clang/test/SemaCXX/static-assert.cpp - llvm-project - Git at Google

 // RUN: %clang_cc1 -fsyntax-only -verify %s -std=c++11 -pedantic -triple=x86_64-linux-gnu -Wno-invalid-utf8

 int f(); // expected-note {{declared here}}

 static_assert(f(), "f"); // expected-error {{static assertion expression is not an integral constant expression}} expected-note {{non-constexpr function 'f' cannot be used in a constant expression}}
 static_assert(true, "true is not false");
 static_assert(false, "false is false"); // expected-error {{static assertion failed: false is false}}

 void g() {
     static_assert(false, "false is false"); // expected-error {{static assertion failed: false is false}}
 }

 class C {
     static_assert(false, "false is false"); // expected-error {{static assertion failed: false is false}}
 };

 template<int N> struct T {
     static_assert(N == 2, "N is not 2!"); // expected-error {{static assertion failed due to requirement '1 == 2': N is not 2!}}
 };

 T<1> t1; // expected-note {{in instantiation of template class 'T<1>' requested here}}
 T<2> t2;

 template<typename T> struct S {
     static_assert(sizeof(T) > sizeof(char), "Type not big enough!"); // expected-error {{static assertion failed due to requirement 'sizeof(char) > sizeof(char)': Type not big enough!}} \
                                                                      // expected-note {{1 > 1}}
 };

 S<char> s1; // expected-note {{in instantiation of template class 'S<char>' requested here}}
 S<int> s2;

 static_assert(false, L"\xFFFFFFFF"); // expected-warning {{encoding prefix 'L' on an unevaluated string literal has no effect and is incompatible with c++2c}} \
                                      // expected-error {{invalid escape sequence '\xFFFFFFFF' in an unevaluated string literal}} \
                                      // expected-error {{hex escape sequence out of range}}
 static_assert(false, u"\U000317FF"); // expected-warning {{encoding prefix 'u' on an unevaluated string literal has no effect and is incompatible with c++2c}} \
                                      // expected-error {{static assertion failed}}

 static_assert(false, u8"Ω");     // expected-warning {{encoding prefix 'u8' on an unevaluated string literal has no effect and is incompatible with c++2c}} \
                                  // expected-error {{static assertion failed: Ω}}
 static_assert(false, L"\u1234"); // expected-warning {{encoding prefix 'L' on an unevaluated string literal has no effect and is incompatible with c++2c}} \
                                  // expected-error {{static assertion failed: ሴ}}

 static_assert(false, L"\x1ff"    // expected-warning {{encoding prefix 'L' on an unevaluated string literal has no effect and is incompatible with c++2c}} \
                                  // expected-error {{hex escape sequence out of range}} \
                                  // expected-error {{invalid escape sequence '\x1ff' in an unevaluated string literal}}
                      "0\x123"    // expected-error {{invalid escape sequence '\x123' in an unevaluated string literal}}
                      "fx\xfffff" // expected-error {{invalid escape sequence '\xfffff' in an unevaluated string literal}}
                      "goop");

 static_assert(false, "\'\"\?\\\a\b\f\n\r\t\v"); // expected-error {{'"?\<U+0007><U+0008>}}
 static_assert(true, "\xFF"); // expected-error {{invalid escape sequence '\xFF' in an unevaluated string literal}}
 static_assert(true, "\123"); // expected-error {{invalid escape sequence '\123' in an unevaluated string literal}}
 static_assert(true, "\pOh no, a Pascal string!"); // expected-warning {{unknown escape sequence '\p'}} \
                                                   // expected-error {{invalid escape sequence '\p' in an unevaluated string literal}}
 static_assert(false, R"(a
 \tb
 c
 )"); // expected-error@-3 {{static assertion failed: a\n\tb\nc\n}}

 static_assert(false, "\u0080\u0081\u0082\u0083\u0099\u009A\u009B\u009C\u009D\u009E\u009F");
 // expected-error@-1 {{static assertion failed: <U+0080><U+0081><U+0082><U+0083><U+0099><U+009A><U+009B><U+009C><U+009D><U+009E><U+009F>}}

 //! Contains RTL/LTR marks
 static_assert(false, "\u200Eabc\u200Fdef\u200Fgh"); // expected-error {{static assertion failed: ‎abc‏def‏gh}}

