//===- OperationKinds.h - Operation enums -----------------------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file enumerates the different kinds of operations that can be // performed by various expressions. // //===----------------------------------------------------------------------===// #ifndef LLVM_CLANG_AST_OPERATION_KINDS_H #define LLVM_CLANG_AST_OPERATION_KINDS_H namespace clang { /// CastKind - The kind of operation required for a conversion. enum CastKind { /// CK_Dependent - A conversion which cannot yet be analyzed because /// either the expression or target type is dependent. These are /// created only for explicit casts; dependent ASTs aren't required /// to even approximately type-check. /// (T*) malloc(sizeof(T)) /// reinterpret_cast(A::alloc()); CK_Dependent, /// CK_BitCast - A conversion which causes a bit pattern of one type /// to be reinterpreted as a bit pattern of another type. Generally /// the operands must have equivalent size and unrelated types. /// /// The pointer conversion char* -> int* is a bitcast. A conversion /// from any pointer type to a C pointer type is a bitcast unless /// it's actually BaseToDerived or DerivedToBase. A conversion to a /// block pointer or ObjC pointer type is a bitcast only if the /// operand has the same type kind; otherwise, it's one of the /// specialized casts below. /// /// Vector coercions are bitcasts. CK_BitCast, /// CK_LValueBitCast - A conversion which reinterprets the address of /// an l-value as an l-value of a different kind. Used for /// reinterpret_casts of l-value expressions to reference types. /// bool b; reinterpret_cast(b) = 'a'; CK_LValueBitCast, /// CK_LValueToRValue - A conversion which causes the extraction of /// an r-value from the operand gl-value. The result of an r-value /// conversion is always unqualified. CK_LValueToRValue, /// CK_NoOp - A conversion which does not affect the type other than /// (possibly) adding qualifiers. /// int -> int /// char** -> const char * const * CK_NoOp, /// CK_BaseToDerived - A conversion from a C++ class pointer/reference /// to a derived class pointer/reference. /// B *b = static_cast(a); CK_BaseToDerived, /// CK_DerivedToBase - A conversion from a C++ class pointer /// to a base class pointer. /// A *a = new B(); CK_DerivedToBase, /// CK_UncheckedDerivedToBase - A conversion from a C++ class /// pointer/reference to a base class that can assume that the /// derived pointer is not null. /// const A &a = B(); /// b->method_from_a(); CK_UncheckedDerivedToBase, /// CK_Dynamic - A C++ dynamic_cast. CK_Dynamic, /// CK_ToUnion - The GCC cast-to-union extension. /// int -> union { int x; float y; } /// float -> union { int x; float y; } CK_ToUnion, /// CK_ArrayToPointerDecay - Array to pointer decay. /// int[10] -> int* /// char[5][6] -> char(*)[6] CK_ArrayToPointerDecay, /// CK_FunctionToPointerDecay - Function to pointer decay. /// void(int) -> void(*)(int) CK_FunctionToPointerDecay, /// CK_NullToPointer - Null pointer constant to pointer, ObjC /// pointer, or block pointer. /// (void*) 0 /// void (^block)() = 0; CK_NullToPointer, /// CK_NullToMemberPointer - Null pointer constant to member pointer. /// int A::*mptr = 0; /// int (A::*fptr)(int) = nullptr; CK_NullToMemberPointer, /// CK_BaseToDerivedMemberPointer - Member pointer in base class to /// member pointer in derived class. /// int B::*mptr = &A::member; CK_BaseToDerivedMemberPointer, /// CK_DerivedToBaseMemberPointer - Member pointer in derived class to /// member pointer in base class. /// int A::*mptr = static_cast(&B::member); CK_DerivedToBaseMemberPointer, /// CK_MemberPointerToBoolean - Member pointer to boolean. A check /// against the null member pointer. CK_MemberPointerToBoolean, /// CK_ReinterpretMemberPointer - Reinterpret a member pointer as a /// different kind of member pointer. C++ forbids this from /// crossing between function and object types, but otherwise does /// not restrict