clang/test/Parser/cxx0x-decl.cpp - llvm-project - Git at Google

 // RUN: %clang_cc1 -verify -fsyntax-only -std=c++2a -pedantic-errors -triple x86_64-linux-gnu %s

 // Make sure we know these are legitimate commas and not typos for ';'.
 namespace Commas {
   int a,
   b [[ ]],
   c alignas(double);
 }

 struct S {};
 enum E { e, };

 auto f() -> struct S {
   return S();
 }
 auto g() -> enum E {
   return E();
 }

 namespace EnumBase {
   enum E {};
   // PR19810: The ': E' here is not an enum-base, and the ':' is not a typo for '::'.
   E e = true ? *new enum E : E {};
   // PR45726: This ':' is not an enum-base.
   static_assert(_Generic(e, enum E : int{}, int: 1) == 0); // expected-error {{C11 extension}}
   static_assert(_Generic(1, enum E : int{}, int: 1) == 1); // expected-error {{C11 extension}}
 }

 namespace OpaqueEnumDecl {
   enum E : int; // ok

   // PR44941
   enum E : int n; // expected-error {{non-defining declaration of enumeration with a fixed underlying type is only permitted as a standalone declaration}}
   typedef enum E : int T; // expected-error {{non-defining declaration of enumeration with a fixed underlying type is only permitted as a standalone declaration}}
   typedef enum E : int T; // expected-error {{non-defining declaration of enumeration with a fixed underlying type is only permitted as a standalone declaration}}
   namespace Inner {
     typedef enum E : int T; // expected-error {{non-defining declaration of enumeration with a fixed underlying type is only permitted as a standalone declaration}}
   }

   // GCC incorrectly accepts this one
   using T = enum E : int; // expected-error {{non-defining declaration of enumeration with a fixed underlying type is only permitted as a standalone declaration}}

   // PR19810 comment#2
   int x[sizeof(enum E : int)]; // expected-error {{non-defining declaration of enumeration with a fixed underlying type is only permitted as a standalone declaration}}

   namespace PR24297 {
     enum struct E a; // expected-error {{must use 'enum' not 'enum struct'}}
     enum class F b; // expected-error {{must use 'enum' not 'enum class'}}
     enum G : int c; // expected-error {{only permitted as a standalone declaration}}
     enum struct H : int d; // expected-error {{only permitted as a standalone declaration}}
     enum class I : int e; // expected-error {{only permitted as a standalone declaration}}
     enum X x; // expected-error {{ISO C++ forbids forward reference}} expected-error {{incomplete}} expected-note {{forward declaration}}

     enum struct E *pa; // expected-error {{must use 'enum' not 'enum struct'}}
     enum class F *pb; // expected-error {{must use 'enum' not 'enum class'}}
     enum G : int *pc; // expected-error {{only permitted as a standalone declaration}}
     enum struct H : int *pd; // expected-error {{only permitted as a standalone declaration}}
     enum class I : int *pe; // expected-error {{only permitted as a standalone declaration}}
     enum Y *py; // expected-error {{ISO C++ forbids forward reference}}
   }
 }

 int decltype(f())::*ptr_mem_decltype;

 class ExtraSemiAfterMemFn {
   // Due to a peculiarity in the C++11 grammar, a deleted or defaulted function
   // is permitted to be followed by either one or two semicolons.
   void f() = delete // expected-error {{expected ';' after delete}}
   void g() = delete; // ok
   void h() = delete;; // ok
   void i() = delete;;; // expected-error {{extra ';' after member function definition}}
 };

 int *const const p = 0; // expected-error {{duplicate 'const' declaration specifier}}
 const const int *q = 0; // expected-error {{duplicate 'const' declaration specifier}}

 struct MultiCV {
   void f() const const; // expected-error {{duplicate 'const' declaration specifier}}
 };

 static_assert(something, ""); // expected-error {{undeclared identifier}}

 // PR9903
 struct SS {
   typedef void d() = default; // expected-error {{function definition declared 'typedef'}} expected-error {{only special member functions and comparison operators may be defaulted}}
 };

 using PR14855 = int S::; // expected-error {{expected ';' after alias declaration}}

 // Ensure that 'this' has a const-qualified type in a trailing return type for
 // a constexpr function.
 struct ConstexprTrailingReturn {
   int n;
   constexpr auto f() const -> decltype((n));
 };
 constexpr const int &ConstexprTrailingReturn::f() const { return n; }

 namespace TestIsValidAfterTypeSpecifier {
 struct s {} v;

 struct s
 thread_local tl;

 struct s
 &r0 = v;

 struct s
 &&r1 = s();

 struct s
 bitand r2 = v;

 struct s
 and r3 = s();

 enum E {};
 enum E
 [[]] e;

