// RUN: %clang_cc1 -std=c++98 %s -Wno-parentheses -Wdeprecated -verify=expected,not-cxx20 -triple x86_64-linux-gnu // RUN: %clang_cc1 -std=c++11 %s -Wno-parentheses -Wdeprecated -verify=expected,not-cxx20 -triple x86_64-linux-gnu // RUN: %clang_cc1 -std=c++14 %s -Wno-parentheses -Wdeprecated -verify=expected,not-cxx20 -triple x86_64-linux-gnu // RUN: %clang_cc1 -std=c++17 %s -Wno-parentheses -Wdeprecated -verify=expected,not-cxx20 -triple x86_64-linux-gnu // RUN: %clang_cc1 -std=c++2a %s -Wno-parentheses -Wdeprecated -verify=expected,cxx20 -triple x86_64-linux-gnu // RUN: %clang_cc1 -std=c++14 %s -Wno-parentheses -Wdeprecated -verify=expected,not-cxx20 -triple x86_64-linux-gnu -Wno-deprecated-register -DNO_DEPRECATED_FLAGS #include "Inputs/register.h" namespace std { struct type_info {}; } void g() throw(); void h() throw(int); void i() throw(...); #if __cplusplus > 201402L // expected-warning@-4 {{dynamic exception specifications are deprecated}} expected-note@-4 {{use 'noexcept' instead}} // expected-error@-4 {{ISO C++17 does not allow dynamic exception specifications}} expected-note@-4 {{use 'noexcept(false)' instead}} // expected-error@-4 {{ISO C++17 does not allow dynamic exception specifications}} expected-note@-4 {{use 'noexcept(false)' instead}} #elif __cplusplus >= 201103L // expected-warning@-8 {{dynamic exception specifications are deprecated}} expected-note@-8 {{use 'noexcept' instead}} // expected-warning@-8 {{dynamic exception specifications are deprecated}} expected-note@-8 {{use 'noexcept(false)' instead}} // expected-warning@-8 {{dynamic exception specifications are deprecated}} expected-note@-8 {{use 'noexcept(false)' instead}} #endif void stuff(register int q) { #if __cplusplus > 201402L // expected-error@-2 {{ISO C++17 does not allow 'register' storage class specifier}} #elif __cplusplus >= 201103L && !defined(NO_DEPRECATED_FLAGS) // expected-warning@-4 {{'register' storage class specifier is deprecated}} #endif register int n; #if __cplusplus > 201402L // expected-error@-2 {{ISO C++17 does not allow 'register' storage class specifier}} #elif __cplusplus >= 201103L && !defined(NO_DEPRECATED_FLAGS) // expected-warning@-4 {{'register' storage class specifier is deprecated}} #endif register int m asm("rbx"); // no-warning int k = to_int(n); // no-warning bool b; ++b; #if __cplusplus > 201402L // expected-error@-2 {{ISO C++17 does not allow incrementing expression of type bool}} #else // expected-warning@-4 {{incrementing expression of type bool is deprecated}} #endif b++; #if __cplusplus > 201402L // expected-error@-2 {{ISO C++17 does not allow incrementing expression of type bool}} #else // expected-warning@-4 {{incrementing expression of type bool is deprecated}} #endif char *p = "foo"; #if __cplusplus < 201103L // expected-warning@-2 {{conversion from string literal to 'char *' is deprecated}} #else // expected-warning@-4 {{ISO C++11 does not allow conversion from string literal to 'char *'}} #endif } struct S { int n; void operator+(int); }; struct T : private S { S::n; #if __cplusplus < 201103L // expected-warning@-2 {{access declarations are deprecated; use using declarations instead}} #else // expected-error@-4 {{ISO C++11 does not allow access declarations; use using declarations instead}} #endif S::operator+; #if __cplusplus < 201103L // expected-warning@-2 {{access declarations are deprecated; use using declarations instead}} #else // expected-error@-4 {{ISO C++11 does not allow access declarations; use using declarations instead}} #endif }; #if __cplusplus >= 201103L namespace DeprecatedCopy { struct Assign { Assign &operator=(const Assign&); // expected-warning {{definition of implicit copy constructor for 'Assign' is deprecated because it has a user-declared copy assignment operator}} }; Assign a1, a2(a1); // expected-note {{implicit copy constructor for 'DeprecatedCopy::Assign' first required here}} struct Ctor { Ctor(); Ctor(const Ctor&); // expected-warning {{definition of implicit copy assignment operator for 'Ctor' is deprecated because it has a user-declared copy constructor}} }; Ctor b1, b2; void f() { b1 = b2; } // expected-note {{implicit copy assignment operator for 'DeprecatedCopy::Ctor' first required here}} struct Dtor { ~Dtor(); // expected-warning@-1 {{definition of implicit copy constructor for 'Dtor' is deprecated because it has a user-declared destructor}} // expected-warning@-2 {{definition of implicit copy assignment operator for 'Dtor' is deprecated because it has a user-declared destructor}} }; Dtor c1, c2(c1); // expected-note {{implicit copy constructor for 'DeprecatedCopy::Dtor' first required here}} void g() { c1 = c2; } // expected-note {{implicit copy assignment operator for 'DeprecatedCopy::Dtor' first required here}} struct DefaultedDtor { ~DefaultedDtor() = default; }; DefaultedDtor d1, d2(d1); void h() { d1 = d2; } } #endif struct X { friend int operator,(X, X); void operator[](int); }; void array_index_comma() { int arr[123]; (void)arr[(void)1, 2]; (void)arr[X(), X()]; X()[(void)1, 2]; X()[X(), X()]; #if __cplusplus > 201703L // expected-warning@-5 {{deprecated}} // expected-warning@-5 {{deprecated}} // expected-warning@-5 {{deprecated}} // expected-warning@-5 {{deprecated}} #endif (void)arr[((void)1, 2)]; (void)arr[(X(), X())]; (void)((void)1,2)[arr]; (void)(X(), X())[arr]; X()[((void)1, 2)]; X()[(X(), X())]; } namespace DeprecatedVolatile { volatile int n = 1; void use(int); void f() { // simple assignments are deprecated only if their value is used n = 5; // ok #if __cplusplus >= 201103L decltype(n = 5) m = n; // ok expected-warning {{side effects}} (void)noexcept(n = 5); // ok expected-warning {{side effects}} #endif (void)typeid(n = 5); // ok expected-warning {{side effects}} (n = 5, 0); // ok use(n = 5); // cxx20-warning {{use of result of assignment to object of volatile-qualified type 'volatile int' is deprecated}} int q = n = 5; // cxx20-warning {{deprecated}} q = n = 5; // cxx20-warning {{deprecated}} #if __cplusplus >= 201103L decltype(q = n = 5) m2 = q; // cxx20-warning {{deprecated}} expected-warning {{side effects}} (void)noexcept(q = n = 5); // cxx20-warning {{deprecated}} expected-warning {{side effects}} #endif (void)sizeof(q = n = 5); // cxx20-warning {{deprecated}} expected-warning {{side effects}} (void)typeid(use(n = 5)); // cxx20-warning {{deprecated}} expected-warning {{side effects}} (void)__alignof(+(n = 5)); // cxx20-warning {{deprecated}} expected-warning {{side effects}} // FIXME: These cases are technically deprecated because the parens are // part of the operand, but we choose to not diagnose for now. (void)sizeof(n = 5); // expected-warning {{side effects}} (void)__alignof(n = 5); // expected-warning {{side effects}} // Similarly here. (n = 5); volatile bool b = true; if (b = true) {} // cxx20-warning {{deprecated}} for (b = true; b = true; // cxx20-warning {{deprecated}} b = true) {} for (volatile bool x = true; volatile bool y = true; // ok despite volatile load from volatile initialization ) {} // inc / dec / compound assignments are always deprecated ++n; // cxx20-warning {{increment of object of volatile-qualified type 'volatile int' is deprecated}} --n; // cxx20-warning {{decrement of object of volatile-qualified type 'volatile int' is deprecated}} n++; // cxx20-warning {{increment of