Showing content from https://clang.llvm.org/doxygen/classclang_1_1VectorType.html below:
clang: clang::VectorType Class Reference
QualType getElementType () const unsigned getNumElements () const bool isSugared () const QualType desugar () const VectorKind getVectorKind () const void Profile (llvm::FoldingSetNodeID &ID) Type (const Type &)=delete Type (Type &&)=delete Type & operator= (const Type &)=delete Type & operator= (Type &&)=delete TypeClass getTypeClass () const bool isFromAST () const Whether this type comes from an AST file.
bool containsUnexpandedParameterPack () const Whether this type is or contains an unexpanded parameter pack, used to support C++0x variadic templates.
bool isCanonicalUnqualified () const Determines if this type would be canonical if it had no further qualification.
QualType getLocallyUnqualifiedSingleStepDesugaredType () const Pull a single level of sugar off of this locally-unqualified type.
bool isSizelessType () const As an extension, we classify types as one of "sized" or "sizeless"; every type is one or the other.
bool isSizelessBuiltinType () const bool isSizelessVectorType () const Returns true for all scalable vector types.
bool isSVESizelessBuiltinType () const Returns true for SVE scalable vector types.
bool isRVVSizelessBuiltinType () const Returns true for RVV scalable vector types.
bool isWebAssemblyExternrefType () const Check if this is a WebAssembly Externref Type.
bool isWebAssemblyTableType () const Returns true if this is a WebAssembly table type: either an array of reference types, or a pointer to a reference type (which can only be created by array to pointer decay).
bool isSveVLSBuiltinType () const Determines if this is a sizeless type supported by the 'arm_sve_vector_bits' type attribute, which can be applied to a single SVE vector or predicate, excluding tuple types such as svint32x4_t.
QualType getSveEltType (const ASTContext &Ctx) const Returns the representative type for the element of an SVE builtin type.
bool isRVVVLSBuiltinType () const Determines if this is a sizeless type supported by the 'riscv_rvv_vector_bits' type attribute, which can be applied to a single RVV vector or mask.
QualType getRVVEltType (const ASTContext &Ctx) const Returns the representative type for the element of an RVV builtin type.
QualType getSizelessVectorEltType (const ASTContext &Ctx) const Returns the representative type for the element of a sizeless vector builtin type.
bool isIncompleteType (NamedDecl **Def=nullptr) const Types are partitioned into 3 broad categories (C99 6.2.5p1): object types, function types, and incomplete types.
bool isIncompleteOrObjectType () const Return true if this is an incomplete or object type, in other words, not a function type.
bool isObjectType () const Determine whether this type is an object type.
bool isLiteralType (const ASTContext &Ctx) const Return true if this is a literal type (C++11 [basic.types]p10)
bool isStructuralType () const Determine if this type is a structural type, per C++20 [temp.param]p7.
bool isStandardLayoutType () const Test if this type is a standard-layout type.
bool isBuiltinType () const Helper methods to distinguish type categories.
bool isSpecificBuiltinType (unsigned K) const Test for a particular builtin type.
bool isPlaceholderType () const Test for a type which does not represent an actual type-system type but is instead used as a placeholder for various convenient purposes within Clang.
const BuiltinType * getAsPlaceholderType () const bool isSpecificPlaceholderType (unsigned K) const Test for a specific placeholder type.
bool isNonOverloadPlaceholderType () const Test for a placeholder type other than Overload; see BuiltinType::isNonOverloadPlaceholderType.
bool isIntegerType () const isIntegerType() does not include complex integers (a GCC extension).
bool isEnumeralType () const bool isScopedEnumeralType () const Determine whether this type is a scoped enumeration type.
bool isBooleanType () const bool isCharType () const bool isWideCharType () const bool isChar8Type () const bool isChar16Type () const bool isChar32Type () const bool isAnyCharacterType () const Determine whether this type is any of the built-in character types.
bool isIntegralType (const ASTContext &Ctx) const Determine whether this type is an integral type.
bool isIntegralOrEnumerationType () const Determine whether this type is an integral or enumeration type.
bool isIntegralOrUnscopedEnumerationType () const Determine whether this type is an integral or unscoped enumeration type.
bool isUnscopedEnumerationType () const bool isRealFloatingType () const Floating point categories.
bool isComplexType () const isComplexType() does not include complex integers (a GCC extension).