 }

 namespace PR5066 {
   using T = int (*f)(); // expected-error {{type-id cannot have a name}}
   template<typename T> using U = int (*f)(); // expected-error {{type-id cannot have a name}}
   auto f() -> int (*f)(); // expected-error {{only variables can be initialized}} expected-error {{expected ';'}}
   auto g = []() -> int (*f)() {}; // expected-error {{type-id cannot have a name}}
 }

 namespace FinalOverride {
   struct Base {
     virtual void *f();
     virtual void *g();
     virtual void *h();
     virtual void *i();
   };
   struct Derived : Base {
     virtual auto f() -> void *final;
     virtual auto g() -> void *override;
     virtual auto h() -> void *final override;
     virtual auto i() -> void *override final;
   };
 }

 namespace UsingDeclAttrs {
   using T __attribute__((aligned(1))) = int;
   using T [[gnu::aligned(1)]] = int;
   static_assert(alignof(T) == 1, "");

   using [[gnu::aligned(1)]] T = int; // expected-error {{an attribute list cannot appear here}}
   using T = int [[gnu::aligned(1)]]; // expected-error {{'aligned' attribute cannot be applied to types}}
 }

 namespace DuplicateSpecifier {
   constexpr constexpr int f(); // expected-error {{duplicate 'constexpr' declaration specifier}}
   constexpr int constexpr a = 0; // expected-error {{duplicate 'constexpr' declaration specifier}}

   struct A {
     friend constexpr int constexpr friend f(); // expected-warning {{duplicate 'friend' declaration specifier}} \
                                                // expected-error {{duplicate 'constexpr' declaration specifier}}
     friend struct A friend; // expected-warning {{duplicate 'friend'}} expected-error {{'friend' must appear first}}
   };

   constinit constexpr int n1 = 0; // expected-error {{cannot combine with previous 'constinit'}}
   constexpr constinit int n2 = 0; // expected-error {{cannot combine with previous 'constexpr'}}
   constinit constinit int n3 = 0; // expected-error {{duplicate 'constinit' declaration specifier}}

   consteval constexpr int f1(); // expected-error {{cannot combine with previous 'consteval'}}
   constexpr consteval int f2(); // expected-error {{cannot combine with previous 'constexpr'}}
   consteval consteval int f3(); // expected-error {{duplicate 'consteval' declaration specifier}}

   constinit consteval int wat = 0; // expected-error {{cannot combine with previous 'constinit'}}
   consteval constinit int huh(); // expected-error {{cannot combine with previous 'consteval'}}
 }

 namespace ColonColonDecltype {
   struct S { struct T {}; };
   ::decltype(S())::T invalid; // expected-error {{expected unqualified-id}}
 }

 namespace AliasDeclEndLocation {
   template<typename T> struct A {};
   // Ensure that we correctly determine the end of this declaration to be the
   // end of the annotation token, not the beginning.
   using B = AliasDeclEndLocation::A<int
     > // expected-error {{expected ';' after alias declaration}}
     +;
   using C = AliasDeclEndLocation::A<int
     >\
 > // expected-error {{expected ';' after alias declaration}}
     ;
   using D = AliasDeclEndLocation::A<int
     > // expected-error {{expected ';' after alias declaration}}
   // FIXME: After splitting this >> into two > tokens, we incorrectly determine
   // the end of the template-id to be after the *second* '>'.
   using E = AliasDeclEndLocation::A<int>>;
 #define GGG >>>
   using F = AliasDeclEndLocation::A<int GGG;
   // expected-error@-1 {{expected ';' after alias declaration}}
   B something_else;
 }

 class PR47176 {
   friend void f(PR47176, int = 0) noexcept(true) {}
 };
 static_assert(noexcept(f(PR47176())), "");

 struct Base { virtual void f() = 0; virtual void g() = 0; virtual void h() = 0; };
 struct MemberComponentOrder : Base {
   void f() override __asm__("foobar") __attribute__(( )) {}
   void g() __attribute__(( )) override;
   void h() __attribute__(( )) override {}
 };

 void NoMissingSemicolonHere(struct S
                             [3]);
 template<int ...N> void NoMissingSemicolonHereEither(struct S
                                                      ... [N]);