it. However, the only operation that is permitted /// on a "punned" member pointer is casting it back to the original /// type, which is required to be a lossless operation (although /// many ABIs do not guarantee this on all possible intermediate types). CK_ReinterpretMemberPointer, /// CK_UserDefinedConversion - Conversion using a user defined type /// conversion function. /// struct A { operator int(); }; int i = int(A()); CK_UserDefinedConversion, /// CK_ConstructorConversion - Conversion by constructor. /// struct A { A(int); }; A a = A(10); CK_ConstructorConversion, /// CK_IntegralToPointer - Integral to pointer. A special kind of /// reinterpreting conversion. Applies to normal, ObjC, and block /// pointers. /// (char*) 0x1001aab0 /// reinterpret_cast(0) CK_IntegralToPointer, /// CK_PointerToIntegral - Pointer to integral. A special kind of /// reinterpreting conversion. Applies to normal, ObjC, and block /// pointers. /// (intptr_t) "help!" CK_PointerToIntegral, /// CK_PointerToBoolean - Pointer to boolean conversion. A check /// against null. Applies to normal, ObjC, and block pointers. CK_PointerToBoolean, /// CK_ToVoid - Cast to void, discarding the computed value. /// (void) malloc(2048) CK_ToVoid, /// CK_VectorSplat - A conversion from an arithmetic type to a /// vector of that element type. Fills all elements ("splats") with /// the source value. /// __attribute__((ext_vector_type(4))) int v = 5; CK_VectorSplat, /// CK_IntegralCast - A cast between integral types (other than to /// boolean). Variously a bitcast, a truncation, a sign-extension, /// or a zero-extension. /// long l = 5; /// (unsigned) i CK_IntegralCast, /// CK_IntegralToBoolean - Integral to boolean. A check against zero. /// (bool) i CK_IntegralToBoolean, /// CK_IntegralToFloating - Integral to floating point. /// float f = i; CK_IntegralToFloating, /// CK_FloatingToIntegral - Floating point to integral. Rounds /// towards zero, discarding any fractional component. /// (int) f CK_FloatingToIntegral, /// CK_FloatingToBoolean - Floating point to boolean. /// (bool) f CK_FloatingToBoolean, /// CK_FloatingCast - Casting between floating types of different size. /// (double) f /// (float) ld CK_FloatingCast, /// CK_CPointerToObjCPointerCast - Casting a C pointer kind to an /// Objective-C pointer. CK_CPointerToObjCPointerCast, /// CK_BlockPointerToObjCPointerCast - Casting a block pointer to an /// ObjC pointer. CK_BlockPointerToObjCPointerCast, /// CK_AnyPointerToBlockPointerCast - Casting any non-block pointer /// to a block pointer. Block-to-block casts are bitcasts. CK_AnyPointerToBlockPointerCast, /// \brief Converting between two Objective-C object types, which /// can occur when performing reference binding to an Objective-C /// object. CK_ObjCObjectLValueCast, /// \brief A conversion of a floating point real to a floating point /// complex of the original type. Injects the value as the real /// component with a zero imaginary component. /// float -> _Complex float CK_FloatingRealToComplex, /// \brief Converts a floating point complex to floating point real /// of the source's element type. Just discards the imaginary /// component. /// _Complex long double -> long double CK_FloatingComplexToReal, /// \brief Converts a floating point complex to bool by comparing /// against 0+0i. CK_FloatingComplexToBoolean, /// \brief Converts between different floating point complex types. /// _Complex float -> _Complex double CK_FloatingComplexCast, /// \brief Converts from a floating complex to an integral complex. /// _Complex float -> _Complex int CK_FloatingComplexToIntegralComplex, /// \brief Converts from an integral real to an integral complex /// whose element type matches the source. Injects the value as /// the real component with a zero imaginary component. /// long -> _Complex long CK_IntegralRealToComplex, /// \brief Converts an integral complex to an integral real of the /// source's element type by