 //! Contains ZWJ/regional indicators
 static_assert(false, "🏳️‍🌈 🏴󠁧󠁢󠁥󠁮󠁧󠁿 🇪🇺"); // expected-error {{static assertion failed: 🏳️‍🌈 🏴󠁧󠁢󠁥󠁮󠁧󠁿 🇪🇺}}

 template<typename T> struct AlwaysFails {
   // Only give one error here.
   static_assert(false, ""); // expected-error 2{{static assertion failed}}
 };
 AlwaysFails<int> alwaysFails; // expected-note {{instantiation}}
 AlwaysFails<double> alwaysFails2; // expected-note {{instantiation}}


 template<typename T> struct StaticAssertProtected {
   static_assert(__is_literal(T), ""); // expected-error {{static assertion failed}}
   static constexpr T t = {}; // no error here
 };
 struct X { ~X(); };
 StaticAssertProtected<int> sap1;
 StaticAssertProtected<X> sap2; // expected-note {{instantiation}}

 static_assert(true); // expected-warning {{C++17 extension}}
 static_assert(false); // expected-error-re {{failed{{$}}}} expected-warning {{extension}}


 // Diagnostics for static_assert with multiple conditions
 template<typename T> struct first_trait {
   static const bool value = false;
 };

 template<>
 struct first_trait<X> {
   static const bool value = true;
 };

 template<typename T> struct second_trait {
   static const bool value = false;
 };

 static_assert(first_trait<X>::value && second_trait<X>::value, "message"); // expected-error{{static assertion failed due to requirement 'second_trait<X>::value': message}}

 namespace std {

 template <class Tp, Tp v>
 struct integral_constant {
   static const Tp value = v;
   typedef Tp value_type;
   typedef integral_constant type;
   constexpr operator value_type() const noexcept { return value; }
   constexpr value_type operator()() const noexcept { return value; }
 };

 template <class Tp, Tp v>
 const Tp integral_constant<Tp, v>::value;

 typedef integral_constant<bool, true> true_type;
 typedef integral_constant<bool, false> false_type;

 template <class Tp>
 struct is_const : public false_type {};
 template <class Tp>
 struct is_const<Tp const> : public true_type {};

 // We do not define is_same in terms of integral_constant to check that both implementations are supported.
 template <typename T, typename U>
 struct is_same {
   static const bool value = false;
 };

 template <typename T>
 struct is_same<T, T> {
   static const bool value = true;
 };

 } // namespace std

 struct ExampleTypes {
   explicit ExampleTypes(int);
   using T = int;
   using U = float;
 };

 static_assert(std::is_same<ExampleTypes::T, ExampleTypes::U>::value, "message");
 // expected-error@-1{{static assertion failed due to requirement 'std::is_same<int, float>::value': message}}
 static_assert(std::is_const<ExampleTypes::T>::value, "message");
 // expected-error@-1{{static assertion failed due to requirement 'std::is_const<int>::value': message}}
 static_assert(!std::is_const<const ExampleTypes::T>::value, "message");
 // expected-error@-1{{static assertion failed due to requirement '!std::is_const<const int>::value': message}}
 static_assert(!(std::is_const<const ExampleTypes::T>::value), "message");
 // expected-error@-1{{static assertion failed due to requirement '!(std::is_const<const int>::value)': message}}
 static_assert(std::is_const<const ExampleTypes::T>::value == false, "message");
 // expected-error@-1{{static assertion failed due to requirement 'std::is_const<const int>::value == false': message}}
 static_assert(!(std::is_const<const ExampleTypes::T>::value == true), "message");
 // expected-error@-1{{static assertion failed due to requirement '!(std::is_const<const int>::value == true)': message}}
 static_assert(std::is_const<ExampleTypes::T>(), "message");
 // expected-error@-1{{static assertion failed due to requirement 'std::is_const<int>()': message}}
 static_assert(!(std::is_const<const ExampleTypes::T>()()), "message");
 // expected-error@-1{{static assertion failed due to requirement '!(std::is_const<const int>()())': message}}
 static_assert(std::is_same<decltype(std::is_const<const ExampleTypes::T>()), int>::value, "message");
 // expected-error@-1{{static assertion failed due to requirement 'std::is_same<std::is_const<const int>, int>::value': message}}
 static_assert(std::is_const<decltype(ExampleTypes::T(3))>::value, "message");
 // expected-error@-1{{static assertion failed due to requirement 'std::is_const<int>::value': message}}
 static_assert(std::is_const<decltype(ExampleTypes::T())>::value, "message");
 // expected-error@-1{{static assertion failed due to requirement 'std::is_const<int>::value': message}}
 static_assert(std::is_const<decltype(ExampleTypes(3))>::value, "message");
 // expected-error@-1{{static assertion failed due to requirement 'std::is_const<ExampleTypes>::value': message}}

 struct BI_tag {};
 struct RAI_tag : BI_tag {};
 struct MyIterator {
   using tag = BI_tag;
 };
 struct MyContainer {
   using iterator = MyIterator;
 };
 template <class Container>
 void foo() {
   static_assert(std::is_same<RAI_tag, typename Container::iterator::tag>::value, "message");
   // expected-error@-1{{static assertion failed due to requirement 'std::is_same<RAI_tag, BI_tag>::value': message}}
 }
 template void foo<MyContainer>();
 // expected-note@-1{{in instantiation of function template specialization 'foo<MyContainer>' requested here}}

