// 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(&x); // expected-warning {{address of stack memory}} } int* ret_cpp_reinterpret_cast(double x) { return reinterpret_cast(&x); // expected-warning {{address of stack me}} } int* ret_cpp_reinterpret_cast_no_warning(long x) { return reinterpret_cast(x); // no-warning } int* ret_cpp_const_cast(const int x) { return const_cast(&x); // expected-warning {{address of stack memory}} } struct A { virtual ~A(); }; struct B : A {}; A* ret_cpp_dynamic_cast(B b) { return dynamic_cast(&b); // expected-warning {{address of stack memory}} } // PR 7999 - handle the case where a field is itself a reference. template struct PR7999 { PR7999(T& t) : value(t) {} T& value; }; struct PR7999_X {}; PR7999_X& PR7999_f(PR7999 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 struct B { }; template V f(typename B::type const &v = B::value()) { return v; } template <> struct B { typedef const char *type; static const char *value(); }; void g() { const char *t; f(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; }; (void) [] { int a; return [&] { // expected-warning {{address of stack memory associated with local variable 'a' returned}} return a; // expected-note {{implicitly captured by reference due to use here}} }; }; (void) [] { int a; return [&a] {}; // expected-warning {{address of stack memory associated with local variable 'a' returned}} expected-note {{captured by reference here}} }; (void) [] { int a; return [=] { return a; }; }; (void) [] { int a; return [a] {}; }; (void) [] { int a; // expected-warning@+1 {{C++14}} return [&b = a] {}; // expected-warning {{address of stack memory associated with local variable 'a' returned}} expected-note {{captured by reference via initialization of lambda capture 'b'}} }; (void) [] { int a; // expected-warning@+1 {{C++14}} return [b = &a] {}; // expected-warning {{address of stack memory associated with local variable 'a' returned}} expected-note {{captured via initialization of lambda capture 'b'}} }; } struct HoldsPointer { int *p; }; HoldsPointer ret_via_member_1() { int n; return {&n}; // expected-warning {{address of stack memory associated with local variable 'n' returned}} } HoldsPointer ret_via_member_2() { int n; return HoldsPointer(HoldsPointer{&n}); // expected-warning {{address of stack memory associated with local variable 'n' returned}} } // FIXME: We could diagnose this too. HoldsPointer ret_via_member_3() { int n; const HoldsPointer hp = HoldsPointer{&n}; return hp; } namespace mem_ptr { struct X {}; int X::*f(); int &r(X *p) { return p->*f(); } } namespace PR47861 { struct A { A(int i); A &operator+=(int i); }; A const &b = A(5) += 5; // expected-warning {{temporary bound to local reference 'b' will be destroyed at the end of the full-expression}} }