 // This must be at the end of the file; we used to look ahead past the EOF token here.
 // expected-error@+1 {{expected unqualified-id}} expected-error@+1{{expected ';'}}
 using
	// RUN: %clang_cc1 -verify -fsyntax-only -std=c++2a -pedantic-errors -triple x86_64-linux-gnu %s

	// Make sure we know these are legitimate commas and not typos for ';'.
	namespace Commas {
	int a,
	b [[ ]],
	c alignas(double);
	}

	struct S {};
	enum E { e, };

	auto f() -> struct S {
	return S();
	}
	auto g() -> enum E {
	return E();
	}

	namespace EnumBase {
	enum E {};
	// PR19810: The ': E' here is not an enum-base, and the ':' is not a typo for '::'.
	E e = true ? *new enum E : E {};
	// PR45726: This ':' is not an enum-base.
	static_assert(_Generic(e, enum E : int{}, int: 1) == 0); // expected-error {{C11 extension}}
	static_assert(_Generic(1, enum E : int{}, int: 1) == 1); // expected-error {{C11 extension}}
	}

	namespace OpaqueEnumDecl {
	enum E : int; // ok

	// PR44941
	enum E : int n; // expected-error {{non-defining declaration of enumeration with a fixed underlying type is only permitted as a standalone declaration}}
	typedef enum E : int T; // expected-error {{non-defining declaration of enumeration with a fixed underlying type is only permitted as a standalone declaration}}
	typedef enum E : int T; // expected-error {{non-defining declaration of enumeration with a fixed underlying type is only permitted as a standalone declaration}}
	namespace Inner {
	typedef enum E : int T; // expected-error {{non-defining declaration of enumeration with a fixed underlying type is only permitted as a standalone declaration}}
	}

	// GCC incorrectly accepts this one
	using T = enum E : int; // expected-error {{non-defining declaration of enumeration with a fixed underlying type is only permitted as a standalone declaration}}

	// PR19810 comment#2
	int x[sizeof(enum E : int)]; // expected-error {{non-defining declaration of enumeration with a fixed underlying type is only permitted as a standalone declaration}}

	namespace PR24297 {
	enum struct E a; // expected-error {{must use 'enum' not 'enum struct'}}
	enum class F b; // expected-error {{must use 'enum' not 'enum class'}}
	enum G : int c; // expected-error {{only permitted as a standalone declaration}}
	enum struct H : int d; // expected-error {{only permitted as a standalone declaration}}
	enum class I : int e; // expected-error {{only permitted as a standalone declaration}}
	enum X x; // expected-error {{ISO C++ forbids forward reference}} expected-error {{incomplete}} expected-note {{forward declaration}}

	enum struct E *pa; // expected-error {{must use 'enum' not 'enum struct'}}
	enum class F *pb; // expected-error {{must use 'enum' not 'enum class'}}
	enum G : int *pc; // expected-error {{only permitted as a standalone declaration}}
	enum struct H : int *pd; // expected-error {{only permitted as a standalone declaration}}
	enum class I : int *pe; // expected-error {{only permitted as a standalone declaration}}
	enum Y *py; // expected-error {{ISO C++ forbids forward reference}}
	}
	}

	int decltype(f())::*ptr_mem_decltype;

	class ExtraSemiAfterMemFn {
	// Due to a peculiarity in the C++11 grammar, a deleted or defaulted function
	// is permitted to be followed by either one or two semicolons.
	void f() = delete // expected-error {{expected ';' after delete}}
	void g() = delete; // ok
	void h() = delete;; // ok
	void i() = delete;;; // expected-error {{extra ';' after member function definition}}
	};

	int *const const p = 0; // expected-error {{duplicate 'const' declaration specifier}}
	const const int *q = 0; // expected-error {{duplicate 'const' declaration specifier}}

	struct MultiCV {
	void f() const const; // expected-error {{duplicate 'const' declaration specifier}}
	};

	static_assert(something, ""); // expected-error {{undeclared identifier}}

	// PR9903
	struct SS {
	typedef void d() = default; // expected-error {{function definition declared 'typedef'}} expected-error {{only special member functions and comparison operators may be defaulted}}
	};

	using PR14855 = int S::; // expected-error {{expected ';' after alias declaration}}

	// Ensure that 'this' has a const-qualified type in a trailing return type for
	// a constexpr function.
	struct ConstexprTrailingReturn {
	int n;
	constexpr auto f() const -> decltype((n));
	};
	constexpr const int &ConstexprTrailingReturn::f() const { return n; }

	namespace TestIsValidAfterTypeSpecifier {
	struct s {} v;

	struct s
	thread_local tl;

	struct s
	&r0 = v;

	struct s
	&&r1 = s();

	struct s
	bitand r2 = v;

	struct s
	and r3 = s();

	enum E {};
	enum E
	[[]] e;