 namespace ns {
 template <typename T, int v>
 struct NestedTemplates1 {
   struct NestedTemplates2 {
     template <typename U>
     struct NestedTemplates3 : public std::is_same<T, U> {};
   };
 };
 } // namespace ns

 template <typename T, typename U, int a>
 void foo2() {
   // FIXME: Here the template keyword is dropped because the failed condition
   // for a static assert is always printed with canonical types.
   static_assert(::ns::NestedTemplates1<T, a>::NestedTemplates2::template NestedTemplates3<U>::value, "message");
   // expected-error@-1{{static assertion failed due to requirement '::ns::NestedTemplates1<int, 3>::NestedTemplates2::NestedTemplates3<float>::value': message}}
 }
 template void foo2<int, float, 3>();
 // expected-note@-1{{in instantiation of function template specialization 'foo2<int, float, 3>' requested here}}

 template <class T>
 void foo3(T t) {
   static_assert(std::is_const<T>::value, "message");
   // expected-error-re@-1{{static assertion failed due to requirement 'std::is_const<(lambda at {{.*}}static-assert.cpp:{{[0-9]*}}:{{[0-9]*}})>::value': message}}
   static_assert(std::is_const<decltype(t)>::value, "message");
   // expected-error-re@-1{{static assertion failed due to requirement 'std::is_const<(lambda at {{.*}}static-assert.cpp:{{[0-9]*}}:{{[0-9]*}})>::value': message}}
 }
 void callFoo3() {
   foo3([]() {});
   // expected-note@-1{{in instantiation of function template specialization 'foo3<(lambda at }}
 }

 template <class T>
 void foo4(T t) {
   static_assert(std::is_const<typename T::iterator>::value, "message");
   // expected-error@-1{{type 'int' cannot be used prior to '::' because it has no members}}
 }
 void callFoo4() { foo4(42); }
 // expected-note@-1{{in instantiation of function template specialization 'foo4<int>' requested here}}

 static_assert(42, "message");
 static_assert(42.0, "message"); // expected-warning {{implicit conversion from 'double' to 'bool' changes value from 42 to true}}
 constexpr int *p = 0;
 static_assert(p, "message"); // expected-error {{static assertion failed}}

 struct NotBool {
 } notBool;
 constexpr NotBool constexprNotBool;
 static_assert(notBool, "message");          // expected-error {{value of type 'struct NotBool' is not contextually convertible to 'bool'}}
 static_assert(constexprNotBool, "message"); // expected-error {{value of type 'const NotBool' is not contextually convertible to 'bool'}}

 static_assert(1 , "") // expected-error {{expected ';' after 'static_assert'}}

 namespace DependentAlwaysFalse {
 template <typename Ty>
 struct S {
   static_assert(false); // expected-error{{static assertion failed}} \
                         // expected-warning {{C++17 extension}}
 };

 template <typename Ty>
 struct T {
   static_assert(false, "test"); // expected-error{{static assertion failed: test}}
 };

 int f() {
   S<double> s; //expected-note {{in instantiation of template class 'DependentAlwaysFalse::S<double>' requested here}}
   T<double> t; //expected-note {{in instantiation of template class 'DependentAlwaysFalse::T<double>' requested here}}
 }
 }

 namespace Diagnostics {
   /// No notes for literals.
   static_assert(false, ""); // expected-error {{failed}}
   static_assert(1.0 > 2.0, ""); // expected-error {{failed}}
   static_assert('c' == 'd', ""); // expected-error {{failed}}
   static_assert(1 == 2, ""); // expected-error {{failed}}

   /// Simple things are ignored.
   static_assert(1 == (-(1)), ""); //expected-error {{failed}}