bool isAnyComplexType () const bool isFloatingType () const bool isHalfType () const bool isFloat16Type () const bool isFloat32Type () const bool isDoubleType () const bool isBFloat16Type () const bool isMFloat8Type () const bool isFloat128Type () const bool isIbm128Type () const bool isRealType () const bool isArithmeticType () const bool isVoidType () const bool isScalarType () const bool isAggregateType () const Determines whether the type is a C++ aggregate type or C aggregate or union type.
bool isFundamentalType () const Tests whether the type is categorized as a fundamental type.
bool isCompoundType () const Tests whether the type is categorized as a compound type.
bool isFunctionType () const bool isFunctionNoProtoType () const bool isFunctionProtoType () const bool isPointerType () const bool isPointerOrReferenceType () const bool isSignableType () const bool isAnyPointerType () const bool isCountAttributedType () const bool isBlockPointerType () const bool isVoidPointerType () const bool isReferenceType () const bool isLValueReferenceType () const bool isRValueReferenceType () const bool isObjectPointerType () const bool isFunctionPointerType () const bool isFunctionReferenceType () const bool isMemberPointerType () const bool isMemberFunctionPointerType () const bool isMemberDataPointerType () const bool isArrayType () const bool isConstantArrayType () const bool isIncompleteArrayType () const bool isVariableArrayType () const bool isArrayParameterType () const bool isDependentSizedArrayType () const bool isRecordType () const bool isClassType () const bool isStructureType () const bool isStructureTypeWithFlexibleArrayMember () const bool isObjCBoxableRecordType () const bool isInterfaceType () const bool isStructureOrClassType () const bool isUnionType () const bool isComplexIntegerType () const bool isVectorType () const bool isExtVectorType () const bool isExtVectorBoolType () const bool isSubscriptableVectorType () const bool isMatrixType () const bool isConstantMatrixType () const bool isDependentAddressSpaceType () const bool isObjCObjectPointerType () const bool isObjCRetainableType () const bool isObjCLifetimeType () const Returns true if objects of this type have lifetime semantics under ARC.
bool isObjCIndirectLifetimeType () const bool isObjCNSObjectType () const bool isObjCIndependentClassType () const bool isObjCObjectType () const bool isObjCQualifiedInterfaceType () const bool isObjCQualifiedIdType () const bool isObjCQualifiedClassType () const bool isObjCObjectOrInterfaceType () const bool isObjCIdType () const bool isDecltypeType () const bool isObjCInertUnsafeUnretainedType () const Was this type written with the special inert-in-ARC __unsafe_unretained qualifier?
bool isObjCIdOrObjectKindOfType (const ASTContext &ctx, const ObjCObjectType *&bound) const Whether the type is Objective-C 'id' or a __kindof type of an object type, e.g., __kindof NSView * or __kindof id <NSCopying>.
bool isObjCClassType () const bool isObjCClassOrClassKindOfType () const Whether the type is Objective-C 'Class' or a __kindof type of an Class type, e.g., __kindof Class <NSCopying>.
bool isBlockCompatibleObjCPointerType (ASTContext &ctx) const bool isObjCSelType () const bool isObjCBuiltinType () const bool isObjCARCBridgableType () const Determine whether the given type T is a "bridgable" Objective-C type, which is either an Objective-C object pointer type or an.
bool isCARCBridgableType () const Determine whether the given type T is a "bridgeable" C type.
bool isTemplateTypeParmType () const bool isNullPtrType () const bool isNothrowT () const bool isAlignValT () const bool isStdByteType () const bool isAtomicType () const bool isUndeducedAutoType () const bool isTypedefNameType () const Determines whether this type is written as a typedef-name.
bool isImageType () const bool isSamplerT () const bool isEventT () const bool isClkEventT () const bool isQueueT () const bool isReserveIDT () const bool isOCLIntelSubgroupAVCType () const bool isOCLExtOpaqueType () const bool isPipeType () const bool isBitIntType () const bool isOpenCLSpecificType () const bool isHLSLSpecificType () const bool isHLSLBuiltinIntangibleType () const bool isHLSLAttributedResourceType () const bool isHLSLIntangibleType () const bool isObjCARCImplicitlyUnretainedType () const Determines if this type, which must satisfy isObjCLifetimeType(), is implicitly __unsafe_unretained rather than implicitly __strong.
bool isCUDADeviceBuiltinSurfaceType () const Check if the type is the CUDA device builtin surface type.
bool isCUDADeviceBuiltinTextureType () const Check if the type is the CUDA device builtin texture type.