object of volatile-qualified type 'volatile int' is deprecated}} n--; // cxx20-warning {{decrement of object of volatile-qualified type 'volatile int' is deprecated}} n += 5; // cxx20-warning {{compound assignment to object of volatile-qualified type 'volatile int' is deprecated}} n *= 3; // cxx20-warning {{compound assignment to object of volatile-qualified type 'volatile int' is deprecated}} n /= 2; // cxx20-warning {{compound assignment to object of volatile-qualified type 'volatile int' is deprecated}} n %= 42; // cxx20-warning {{compound assignment to object of volatile-qualified type 'volatile int' is deprecated}} (void)__is_trivially_assignable(volatile int&, int); // no warning #if __cplusplus >= 201703L struct X { int a, b; }; volatile auto [x, y] = X{1, 2}; // cxx20-warning {{volatile qualifier in structured binding declaration is deprecated}} struct Y { volatile int a, b; }; auto [x2, y2] = Y{1, 2}; // ok #endif } volatile int g( // cxx20-warning {{volatile-qualified return type 'volatile int' is deprecated}} volatile int n, // cxx20-warning {{volatile-qualified parameter type 'volatile int' is deprecated}} volatile int (*p)( // cxx20-warning {{volatile-qualified return type 'volatile int' is deprecated}} volatile int m) // cxx20-warning {{volatile-qualified parameter type 'volatile int' is deprecated}} ); #if __cplusplus >= 201103L auto lambda = []( // cxx20-warning{{volatile-qualified return type 'volatile int' is deprecated}} volatile int n) // cxx20-warning{{volatile-qualified parameter type 'volatile int' is deprecated}} -> volatile int { return n; }; #endif template T f(T v); // cxx20-warning 2{{deprecated}} int use_f = f(0); // FIXME: Missing "in instantiation of" note. // OK, only the built-in operators are deprecated. struct UDT { UDT(volatile const UDT&); UDT &operator=(const UDT&); UDT &operator=(const UDT&) volatile; UDT operator+=(const UDT&) volatile; }; void h(UDT a) { volatile UDT b = a; volatile UDT c = b; a = c = a; b += a; } } namespace ArithConv { enum E { e } e2; enum F { f }; bool b1 = e == e2; bool b2 = e == f; // not-cxx20-warning-re {{different enumeration types ('ArithConv::E' and 'ArithConv::F'){{$}}}} cxx20-warning {{F') is deprecated}} bool b3 = e == 0.0; // cxx20-warning {{comparison of enumeration type 'ArithConv::E' with floating-point type 'double' is deprecated}} bool b4 = 0.0 == f; // cxx20-warning {{comparison of floating-point type 'double' with enumeration type 'ArithConv::F' is deprecated}} int n1 = true ? e : f; // cxx20-warning {{conditional expression between different enumeration types ('ArithConv::E' and 'ArithConv::F') is deprecated}} int n2 = true ? e : 0.0; // cxx20-warning {{conditional expression between enumeration type 'ArithConv::E' and floating-point type 'double' is deprecated}} } namespace ArrayComp { int arr1[3], arr2[4]; bool b1 = arr1 == arr2; // expected-warning {{array comparison always evaluates to false}} cxx20-warning {{comparison between two arrays is deprecated}} bool b2 = arr1 < arr2; // expected-warning {{array comparison always evaluates to a constant}} cxx20-warning {{comparison between two arrays is deprecated}} __attribute__((weak)) int arr3[3]; bool b3 = arr1 == arr3; // cxx20-warning {{comparison between two arrays is deprecated}} bool b4 = arr1 < arr3; // cxx20-warning {{comparison between two arrays is deprecated}} #if __cplusplus > 201703L bool b5 = arr1 <=> arr2; // cxx20-error {{invalid operands}} #endif int (&f())[3]; bool b6 = arr1 == f(); // cxx20-warning {{comparison between two arrays is deprecated}} bool b7 = arr1 == +f(); } # 1 "/usr/include/system-header.h" 1 3 void system_header_function(void) throw();