   /// Chars are printed as chars.
   constexpr char getChar() {
     return 'c';
   }
   static_assert(getChar() == 'a', ""); // expected-error {{failed}} \
                                        // expected-note {{evaluates to ''c' (0x63, 99) == 'a' (0x61, 97)'}}
   static_assert((char)9 == '\x61', ""); // expected-error {{failed}} \
                                         // expected-note {{evaluates to ''\t' (0x09, 9) == 'a' (0x61, 97)'}}
   static_assert((char)10 == '\0', ""); // expected-error {{failed}} \
                                        // expected-note {{n' (0x0A, 10) == '<U+0000>' (0x00, 0)'}}
   // The note above is intended to match "evaluates to '\n' (0x0A, 10) == '<U+0000>' (0x00, 0)'", but if we write it as it is,
   // the "\n" cannot be consumed by the diagnostic consumer.
   static_assert((signed char)10 == (char)-123, ""); // expected-error {{failed}} \
                                                     // expected-note {{evaluates to '10 == '<85>' (0x85, -123)'}}
   static_assert((char)-4 == (unsigned char)-8, ""); // expected-error {{failed}} \
                                                     // expected-note {{evaluates to ''<FC>' (0xFC, -4) == 248'}}
   static_assert((char)-128 == (char)-123, ""); // expected-error {{failed}} \
                                                // expected-note {{evaluates to ''<80>' (0x80, -128) == '<85>' (0x85, -123)'}}
   static_assert('\xA0' == (char)'\x20', ""); // expected-error {{failed}} \
                                              // expected-note {{evaluates to ''<A0>' (0xA0, -96) == ' ' (0x20, 32)'}}
   static_assert((char16_t)L'ゆ' == L"C̵̭̯̠̎͌ͅť̺"[1], ""); // expected-error {{failed}} \
                                                   // expected-note {{evaluates to 'u'ゆ' (0x3086, 12422) == L'̵' (0x335, 821)'}}
   static_assert(L"＼／"[1] == u'\xFFFD', ""); // expected-error {{failed}} \
                                               // expected-note {{evaluates to 'L'／' (0xFF0F, 65295) == u'�' (0xFFFD, 65533)'}}
   static_assert(L"⚾"[0] == U'🌍', ""); // expected-error {{failed}} \
                                          // expected-note {{evaluates to 'L'⚾' (0x26BE, 9918) == U'🌍' (0x1F30D, 127757)'}}
   static_assert(U"\a"[0] == (wchar_t)9, ""); // expected-error {{failed}} \
                                              // expected-note {{evaluates to 'U'\a' (0x07, 7) == L'\t' (0x09, 9)'}}
   static_assert(L"§"[0] == U'Ö', ""); // expected-error {{failed}} \
                                       // expected-note {{evaluates to 'L'§' (0xA7, 167) == U'Ö' (0xD6, 214)'}}

   /// Bools are printed as bools.
   constexpr bool invert(bool b) {
     return !b;
   }

   static_assert(invert(true) || invert(true), ""); // expected-error {{static assertion failed due to requirement 'invert(true) || invert(true)'}}
   static_assert(invert(true) == invert(false), ""); // expected-error {{static assertion failed due to requirement 'invert(true) == invert(false)'}} \
                                                     // expected-note {{evaluates to 'false == true'}}
   static_assert(true && false, ""); // expected-error {{static assertion failed due to requirement 'true && false'}}
   static_assert(invert(true) || invert(true) || false, ""); // expected-error {{static assertion failed due to requirement 'invert(true) || invert(true) || false'}}
   static_assert((true && invert(true)) || false, ""); // expected-error {{static assertion failed due to requirement '(true && invert(true)) || false'}}
   static_assert(true && invert(false) && invert(true), ""); // expected-error {{static assertion failed due to requirement 'invert(true)'}}

   /// No notes here since we compare a bool expression with a bool literal.
   static_assert(invert(true) == true, ""); // expected-error {{failed}}

 #pragma clang diagnostic push
 #pragma clang diagnostic ignored "-Wc99-extensions"
   constexpr _Complex float com = {5,6};
   constexpr _Complex float com2 = {1, 9};
   static_assert(com == com2, ""); // expected-error {{failed}} \
                                   // expected-note {{evaluates to '(5 + 6i) == (1 + 9i)'}}
 #pragma clang diagnostic pop

 #define CHECK_4(x) ((x) == 4)
 #define A_IS_B (a == b)
   static_assert(CHECK_4(5), ""); // expected-error {{failed}}

   constexpr int a = 4;
   constexpr int b = 5;
   static_assert(CHECK_4(a) && A_IS_B, ""); // expected-error {{failed}} \
                                            // expected-note {{evaluates to '4 == 5'}}

   static_assert(
     false, // expected-error {{static assertion failed}}
     ""
   );

   static_assert(
     true && false, // expected-error {{static assertion failed due to requirement 'true && false'}}
     ""
   );

   static_assert(
     // with a comment here
     true && false, // expected-error {{static assertion failed due to requirement 'true && false'}}
     ""
   );

   static_assert(
     // with a comment here
     (true && // expected-error {{static assertion failed due to requirement '(true && false) || false'}}
     false)
     || false,
     ""
   );

   static_assert(1 + 1 != 2, ""); // expected-error {{failed}} \
                                  // expected-note {{evaluates to '2 != 2'}}
   static_assert(1 - 1 == 2, ""); // expected-error {{failed}} \
                                  // expected-note {{evaluates to '0 == 2'}}
   static_assert(1 * 1 == 2, ""); // expected-error {{failed}} \
                                  // expected-note {{evaluates to '1 == 2'}}
   static_assert(1 / 1 == 2, ""); // expected-error {{failed}} \
                                  // expected-note {{evaluates to '1 == 2'}}
   static_assert(1 << 3 != 8, ""); // expected-error {{failed}} \
                                  // expected-note {{evaluates to '8 != 8'}}
 }
	// RUN: %clang_cc1 -fsyntax-only -verify %s -std=c++11 -pedantic -triple=x86_64-linux-gnu -Wno-invalid-utf8