Qualifiers::ObjCLifetime getObjCARCImplicitLifetime () const Return the implicit lifetime for this type, which must not be dependent.
ScalarTypeKind getScalarTypeKind () const Given that this is a scalar type, classify it.
TypeDependence getDependence () const bool containsErrors () const Whether this type is an error type.
bool isDependentType () const Whether this type is a dependent type, meaning that its definition somehow depends on a template parameter (C++ [temp.dep.type]).
bool isInstantiationDependentType () const Determine whether this type is an instantiation-dependent type, meaning that the type involves a template parameter (even if the definition does not actually depend on the type substituted for that template parameter).
bool isUndeducedType () const Determine whether this type is an undeduced type, meaning that it somehow involves a C++11 'auto' type or similar which has not yet been deduced.
bool isVariablyModifiedType () const Whether this type is a variably-modified type (C99 6.7.5).
bool hasSizedVLAType () const Whether this type involves a variable-length array type with a definite size.
bool hasUnnamedOrLocalType () const Whether this type is or contains a local or unnamed type.
bool isOverloadableType () const Determines whether this is a type for which one can define an overloaded operator.
bool isElaboratedTypeSpecifier () const Determine wither this type is a C++ elaborated-type-specifier.
bool canDecayToPointerType () const Determines whether this type can decay to a pointer type.
bool hasPointerRepresentation () const Whether this type is represented natively as a pointer.
bool hasObjCPointerRepresentation () const Whether this type can represent an objective pointer type for the purpose of GC'ability.
bool hasIntegerRepresentation () const Determine whether this type has an integer representation of some sort, e.g., it is an integer type or a vector.
bool hasSignedIntegerRepresentation () const Determine whether this type has an signed integer representation of some sort, e.g., it is an signed integer type or a vector.
bool hasUnsignedIntegerRepresentation () const Determine whether this type has an unsigned integer representation of some sort, e.g., it is an unsigned integer type or a vector.
bool hasFloatingRepresentation () const Determine whether this type has a floating-point representation of some sort, e.g., it is a floating-point type or a vector thereof.
const RecordType * getAsStructureType () const const RecordType * getAsUnionType () const NOTE: getAs*ArrayType are methods on ASTContext.
const ComplexType * getAsComplexIntegerType () const const ObjCObjectType * getAsObjCInterfaceType () const const ObjCObjectPointerType * getAsObjCInterfacePointerType () const const ObjCObjectPointerType * getAsObjCQualifiedIdType () const const ObjCObjectPointerType * getAsObjCQualifiedClassType () const const ObjCObjectType * getAsObjCQualifiedInterfaceType () const CXXRecordDecl * getAsCXXRecordDecl () const Retrieves the CXXRecordDecl that this type refers to, either because the type is a RecordType or because it is the injected-class-name type of a class template or class template partial specialization.
RecordDecl * getAsRecordDecl () const Retrieves the RecordDecl this type refers to.
TagDecl * getAsTagDecl () const Retrieves the TagDecl that this type refers to, either because the type is a TagType or because it is the injected-class-name type of a class template or class template partial specialization.
const CXXRecordDecl * getPointeeCXXRecordDecl () const If this is a pointer or reference to a RecordType, return the CXXRecordDecl that the type refers to.
DeducedType * getContainedDeducedType () const Get the DeducedType whose type will be deduced for a variable with an initializer of this type.
AutoType * getContainedAutoType () const Get the AutoType whose type will be deduced for a variable with an initializer of this type.
bool hasAutoForTrailingReturnType () const Determine whether this type was written with a leading 'auto' corresponding to a trailing return type (possibly for a nested function type within a pointer to function type or similar).
template<typename T > const T * getAs () const Member-template getAs<specific type>'.
template<typename T > const T * getAsAdjusted () const Member-template getAsAdjusted<specific type>.
const ArrayType * getAsArrayTypeUnsafe () const A variant of getAs<> for array types which silently discards qualifiers from the outermost type.
template<typename T > const T * castAs () const Member-template castAs<specific type>.
const ArrayType * castAsArrayTypeUnsafe () const A variant of castAs<> for array type which silently discards qualifiers from the outermost type.
bool hasAttr (attr::Kind AK) const Determine whether this type had the specified attribute applied to it (looking through top-level type sugar).
const Type * getBaseElementTypeUnsafe () const Get the base element type of this type, potentially discarding type qualifiers.
const Type * getArrayElementTypeNoTypeQual () const If this is an array type, return the element type of the array, potentially with type qualifiers missing.
const Type * getPointeeOrArrayElementType () const If this is a pointer type, return the pointee type.
