_fptr_noreturn_t'}}
	accept_fptr_noreturn_t(qux<int>); // expected-error {{no matching function for call to 'accept_fptr_noreturn_t'}}

	accept_T<void __attribute__((noreturn)) (*)(int)>(baz); // expected-error {{no matching function for call to 'accept_T'}}
	accept_T<void __attribute__((noreturn)) (*)(int)>(qux<int>); // expected-error {{no matching function for call to 'accept_T'}}
	}
	}