	int f(); // expected-note {{declared here}}

	static_assert(f(), "f"); // expected-error {{static assertion expression is not an integral constant expression}} expected-note {{non-constexpr function 'f' cannot be used in a constant expression}}
	static_assert(true, "true is not false");
	static_assert(false, "false is false"); // expected-error {{static assertion failed: false is false}}

	void g() {
	static_assert(false, "false is false"); // expected-error {{static assertion failed: false is false}}
	}

	class C {
	static_assert(false, "false is false"); // expected-error {{static assertion failed: false is false}}
	};

	template<int N> struct T {
	static_assert(N == 2, "N is not 2!"); // expected-error {{static assertion failed due to requirement '1 == 2': N is not 2!}}
	};

	T<1> t1; // expected-note {{in instantiation of template class 'T<1>' requested here}}
	T<2> t2;

	template<typename T> struct S {
	static_assert(sizeof(T) > sizeof(char), "Type not big enough!"); // expected-error {{static assertion failed due to requirement 'sizeof(char) > sizeof(char)': Type not big enough!}} \
	// expected-note {{1 > 1}}
	};

	S<char> s1; // expected-note {{in instantiation of template class 'S<char>' requested here}}
	S<int> s2;

	static_assert(false, L"\xFFFFFFFF"); // expected-warning {{encoding prefix 'L' on an unevaluated string literal has no effect and is incompatible with c++2c}} \
	// expected-error {{invalid escape sequence '\xFFFFFFFF' in an unevaluated string literal}} \
	// expected-error {{hex escape sequence out of range}}
	static_assert(false, u"\U000317FF"); // expected-warning {{encoding prefix 'u' on an unevaluated string literal has no effect and is incompatible with c++2c}} \
	// expected-error {{static assertion failed}}

	static_assert(false, u8"Ω"); // expected-warning {{encoding prefix 'u8' on an unevaluated string literal has no effect and is incompatible with c++2c}} \
	// expected-error {{static assertion failed: Ω}}
	static_assert(false, L"\u1234"); // expected-warning {{encoding prefix 'L' on an unevaluated string literal has no effect and is incompatible with c++2c}} \
	// expected-error {{static assertion failed: ሴ}}

	static_assert(false, L"\x1ff" // expected-warning {{encoding prefix 'L' on an unevaluated string literal has no effect and is incompatible with c++2c}} \
	// expected-error {{hex escape sequence out of range}} \
	// expected-error {{invalid escape sequence '\x1ff' in an unevaluated string literal}}
	"0\x123" // expected-error {{invalid escape sequence '\x123' in an unevaluated string literal}}
	"fx\xfffff" // expected-error {{invalid escape sequence '\xfffff' in an unevaluated string literal}}
	"goop");

	static_assert(false, "\'\"\?\\\a\b\f\n\r\t\v"); // expected-error {{'"?\<U+0007><U+0008>}}
	static_assert(true, "\xFF"); // expected-error {{invalid escape sequence '\xFF' in an unevaluated string literal}}
	static_assert(true, "\123"); // expected-error {{invalid escape sequence '\123' in an unevaluated string literal}}
	static_assert(true, "\pOh no, a Pascal string!"); // expected-warning {{unknown escape sequence '\p'}} \
	// expected-error {{invalid escape sequence '\p' in an unevaluated string literal}}
	static_assert(false, R"(a
	\tb
	c
	)"); // expected-error@-3 {{static assertion failed: a\n\tb\nc\n}}

	static_assert(false, "\u0080\u0081\u0082\u0083\u0099\u009A\u009B\u009C\u009D\u009E\u009F");
	// expected-error@-1 {{static assertion failed: <U+0080><U+0081><U+0082><U+0083><U+0099><U+009A><U+009B><U+009C><U+009D><U+009E><U+009F>}}

	//! Contains RTL/LTR marks
	static_assert(false, "\u200Eabc\u200Fdef\u200Fgh"); // expected-error {{static assertion failed: ‎abc‏def‏gh}}