QualType getPointeeType () const If this is a pointer, ObjC object pointer, or block pointer, this returns the respective pointee.
const Type * getUnqualifiedDesugaredType () const Return the specified type with any "sugar" removed from the type, removing any typedefs, typeofs, etc., as well as any qualifiers.
bool isSignedIntegerType () const Return true if this is an integer type that is signed, according to C99 6.2.5p4 [char, signed char, short, int, long..], or an enum decl which has a signed representation.
bool isUnsignedIntegerType () const Return true if this is an integer type that is unsigned, according to C99 6.2.5p6 [which returns true for _Bool], or an enum decl which has an unsigned representation.
bool isSignedIntegerOrEnumerationType () const Determines whether this is an integer type that is signed or an enumeration types whose underlying type is a signed integer type.
bool isUnsignedIntegerOrEnumerationType () const Determines whether this is an integer type that is unsigned or an enumeration types whose underlying type is a unsigned integer type.
bool isFixedPointType () const Return true if this is a fixed point type according to ISO/IEC JTC1 SC22 WG14 N1169.
bool isFixedPointOrIntegerType () const Return true if this is a fixed point or integer type.
bool isConvertibleToFixedPointType () const Return true if this can be converted to (or from) a fixed point type.
bool isSaturatedFixedPointType () const Return true if this is a saturated fixed point type according to ISO/IEC JTC1 SC22 WG14 N1169.
bool isUnsaturatedFixedPointType () const Return true if this is a saturated fixed point type according to ISO/IEC JTC1 SC22 WG14 N1169.
bool isSignedFixedPointType () const Return true if this is a fixed point type that is signed according to ISO/IEC JTC1 SC22 WG14 N1169.
bool isUnsignedFixedPointType () const Return true if this is a fixed point type that is unsigned according to ISO/IEC JTC1 SC22 WG14 N1169.
bool isConstantSizeType () const Return true if this is not a variable sized type, according to the rules of C99 6.7.5p3.
bool isSpecifierType () const Returns true if this type can be represented by some set of type specifiers.
Linkage getLinkage () const Determine the linkage of this type.
Visibility getVisibility () const Determine the visibility of this type.
bool isVisibilityExplicit () const Return true if the visibility was explicitly set is the code.
LinkageInfo getLinkageAndVisibility () const Determine the linkage and visibility of this type.
bool isLinkageValid () const True if the computed linkage is valid.
std::optional< NullabilityKind > getNullability () const Determine the nullability of the given type.
bool canHaveNullability (bool ResultIfUnknown=true) const Determine whether the given type can have a nullability specifier applied to it, i.e., if it is any kind of pointer type.
std::optional< ArrayRef< QualType > > getObjCSubstitutions (const DeclContext *dc) const Retrieve the set of substitutions required when accessing a member of the Objective-C receiver type that is declared in the given context.
bool acceptsObjCTypeParams () const Determines if this is an ObjC interface type that may accept type parameters.
const char * getTypeClassName () const QualType getCanonicalTypeInternal () const CanQualType getCanonicalTypeUnqualified () const void dump () const void dump (llvm::raw_ostream &OS, const ASTContext &Context) const template<> const TypedefType * getAs () const This will check for a TypedefType by removing any existing sugar until it reaches a TypedefType or a non-sugared type.
Represents a GCC generic vector type.
This type is created using attribute((vector_size(n)), where "n" specifies the vector size in bytes; or from an Altivec __vector or vector declaration. Since the constructor takes the number of vector elements, the client is responsible for converting the size into the number of elements.
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Examples
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/home/buildbot/as-worker-4/publish-doxygen-docs/llvm-project/clang/lib/StaticAnalyzer/Core/RegionStore.cpp.
Definition at line 4035 of file Type.h.
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