test/SemaCXX/return-stack-addr.cpp - third_party/swift-clang - Git at Google

 // RUN: %clang_cc1 -fsyntax-only -verify -std=c++11 %s

 int* ret_local() {
   int x = 1;
   return &x; // expected-warning {{address of stack memory}}
 }

 int* ret_local_array() {
   int x[10];
   return x; // expected-warning {{address of stack memory}}
 }

 int* ret_local_array_element(int i) {
   int x[10];
   return &x[i]; // expected-warning {{address of stack memory}}
 }

 int *ret_local_array_element_reversed(int i) {
   int x[10];
   return &i[x]; // expected-warning {{address of stack memory}}
 }

 int* ret_local_array_element_const_index() {
   int x[10];
   return &x[2];  // expected-warning {{address of stack memory}}
 }

 int& ret_local_ref() {
   int x = 1;
   return x;  // expected-warning {{reference to stack memory}}
 }

 int* ret_local_addrOf() {
   int x = 1;
   return &*&x; // expected-warning {{address of stack memory}}
 }

 int* ret_local_addrOf_paren() {
   int x = 1;
   return (&(*(&x))); // expected-warning {{address of stack memory}}
 }

 int* ret_local_addrOf_ptr_arith() {
   int x = 1;
   return &*(&x+1); // expected-warning {{address of stack memory}}
 }

 int* ret_local_addrOf_ptr_arith2() {
   int x = 1;
   return &*(&x+1); // expected-warning {{address of stack memory}}
 }

 int* ret_local_field() {
   struct { int x; } a;
   return &a.x; // expected-warning {{address of stack memory}}
 }

 int& ret_local_field_ref() {
   struct { int x; } a;
   return a.x; // expected-warning {{reference to stack memory}}
 }

 int* ret_conditional(bool cond) {
   int x = 1;
   int y = 2;
   return cond ? &x // expected-warning {{address of stack memory associated with local variable 'x' returned}}
               : &y; // expected-warning {{address of stack memory associated with local variable 'y' returned}}
 }

 int* ret_conditional_rhs(int *x, bool cond) {
   int y = 1;
   return cond ? x : &y;  // expected-warning {{address of stack memory}}
 }

 void* ret_c_cast() {
   int x = 1;
   return (void*) &x;  // expected-warning {{address of stack memory}}
 }

 int* ret_static_var() {
   static int x = 1;
   return &x;  // no warning.
 }

 int z = 1;

 int* ret_global() {
   return &z;  // no warning.
 }

 int* ret_parameter(int x) {
   return &x;  // expected-warning {{address of stack memory}}
 }


 void* ret_cpp_static_cast(short x) {
   return static_cast<void*>(&x); // expected-warning {{address of stack memory}}
 }

 int* ret_cpp_reinterpret_cast(double x) {
   return reinterpret_cast<int*>(&x); // expected-warning {{address of stack me}}
 }

 int* ret_cpp_reinterpret_cast_no_warning(long x) {
   return reinterpret_cast<int*>(x); // no-warning
 }

 int* ret_cpp_const_cast(const int x) {
   return const_cast<int*>(&x);  // expected-warning {{address of stack memory}}
 }

 struct A { virtual ~A(); }; struct B : A {};
 A* ret_cpp_dynamic_cast(B b) {
   return dynamic_cast<A*>(&b); // expected-warning {{address of stack memory}}
 }

 // PR 7999 - handle the case where a field is itself a reference.
 template <typename T> struct PR7999 {
   PR7999(T& t) : value(t) {}
   T& value;
 };

 struct PR7999_X {};

 PR7999_X& PR7999_f(PR7999<PR7999_X> s) { return s.value; } // no-warning
 void test_PR7999(PR7999_X& x) { (void)PR7999_f(x); } // no-warning

 // PR 8774: Don't try to evaluate parameters with default arguments like
 // variables with an initializer, especially in templates where the default
 // argument may not be an expression (yet).
 namespace PR8774 {
   template <typename U> struct B { };
   template <typename V> V f(typename B<V>::type const &v = B<V>::value()) {
     return v;
   }
   template <> struct B<const char *> {
     typedef const char *type;
     static const char *value();
   };
   void g() {
     const char *t;
     f<const char*>(t);
   }
 }