	//! Contains ZWJ/regional indicators
	static_assert(false, "🏳️‍🌈 🏴󠁧󠁢󠁥󠁮󠁧󠁿 🇪🇺"); // expected-error {{static assertion failed: 🏳️‍🌈 🏴󠁧󠁢󠁥󠁮󠁧󠁿 🇪🇺}}

	template<typename T> struct AlwaysFails {
	// Only give one error here.
	static_assert(false, ""); // expected-error 2{{static assertion failed}}
	};
	AlwaysFails<int> alwaysFails; // expected-note {{instantiation}}
	AlwaysFails<double> alwaysFails2; // expected-note {{instantiation}}


	template<typename T> struct StaticAssertProtected {
	static_assert(__is_literal(T), ""); // expected-error {{static assertion failed}}
	static constexpr T t = {}; // no error here
	};
	struct X { ~X(); };
	StaticAssertProtected<int> sap1;
	StaticAssertProtected<X> sap2; // expected-note {{instantiation}}

	static_assert(true); // expected-warning {{C++17 extension}}
	static_assert(false); // expected-error-re {{failed{{$}}}} expected-warning {{extension}}


	// Diagnostics for static_assert with multiple conditions
	template<typename T> struct first_trait {
	static const bool value = false;
	};

	template<>
	struct first_trait<X> {
	static const bool value = true;
	};

	template<typename T> struct second_trait {
	static const bool value = false;
	};

	static_assert(first_trait<X>::value && second_trait<X>::value, "message"); // expected-error{{static assertion failed due to requirement 'second_trait<X>::value': message}}

	namespace std {

	template <class Tp, Tp v>
	struct integral_constant {
	static const Tp value = v;
	typedef Tp value_type;
	typedef integral_constant type;
	constexpr operator value_type() const noexcept { return value; }
	constexpr value_type operator()() const noexcept { return value; }
	};

	template <class Tp, Tp v>
	const Tp integral_constant<Tp, v>::value;

	typedef integral_constant<bool, true> true_type;
	typedef integral_constant<bool, false> false_type;

	template <class Tp>
	struct is_const : public false_type {};
	template <class Tp>
	struct is_const<Tp const> : public true_type {};

	// We do not define is_same in terms of integral_constant to check that both implementations are supported.
	template <typename T, typename U>
	struct is_same {
	static const bool value = false;
	};

	template <typename T>
	struct is_same<T, T> {
	static const bool value = true;
	};

	} // namespace std

	struct ExampleTypes {
	explicit ExampleTypes(int);
	using T = int;
	using U = float;
	};

	static_assert(std::is_same<ExampleTypes::T, ExampleTypes::U>::value, "message");
	// expected-error@-1{{static assertion failed due to requirement 'std::is_same<int, float>::value': message}}
	static_assert(std::is_const<ExampleTypes::T>::value, "message");
	// expected-error@-1{{static assertion failed due to requirement 'std::is_const<int>::value': message}}
	static_assert(!std::is_const<const ExampleTypes::T>::value, "message");
	// expected-error@-1{{static assertion failed due to requirement '!std::is_const<const int>::value': message}}
	static_assert(!(std::is_const<const ExampleTypes::T>::value), "message");
	// expected-error@-1{{static assertion failed due to requirement '!(std::is_const<const int>::value)': message}}
	static_assert(std::is_const<const ExampleTypes::T>::value == false, "message");
	// expected-error@-1{{static assertion failed due to requirement 'std::is_const<const int>::value == false': message}}
	static_assert(!(std::is_const<const ExampleTypes::T>::value == true), "message");
	// expected-error@-1{{static assertion failed due to requirement '!(std::is_const<const int>::value == true)': message}}
	static_assert(std::is_const<ExampleTypes::T>(), "message");
	// expected-error@-1{{static assertion failed due to requirement 'std::is_const<int>()': message}}
	static_assert(!(std::is_const<const ExampleTypes::T>()()), "message");
	// expected-error@-1{{static assertion failed due to requirement '!(std::is_const<const int>()())': message}}
	static_assert(std::is_same<decltype(std::is_const<const ExampleTypes::T>()), int>::value, "message");
	// expected-error@-1{{static assertion failed due to requirement 'std::is_same<std::is_const<const int>, int>::value': message}}
	static_assert(std::is_const<decltype(ExampleTypes::T(3))>::value, "message");
	// expected-error@-1{{static assertion failed due to requirement 'std::is_const<int>::value': message}}
	static_assert(std::is_const<decltype(ExampleTypes::T())>::value, "message");
	// expected-error@-1{{static assertion failed due to requirement 'std::is_const<int>::value': message}}
	static_assert(std::is_const<decltype(ExampleTypes(3))>::value, "message");
	// expected-error@-1{{static assertion failed due to requirement 'std::is_const<ExampleTypes>::value': message}}

	struct BI_tag {};
	struct RAI_tag : BI_tag {};
	struct MyIterator {
	using tag = BI_tag;
	};
	struct MyContainer {
	using iterator = MyIterator;
	};
	template <class Container>
	void foo() {
	static_assert(std::is_same<RAI_tag, typename Container::iterator::tag>::value, "message");
	// expected-error@-1{{static assertion failed due to requirement 'std::is_same<RAI_tag, BI_tag>::value': message}}
	}
	template void foo<MyContainer>();
	// expected-note@-1{{in instantiation of function template specialization 'foo<MyContainer>' requested here}}