discarding the imaginary component. /// _Complex short -> short CK_IntegralComplexToReal, /// \brief Converts an integral complex to bool by comparing against /// 0+0i. CK_IntegralComplexToBoolean, /// \brief Converts between different integral complex types. /// _Complex char -> _Complex long long /// _Complex unsigned int -> _Complex signed int CK_IntegralComplexCast, /// \brief Converts from an integral complex to a floating complex. /// _Complex unsigned -> _Complex float CK_IntegralComplexToFloatingComplex, /// \brief [ARC] Produces a retainable object pointer so that it may /// be consumed, e.g. by being passed to a consuming parameter. /// Calls objc_retain. CK_ARCProduceObject, /// \brief [ARC] Consumes a retainable object pointer that has just /// been produced, e.g. as the return value of a retaining call. /// Enters a cleanup to call objc_release at some indefinite time. CK_ARCConsumeObject, /// \brief [ARC] Reclaim a retainable object pointer object that may /// have been produced and autoreleased as part of a function return /// sequence. CK_ARCReclaimReturnedObject, /// \brief [ARC] Causes a value of block type to be copied to the /// heap, if it is not already there. A number of other operations /// in ARC cause blocks to be copied; this is for cases where that /// would not otherwise be guaranteed, such as when casting to a /// non-block pointer type. CK_ARCExtendBlockObject, /// \brief Converts from _Atomic(T) to T. CK_AtomicToNonAtomic, /// \brief Converts from T to _Atomic(T). CK_NonAtomicToAtomic, /// \brief Causes a block literal to by copied to the heap and then /// autoreleased. /// /// This particular cast kind is used for the conversion from a C++11 /// lambda expression to a block pointer. CK_CopyAndAutoreleaseBlockObject, // Convert a builtin function to a function pointer; only allowed in the // callee of a call expression. CK_BuiltinFnToFnPtr, // Convert a zero value for OpenCL event_t initialization. CK_ZeroToOCLEvent }; static const CastKind CK_Invalid = static_cast(-1); enum BinaryOperatorKind { // Operators listed in order of precedence. // Note that additions to this should also update the StmtVisitor class. BO_PtrMemD, BO_PtrMemI, // [C++ 5.5] Pointer-to-member operators. BO_Mul, BO_Div, BO_Rem, // [C99 6.5.5] Multiplicative operators. BO_Add, BO_Sub, // [C99 6.5.6] Additive operators. BO_Shl, BO_Shr, // [C99 6.5.7] Bitwise shift operators. BO_LT, BO_GT, BO_LE, BO_GE, // [C99 6.5.8] Relational operators. BO_EQ, BO_NE, // [C99 6.5.9] Equality operators. BO_And, // [C99 6.5.10] Bitwise AND operator. BO_Xor, // [C99 6.5.11] Bitwise XOR operator. BO_Or, // [C99 6.5.12] Bitwise OR operator. BO_LAnd, // [C99 6.5.13] Logical AND operator. BO_LOr, // [C99 6.5.14] Logical OR operator. BO_Assign, BO_MulAssign, // [C99 6.5.16] Assignment operators. BO_DivAssign, BO_RemAssign, BO_AddAssign, BO_SubAssign, BO_ShlAssign, BO_ShrAssign, BO_AndAssign, BO_XorAssign, BO_OrAssign, BO_Comma // [C99 6.5.17] Comma operator. }; enum UnaryOperatorKind { // Note that additions to this should also update the StmtVisitor class. UO_PostInc, UO_PostDec, // [C99 6.5.2.4] Postfix increment and decrement UO_PreInc, UO_PreDec, // [C99 6.5.3.1] Prefix increment and decrement UO_AddrOf, UO_Deref, // [C99 6.5.3.2] Address and indirection UO_Plus, UO_Minus, // [C99 6.5.3.3] Unary arithmetic UO_Not, UO_LNot, // [C99 6.5.3.3] Unary arithmetic UO_Real, UO_Imag, // "__real expr"/"__imag expr" Extension. UO_Extension // __extension__ marker. }; /// \brief The kind of bridging performed by the Objective-C bridge cast. enum ObjCBridgeCastKind { /// \brief Bridging via __bridge, which does nothing but reinterpret /// the bits. OBC_Bridge, /// \brief Bridging via __bridge_transfer, which transfers ownership of an /// Objective-C pointer into ARC. OBC_BridgeTransfer, /// \brief Bridging via __bridge_retain, which makes an ARC object available /// as a +1 C pointer. OBC_BridgeRetained }; } #endif