	}

	namespace PR5066 {
	using T = int (*f)(); // expected-error {{type-id cannot have a name}}
	template<typename T> using U = int (*f)(); // expected-error {{type-id cannot have a name}}
	auto f() -> int (*f)(); // expected-error {{only variables can be initialized}} expected-error {{expected ';'}}
	auto g = []() -> int (*f)() {}; // expected-error {{type-id cannot have a name}}
	}

	namespace FinalOverride {
	struct Base {
	virtual void *f();
	virtual void *g();
	virtual void *h();
	virtual void *i();
	};
	struct Derived : Base {
	virtual auto f() -> void *final;
	virtual auto g() -> void *override;
	virtual auto h() -> void *final override;
	virtual auto i() -> void *override final;
	};
	}

	namespace UsingDeclAttrs {
	using T __attribute__((aligned(1))) = int;
	using T [[gnu::aligned(1)]] = int;
	static_assert(alignof(T) == 1, "");

	using [[gnu::aligned(1)]] T = int; // expected-error {{an attribute list cannot appear here}}
	using T = int [[gnu::aligned(1)]]; // expected-error {{'aligned' attribute cannot be applied to types}}
	}

	namespace DuplicateSpecifier {
	constexpr constexpr int f(); // expected-error {{duplicate 'constexpr' declaration specifier}}
	constexpr int constexpr a = 0; // expected-error {{duplicate 'constexpr' declaration specifier}}

	struct A {
	friend constexpr int constexpr friend f(); // expected-warning {{duplicate 'friend' declaration specifier}} \
	// expected-error {{duplicate 'constexpr' declaration specifier}}
	friend struct A friend; // expected-warning {{duplicate 'friend'}} expected-error {{'friend' must appear first}}
	};

	constinit constexpr int n1 = 0; // expected-error {{cannot combine with previous 'constinit'}}
	constexpr constinit int n2 = 0; // expected-error {{cannot combine with previous 'constexpr'}}
	constinit constinit int n3 = 0; // expected-error {{duplicate 'constinit' declaration specifier}}

	consteval constexpr int f1(); // expected-error {{cannot combine with previous 'consteval'}}
	constexpr consteval int f2(); // expected-error {{cannot combine with previous 'constexpr'}}
	consteval consteval int f3(); // expected-error {{duplicate 'consteval' declaration specifier}}

	constinit consteval int wat = 0; // expected-error {{cannot combine with previous 'constinit'}}
	consteval constinit int huh(); // expected-error {{cannot combine with previous 'consteval'}}
	}

	namespace ColonColonDecltype {
	struct S { struct T {}; };
	::decltype(S())::T invalid; // expected-error {{expected unqualified-id}}
	}

	namespace AliasDeclEndLocation {
	template<typename T> struct A {};
	// Ensure that we correctly determine the end of this declaration to be the
	// end of the annotation token, not the beginning.
	using B = AliasDeclEndLocation::A<int
	> // expected-error {{expected ';' after alias declaration}}
	+;
	using C = AliasDeclEndLocation::A<int
	>\
	> // expected-error {{expected ';' after alias declaration}}
	;
	using D = AliasDeclEndLocation::A<int
	> // expected-error {{expected ';' after alias declaration}}
	// FIXME: After splitting this >> into two > tokens, we incorrectly determine
	// the end of the template-id to be after the second '>'.
	using E = AliasDeclEndLocation::A<int>>;
	#define GGG >>>
	using F = AliasDeclEndLocation::A<int GGG;
	// expected-error@-1 {{expected ';' after alias declaration}}
	B something_else;
	}

	class PR47176 {
	friend void f(PR47176, int = 0) noexcept(true) {}
	};
	static_assert(noexcept(f(PR47176())), "");

	struct Base { virtual void f() = 0; virtual void g() = 0; virtual void h() = 0; };
	struct MemberComponentOrder : Base {
	void f() override __asm__("foobar") __attribute__(( )) {}
	void g() __attribute__(( )) override;
	void h() __attribute__(( )) override {}
	};

	void NoMissingSemicolonHere(struct S
	[3]);
	template<int ...N> void NoMissingSemicolonHereEither(struct S
	... [N]);

	// This must be at the end of the file; we used to look ahead past the EOF token here.
	// expected-error@+1 {{expected unqualified-id}} expected-error@+1{{expected ';'}}
	using