//===-- BuiltinTypeNodes.def - Metadata about BuiltinTypes ------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file defines the database about various builtin singleton types. // // BuiltinType::Id is the enumerator defining the type. // // Context.SingletonId is the global singleton of this type. Some global // singletons are shared by multiple types. // // BUILTIN_TYPE(Id, SingletonId) - A builtin type that has not been // covered by any other #define. Defining this macro covers all // the builtins. // // SIGNED_TYPE(Id, SingletonId) - A signed integral type. // // UNSIGNED_TYPE(Id, SingletonId) - An unsigned integral type. // // FLOATING_TYPE(Id, SingletonId) - A floating-point type. // // PLACEHOLDER_TYPE(Id, SingletonId) - A placeholder type. Placeholder // types are used to perform context-sensitive checking of specific // forms of expression. // // SHARED_SINGLETON_TYPE(Expansion) - The given expansion corresponds // to a builtin which uses a shared singleton type. // //===----------------------------------------------------------------------===// #ifndef SIGNED_TYPE #define SIGNED_TYPE(Id, SingletonId) BUILTIN_TYPE(Id, SingletonId) #endif #ifndef UNSIGNED_TYPE #define UNSIGNED_TYPE(Id, SingletonId) BUILTIN_TYPE(Id, SingletonId) #endif #ifndef FLOATING_TYPE #define FLOATING_TYPE(Id, SingletonId) BUILTIN_TYPE(Id, SingletonId) #endif #ifndef PLACEHOLDER_TYPE #define PLACEHOLDER_TYPE(Id, SingletonId) BUILTIN_TYPE(Id, SingletonId) #endif #ifndef SHARED_SINGLETON_TYPE #define SHARED_SINGLETON_TYPE(Expansion) Expansion #endif //===- Builtin Types ------------------------------------------------------===// // void BUILTIN_TYPE(Void, VoidTy) //===- Unsigned Types -----------------------------------------------------===// // 'bool' in C++, '_Bool' in C99 UNSIGNED_TYPE(Bool, BoolTy) // 'char' for targets where it's unsigned SHARED_SINGLETON_TYPE(UNSIGNED_TYPE(Char_U, CharTy)) // 'unsigned char', explicitly qualified UNSIGNED_TYPE(UChar, UnsignedCharTy) // 'wchar_t' for targets where it's unsigned SHARED_SINGLETON_TYPE(UNSIGNED_TYPE(WChar_U, WCharTy)) // 'char16_t' in C++ UNSIGNED_TYPE(Char16, Char16Ty) // 'char32_t' in C++ UNSIGNED_TYPE(Char32, Char32Ty) // 'unsigned short' UNSIGNED_TYPE(UShort, UnsignedShortTy) // 'unsigned int' UNSIGNED_TYPE(UInt, UnsignedIntTy) // 'unsigned long' UNSIGNED_TYPE(ULong, UnsignedLongTy) // 'unsigned long long' UNSIGNED_TYPE(ULongLong, UnsignedLongLongTy) // '__uint128_t' UNSIGNED_TYPE(UInt128, UnsignedInt128Ty) //===- Signed Types -------------------------------------------------------===// // 'char' for targets where it's signed SHARED_SINGLETON_TYPE(SIGNED_TYPE(Char_S, CharTy)) // 'signed char', explicitly qualified SIGNED_TYPE(SChar, SignedCharTy) // 'wchar_t' for targets where it's signed SHARED_SINGLETON_TYPE(SIGNED_TYPE(WChar_S, WCharTy)) // 'short' or 'signed short' SIGNED_TYPE(Short, ShortTy) // 'int' or 'signed int' SIGNED_TYPE(Int, IntTy) // 'long' or 'signed long' SIGNED_TYPE(Long, LongTy) // 'long long' or 'signed long long' SIGNED_TYPE(LongLong, LongLongTy) // '__int128_t' SIGNED_TYPE(Int128, Int128Ty) //===- Floating point types -----------------------------------------------===// // 'half' in OpenCL, '__fp16' in ARM NEON. FLOATING_TYPE(Half, HalfTy) // 'float' FLOATING_TYPE(Float, FloatTy) // 'double' FLOATING_TYPE(Double, DoubleTy) // 'long double' FLOATING_TYPE(LongDouble, LongDoubleTy) //===- Language-specific types --------------------------------------------===// // This is the type of C++0x 'nullptr'. BUILTIN_TYPE(NullPtr, NullPtrTy) // The primitive Objective C 'id' type. The user-visible 'id' // type is a typedef of an ObjCObjectPointerType to an // ObjCObjectType with this as its base. In fact, this only ever // shows up in