	namespace ns {
	template <typename T, int v>
	struct NestedTemplates1 {
	struct NestedTemplates2 {
	template <typename U>
	struct NestedTemplates3 : public std::is_same<T, U> {};
	};
	};
	} // namespace ns

	template <typename T, typename U, int a>
	void foo2() {
	// FIXME: Here the template keyword is dropped because the failed condition
	// for a static assert is always printed with canonical types.
	static_assert(::ns::NestedTemplates1<T, a>::NestedTemplates2::template NestedTemplates3<U>::value, "message");
	// expected-error@-1{{static assertion failed due to requirement '::ns::NestedTemplates1<int, 3>::NestedTemplates2::NestedTemplates3<float>::value': message}}
	}
	template void foo2<int, float, 3>();
	// expected-note@-1{{in instantiation of function template specialization 'foo2<int, float, 3>' requested here}}

	template <class T>
	void foo3(T t) {
	static_assert(std::is_const<T>::value, "message");
	// expected-error-re@-1{{static assertion failed due to requirement 'std::is_const<(lambda at {{.}}static-assert.cpp:{{[0-9]}}:{{[0-9]*}})>::value': message}}
	static_assert(std::is_const<decltype(t)>::value, "message");
	// expected-error-re@-1{{static assertion failed due to requirement 'std::is_const<(lambda at {{.}}static-assert.cpp:{{[0-9]}}:{{[0-9]*}})>::value': message}}
	}
	void callFoo3() {
	foo3([]() {});
	// expected-note@-1{{in instantiation of function template specialization 'foo3<(lambda at }}
	}

	template <class T>
	void foo4(T t) {
	static_assert(std::is_const<typename T::iterator>::value, "message");
	// expected-error@-1{{type 'int' cannot be used prior to '::' because it has no members}}
	}
	void callFoo4() { foo4(42); }
	// expected-note@-1{{in instantiation of function template specialization 'foo4<int>' requested here}}

	static_assert(42, "message");
	static_assert(42.0, "message"); // expected-warning {{implicit conversion from 'double' to 'bool' changes value from 42 to true}}
	constexpr int *p = 0;
	static_assert(p, "message"); // expected-error {{static assertion failed}}

	struct NotBool {
	} notBool;
	constexpr NotBool constexprNotBool;
	static_assert(notBool, "message"); // expected-error {{value of type 'struct NotBool' is not contextually convertible to 'bool'}}
	static_assert(constexprNotBool, "message"); // expected-error {{value of type 'const NotBool' is not contextually convertible to 'bool'}}

	static_assert(1 , "") // expected-error {{expected ';' after 'static_assert'}}

	namespace DependentAlwaysFalse {
	template <typename Ty>
	struct S {
	static_assert(false); // expected-error{{static assertion failed}} \
	// expected-warning {{C++17 extension}}
	};

	template <typename Ty>
	struct T {
	static_assert(false, "test"); // expected-error{{static assertion failed: test}}
	};

	int f() {
	S<double> s; //expected-note {{in instantiation of template class 'DependentAlwaysFalse::S<double>' requested here}}
	T<double> t; //expected-note {{in instantiation of template class 'DependentAlwaysFalse::T<double>' requested here}}
	}
	}

	namespace Diagnostics {
	/// No notes for literals.
	static_assert(false, ""); // expected-error {{failed}}
	static_assert(1.0 > 2.0, ""); // expected-error {{failed}}
	static_assert('c' == 'd', ""); // expected-error {{failed}}
	static_assert(1 == 2, ""); // expected-error {{failed}}

	/// Simple things are ignored.
	static_assert(1 == (-(1)), ""); //expected-error {{failed}}