 // Don't warn about returning a local variable from a surrounding function if
 // we're within a lambda-expression.
 void ret_from_lambda() {
   int a;
   int &b = a;
   (void) [&]() -> int& { return a; };
   (void) [&]() -> int& { return b; };
   (void) [=]() mutable -> int& { return a; };
   (void) [=]() mutable -> int& { return b; };
   (void) [&]() -> int& { int a; return a; }; // expected-warning {{reference to stack}}
   (void) [=]() -> int& { int a; return a; }; // expected-warning {{reference to stack}}
   (void) [&]() -> int& { int &a = b; return a; };
   (void) [=]() mutable -> int& { int &a = b; return a; };
 }

 namespace mem_ptr {
   struct X {};
   int X::*f();
   int &r(X *p) { return p->*f(); }
 }
	// RUN: %clang_cc1 -fsyntax-only -verify -std=c++11 %s

	int* ret_local() {
	int x = 1;
	return &x; // expected-warning {{address of stack memory}}
	}

	int* ret_local_array() {
	int x[10];
	return x; // expected-warning {{address of stack memory}}
	}

	int* ret_local_array_element(int i) {
	int x[10];
	return &x[i]; // expected-warning {{address of stack memory}}
	}

	int *ret_local_array_element_reversed(int i) {
	int x[10];
	return &i[x]; // expected-warning {{address of stack memory}}
	}

	int* ret_local_array_element_const_index() {
	int x[10];
	return &x[2]; // expected-warning {{address of stack memory}}
	}

	int& ret_local_ref() {
	int x = 1;
	return x; // expected-warning {{reference to stack memory}}
	}

	int* ret_local_addrOf() {
	int x = 1;
	return &*&x; // expected-warning {{address of stack memory}}
	}

	int* ret_local_addrOf_paren() {
	int x = 1;
	return (&(*(&x))); // expected-warning {{address of stack memory}}
	}

	int* ret_local_addrOf_ptr_arith() {
	int x = 1;
	return &*(&x+1); // expected-warning {{address of stack memory}}
	}

	int* ret_local_addrOf_ptr_arith2() {
	int x = 1;
	return &*(&x+1); // expected-warning {{address of stack memory}}
	}

	int* ret_local_field() {
	struct { int x; } a;
	return &a.x; // expected-warning {{address of stack memory}}
	}

	int& ret_local_field_ref() {
	struct { int x; } a;
	return a.x; // expected-warning {{reference to stack memory}}
	}

	int* ret_conditional(bool cond) {
	int x = 1;
	int y = 2;
	return cond ? &x // expected-warning {{address of stack memory associated with local variable 'x' returned}}
	: &y; // expected-warning {{address of stack memory associated with local variable 'y' returned}}
	}

	int* ret_conditional_rhs(int *x, bool cond) {
	int y = 1;
	return cond ? x : &y; // expected-warning {{address of stack memory}}
	}

	void* ret_c_cast() {
	int x = 1;
	return (void*) &x; // expected-warning {{address of stack memory}}
	}

	int* ret_static_var() {
	static int x = 1;
	return &x; // no warning.
	}

	int z = 1;

	int* ret_global() {
	return &z; // no warning.
	}

	int* ret_parameter(int x) {
	return &x; // expected-warning {{address of stack memory}}
	}


	void* ret_cpp_static_cast(short x) {
	return static_cast<void*>(&x); // expected-warning {{address of stack memory}}
	}

	int* ret_cpp_reinterpret_cast(double x) {
	return reinterpret_cast<int*>(&x); // expected-warning {{address of stack me}}
	}

	int* ret_cpp_reinterpret_cast_no_warning(long x) {
	return reinterpret_cast<int*>(x); // no-warning
	}

	int* ret_cpp_const_cast(const int x) {
	return const_cast<int*>(&x); // expected-warning {{address of stack memory}}
	}

	struct A { virtual ~A(); }; struct B : A {};
	A* ret_cpp_dynamic_cast(B b) {
	return dynamic_cast<A*>(&b); // expected-warning {{address of stack memory}}
	}

	// PR 7999 - handle the case where a field is itself a reference.
	template <typename T> struct PR7999 {
	PR7999(T& t) : value(t) {}
	T& value;
	};

	struct PR7999_X {};

	PR7999_X& PR7999_f(PR7999<PR7999_X> s) { return s.value; } // no-warning
	void test_PR7999(PR7999_X& x) { (void)PR7999_f(x); } // no-warning

	// PR 8774: Don't try to evaluate parameters with default arguments like
	// variables with an initializer, especially in templates where the default
	// argument may not be an expression (yet).
	namespace PR8774 {
	template <typename U> struct B { };
	template <typename V> V f(typename B<V>::type const &v = B<V>::value()) {
	return v;
	}
	template <> struct B<const char *> {
	typedef const char *type;
	static const char *value();
	};
	void g() {
	const char *t;
	f<const char*>(t);
	}
	}

	// Don't warn about returning a local variable from a surrounding function if
	// we're within a lambda-expression.
	void ret_from_lambda() {
	int a;
	int &b = a;
	(void) [&]() -> int& { return a; };
	(void) [&]() -> int& { return b; };
	(void) [=]() mutable -> int& { return a; };
	(void) [=]() mutable -> int& { return b; };
	(void) [&]() -> int& { int a; return a; }; // expected-warning {{reference to stack}}
	(void) [=]() -> int& { int a; return a; }; // expected-warning {{reference to stack}}
	(void) [&]() -> int& { int &a = b; return a; };
	(void) [=]() mutable -> int& { int &a = b; return a; };
	}

	namespace mem_ptr {
	struct X {};
	int X::*f();
	int &r(X p) { return p->f(); }
	}