an AST as the base type of an ObjCObjectType. BUILTIN_TYPE(ObjCId, ObjCBuiltinIdTy) // The primitive Objective C 'Class' type. The user-visible // 'Class' type is a typedef of an ObjCObjectPointerType to an // ObjCObjectType with this as its base. In fact, this only ever // shows up in an AST as the base type of an ObjCObjectType. BUILTIN_TYPE(ObjCClass, ObjCBuiltinClassTy) // The primitive Objective C 'SEL' type. The user-visible 'SEL' // type is a typedef of a PointerType to this. BUILTIN_TYPE(ObjCSel, ObjCBuiltinSelTy) // OpenCL image types. BUILTIN_TYPE(OCLImage1d, OCLImage1dTy) BUILTIN_TYPE(OCLImage1dArray, OCLImage1dArrayTy) BUILTIN_TYPE(OCLImage1dBuffer, OCLImage1dBufferTy) BUILTIN_TYPE(OCLImage2d, OCLImage2dTy) BUILTIN_TYPE(OCLImage2dArray, OCLImage2dArrayTy) BUILTIN_TYPE(OCLImage3d, OCLImage3dTy) // OpenCL sampler_t. BUILTIN_TYPE(OCLSampler, OCLSamplerTy) // OpenCL event_t. BUILTIN_TYPE(OCLEvent, OCLEventTy) // This represents the type of an expression whose type is // totally unknown, e.g. 'T::foo'. It is permitted for this to // appear in situations where the structure of the type is // theoretically deducible. BUILTIN_TYPE(Dependent, DependentTy) // The type of an unresolved overload set. A placeholder type. // Expressions with this type have one of the following basic // forms, with parentheses generally permitted: // foo # possibly qualified, not if an implicit access // foo # possibly qualified, not if an implicit access // &foo # possibly qualified, not if an implicit access // x->foo # only if might be a static member function // &x->foo # only if might be a static member function // &Class::foo # when a pointer-to-member; sub-expr also has this type // OverloadExpr::find can be used to analyze the expression. // // Overload should be the first placeholder type, or else change // BuiltinType::isNonOverloadPlaceholderType() PLACEHOLDER_TYPE(Overload, OverloadTy) // The type of a bound C++ non-static member function. // A placeholder type. Expressions with this type have one of the // following basic forms: // foo # if an implicit access // x->foo # if only contains non-static members PLACEHOLDER_TYPE(BoundMember, BoundMemberTy) // The type of an expression which refers to a pseudo-object, // such as those introduced by Objective C's @property or // VS.NET's __property declarations. A placeholder type. The // pseudo-object is actually accessed by emitting a call to // some sort of function or method; typically there is a pair // of a setter and a getter, with the setter used if the // pseudo-object reference is used syntactically as the // left-hand-side of an assignment operator. // // A pseudo-object reference naming an Objective-C @property is // always a dot access with a base of object-pointer type, // e.g. 'x.foo'. // // In VS.NET, a __property declaration creates an implicit // member with an associated name, which can then be named // in any of the normal ways an ordinary member could be. PLACEHOLDER_TYPE(PseudoObject, PseudoObjectTy) // __builtin_any_type. A placeholder type. Useful for clients // like debuggers that don't know what type to give something. // Only a small number of operations are valid on expressions of // unknown type, most notably explicit casts. PLACEHOLDER_TYPE(UnknownAny, UnknownAnyTy) PLACEHOLDER_TYPE(BuiltinFn, BuiltinFnTy) // The type of a cast which, in ARC, would normally require a // __bridge, but which might be okay depending on the immediate // context. PLACEHOLDER_TYPE(ARCUnbridgedCast, ARCUnbridgedCastTy) #ifdef LAST_BUILTIN_TYPE LAST_BUILTIN_TYPE(ARCUnbridgedCast) #undef LAST_BUILTIN_TYPE #endif #undef SHARED_SINGLETON_TYPE #undef PLACEHOLDER_TYPE #undef FLOATING_TYPE #undef SIGNED_TYPE #undef UNSIGNED_TYPE #undef BUILTIN_TYPE