	/// Chars are printed as chars.
	constexpr char getChar() {
	return 'c';
	}
	static_assert(getChar() == 'a', ""); // expected-error {{failed}} \
	// expected-note {{evaluates to ''c' (0x63, 99) == 'a' (0x61, 97)'}}
	static_assert((char)9 == '\x61', ""); // expected-error {{failed}} \
	// expected-note {{evaluates to ''\t' (0x09, 9) == 'a' (0x61, 97)'}}
	static_assert((char)10 == '\0', ""); // expected-error {{failed}} \
	// expected-note {{n' (0x0A, 10) == '<U+0000>' (0x00, 0)'}}
	// The note above is intended to match "evaluates to '\n' (0x0A, 10) == '<U+0000>' (0x00, 0)'", but if we write it as it is,
	// the "\n" cannot be consumed by the diagnostic consumer.
	static_assert((signed char)10 == (char)-123, ""); // expected-error {{failed}} \
	// expected-note {{evaluates to '10 == '<85>' (0x85, -123)'}}
	static_assert((char)-4 == (unsigned char)-8, ""); // expected-error {{failed}} \
	// expected-note {{evaluates to ''<FC>' (0xFC, -4) == 248'}}
	static_assert((char)-128 == (char)-123, ""); // expected-error {{failed}} \
	// expected-note {{evaluates to ''<80>' (0x80, -128) == '<85>' (0x85, -123)'}}
	static_assert('\xA0' == (char)'\x20', ""); // expected-error {{failed}} \
	// expected-note {{evaluates to ''<A0>' (0xA0, -96) == ' ' (0x20, 32)'}}
	static_assert((char16_t)L'ゆ' == L"C̵̭̯̠̎͌ͅť̺"[1], ""); // expected-error {{failed}} \
	// expected-note {{evaluates to 'u'ゆ' (0x3086, 12422) == L'̵' (0x335, 821)'}}
	static_assert(L"＼／"[1] == u'\xFFFD', ""); // expected-error {{failed}} \
	// expected-note {{evaluates to 'L'／' (0xFF0F, 65295) == u'�' (0xFFFD, 65533)'}}
	static_assert(L"⚾"[0] == U'🌍', ""); // expected-error {{failed}} \
	// expected-note {{evaluates to 'L'⚾' (0x26BE, 9918) == U'🌍' (0x1F30D, 127757)'}}
	static_assert(U"\a"[0] == (wchar_t)9, ""); // expected-error {{failed}} \
	// expected-note {{evaluates to 'U'\a' (0x07, 7) == L'\t' (0x09, 9)'}}
	static_assert(L"§"[0] == U'Ö', ""); // expected-error {{failed}} \
	// expected-note {{evaluates to 'L'§' (0xA7, 167) == U'Ö' (0xD6, 214)'}}

	/// Bools are printed as bools.
	constexpr bool invert(bool b) {
	return !b;
	}

	static_assert(invert(true) \|\| invert(true), ""); // expected-error {{static assertion failed due to requirement 'invert(true) \|\| invert(true)'}}
	static_assert(invert(true) == invert(false), ""); // expected-error {{static assertion failed due to requirement 'invert(true) == invert(false)'}} \
	// expected-note {{evaluates to 'false == true'}}
	static_assert(true && false, ""); // expected-error {{static assertion failed due to requirement 'true && false'}}
	static_assert(invert(true) \|\| invert(true) \|\| false, ""); // expected-error {{static assertion failed due to requirement 'invert(true) \|\| invert(true) \|\| false'}}
	static_assert((true && invert(true)) \|\| false, ""); // expected-error {{static assertion failed due to requirement '(true && invert(true)) \|\| false'}}
	static_assert(true && invert(false) && invert(true), ""); // expected-error {{static assertion failed due to requirement 'invert(true)'}}

	/// No notes here since we compare a bool expression with a bool literal.
	static_assert(invert(true) == true, ""); // expected-error {{failed}}

	#pragma clang diagnostic push
	#pragma clang diagnostic ignored "-Wc99-extensions"
	constexpr _Complex float com = {5,6};
	constexpr _Complex float com2 = {1, 9};
	static_assert(com == com2, ""); // expected-error {{failed}} \
	// expected-note {{evaluates to '(5 + 6i) == (1 + 9i)'}}
	#pragma clang diagnostic pop

	#define CHECK_4(x) ((x) == 4)
	#define A_IS_B (a == b)
	static_assert(CHECK_4(5), ""); // expected-error {{failed}}

	constexpr int a = 4;
	constexpr int b = 5;
	static_assert(CHECK_4(a) && A_IS_B, ""); // expected-error {{failed}} \
	// expected-note {{evaluates to '4 == 5'}}

	static_assert(
	false, // expected-error {{static assertion failed}}
	""
	);

	static_assert(
	true && false, // expected-error {{static assertion failed due to requirement 'true && false'}}
	""
	);

	static_assert(
	// with a comment here
	true && false, // expected-error {{static assertion failed due to requirement 'true && false'}}
	""
	);

	static_assert(
	// with a comment here
	(true && // expected-error {{static assertion failed due to requirement '(true && false) \|\| false'}}
	false)
	\|\| false,
	""
	);

	static_assert(1 + 1 != 2, ""); // expected-error {{failed}} \
	// expected-note {{evaluates to '2 != 2'}}
	static_assert(1 - 1 == 2, ""); // expected-error {{failed}} \
	// expected-note {{evaluates to '0 == 2'}}
	static_assert(1 * 1 == 2, ""); // expected-error {{failed}} \
	// expected-note {{evaluates to '1 == 2'}}
	static_assert(1 / 1 == 2, ""); // expected-error {{failed}} \
	// expected-note {{evaluates to '1 == 2'}}
	static_assert(1 << 3 != 8, ""); // expected-error {{failed}} \
	// expected-note {{evaluates to '8 != 8'}}
	}