//===--- AttributeList.h - Parsed attribute sets ----------------*- 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 AttributeList class, which is used to collect // parsed attributes. // //===----------------------------------------------------------------------===// #ifndef LLVM_CLANG_SEMA_ATTRLIST_H #define LLVM_CLANG_SEMA_ATTRLIST_H #include "clang/Basic/SourceLocation.h" #include "clang/Basic/VersionTuple.h" #include "clang/Sema/Ownership.h" #include "llvm/ADT/SmallVector.h" #include "llvm/Support/Allocator.h" #include namespace clang { class ASTContext; class IdentifierInfo; class Expr; /// \brief Represents information about a change in availability for /// an entity, which is part of the encoding of the 'availability' /// attribute. struct AvailabilityChange { /// \brief The location of the keyword indicating the kind of change. SourceLocation KeywordLoc; /// \brief The version number at which the change occurred. VersionTuple Version; /// \brief The source range covering the version number. SourceRange VersionRange; /// \brief Determine whether this availability change is valid. bool isValid() const { return !Version.empty(); } }; /// AttributeList - Represents a syntactic attribute. /// /// For a GNU attribute, there are four forms of this construct: /// /// 1: __attribute__(( const )). ParmName/Args/NumArgs will all be unused. /// 2: __attribute__(( mode(byte) )). ParmName used, Args/NumArgs unused. /// 3: __attribute__(( format(printf, 1, 2) )). ParmName/Args/NumArgs all used. /// 4: __attribute__(( aligned(16) )). ParmName is unused, Args/Num used. /// class AttributeList { // TODO: This should really be called ParsedAttribute public: /// The style used to specify an attribute. enum Syntax { /// __attribute__((...)) AS_GNU, /// [[...]] AS_CXX11, /// __declspec(...) AS_Declspec, /// __ptr16, alignas(...), etc. AS_Keyword }; private: IdentifierInfo *AttrName; IdentifierInfo *ScopeName; IdentifierInfo *ParmName; SourceRange AttrRange; SourceLocation ScopeLoc; SourceLocation ParmLoc; SourceLocation EllipsisLoc; /// The number of expression arguments this attribute has. /// The expressions themselves are stored after the object. unsigned NumArgs : 16; /// Corresponds to the Syntax enum. unsigned SyntaxUsed : 2; /// True if already diagnosed as invalid. mutable unsigned Invalid : 1; /// True if this attribute was used as a type attribute. mutable unsigned UsedAsTypeAttr : 1; /// True if this has the extra information associated with an /// availability attribute. unsigned IsAvailability : 1; /// True if this has extra information associated with a /// type_tag_for_datatype attribute. unsigned IsTypeTagForDatatype : 1; /// True if this has extra information associated with a /// Microsoft __delcspec(property) attribute. unsigned IsProperty : 1; unsigned AttrKind : 8; /// \brief The location of the 'unavailable' keyword in an /// availability attribute. SourceLocation UnavailableLoc; const Expr *MessageExpr; /// The next attribute in the current position. AttributeList *NextInPosition; /// The next attribute allocated in the current Pool. AttributeList *NextInPool; Expr **getArgsBuffer() { return reinterpret_cast(this+1); } Expr * const *getArgsBuffer() const { return reinterpret_cast(this+1); } enum AvailabilitySlot { IntroducedSlot, DeprecatedSlot, ObsoletedSlot }; AvailabilityChange &getAvailabilitySlot(AvailabilitySlot index) { return reinterpret_cast(this+1)[index]; } const AvailabilityChange &getAvailabilitySlot(AvailabilitySlot index) const { return reinterpret_cast(this+1)[index]; } public: struct TypeTagForDatatypeData { ParsedType *MatchingCType; unsigned LayoutCompatible : 1; unsigned MustBeNull : 1; }; struct PropertyData { IdentifierInfo *GetterId, *SetterId; PropertyData(IdentifierInfo *getterId, IdentifierInfo *setterId) : GetterId(getterId), SetterId(setterId) {} }; private: TypeTagForDatatypeData &getTypeTagForDatatypeDataSlot() { return *reinterpret_cast(this + 1); } const TypeTagForDatatypeData &getTypeTagForDatatypeDataSlot() const { return *reinterpret_cast(this + 1); } ParsedType &getTypeBuffer() { return *reinterpret_cast(this + 1); } const ParsedType &getTypeBuffer() const { return *reinterpret_cast(this + 1); } PropertyData &getPropertyDataBuffer() { assert(IsProperty); return *reinterpret_cast(this + 1); } const PropertyData &getPropertyDataBuffer() const { assert(IsProperty); return *reinterpret_cast(this + 1); } AttributeList(const AttributeList &) LLVM_DELETED_FUNCTION; void operator=(const AttributeList &) LLVM_DELETED_FUNCTION; void operator delete(void *) LLVM_DELETED_FUNCTION; ~AttributeList() LLVM_DELETED_FUNCTION; size_t allocated_size() const; /// Constructor for attributes with expression arguments. AttributeList(IdentifierInfo *attrName, SourceRange attrRange, IdentifierInfo *scopeName, SourceLocation scopeLoc, IdentifierInfo *parmName, SourceLocation parmLoc, Expr **args, unsigned numArgs, Syntax syntaxUsed, SourceLocation ellipsisLoc) : AttrName(attrName), ScopeName(scopeName), ParmName(parmName), AttrRange(attrRange), ScopeLoc(scopeLoc), ParmLoc(parmLoc), EllipsisLoc(ellipsisLoc), NumArgs(numArgs), SyntaxUsed(syntaxUsed), Invalid(false), UsedAsTypeAttr(false), IsAvailability(false), IsTypeTagForDatatype(false), IsProperty(false), NextInPosition(0), NextInPool(0) { if (numArgs) memcpy(getArgsBuffer(), args, numArgs * sizeof(Expr*)); AttrKind = getKind(getName(), getScopeName(), syntaxUsed); } /// Constructor for availability attributes. AttributeList(IdentifierInfo *attrName, SourceRange attrRange, IdentifierInfo *scopeName, SourceLocation scopeLoc, IdentifierInfo *parmName, SourceLocation parmLoc, const AvailabilityChange &introduced, const AvailabilityChange &deprecated, const AvailabilityChange &obsoleted, SourceLocation unavailable, const Expr *messageExpr, Syntax syntaxUsed) : AttrName(attrName), ScopeName(scopeName), ParmName(parmName), AttrRange(attrRange), ScopeLoc(scopeLoc), ParmLoc(parmLoc), EllipsisLoc(), NumArgs(0), SyntaxUsed(syntaxUsed), Invalid(false), UsedAsTypeAttr(false), IsAvailability(true), IsTypeTagForDatatype(false), IsProperty(false), UnavailableLoc(unavailable), MessageExpr(messageExpr), NextInPosition(0), NextInPool(0) { new (&getAvailabilitySlot(IntroducedSlot)) AvailabilityChange(introduced); new (&getAvailabilitySlot(DeprecatedSlot)) AvailabilityChange(deprecated); new (&getAvailabilitySlot(ObsoletedSlot)) AvailabilityChange(obsoleted); AttrKind = getKind(getName(), getScopeName(), syntaxUsed); } /// Constructor for type_tag_for_datatype attribute. AttributeList(IdentifierInfo *attrName, SourceRange attrRange, IdentifierInfo *scopeName, SourceLocation scopeLoc, IdentifierInfo *argumentKindName, SourceLocation argumentKindLoc, ParsedType matchingCType, bool layoutCompatible, bool mustBeNull, Syntax syntaxUsed) : AttrName(attrName), ScopeName(scopeName), ParmName(argumentKindName), AttrRange(attrRange), ScopeLoc(scopeLoc), ParmLoc(argumentKindLoc), EllipsisLoc(), NumArgs(0), SyntaxUsed(syntaxUsed), Invalid(false), UsedAsTypeAttr(false), IsAvailability(false), IsTypeTagForDatatype(true), IsProperty(false), NextInPosition(NULL), NextInPool(NULL) { TypeTagForDatatypeData &ExtraData = getTypeTagForDatatypeDataSlot(); new (&ExtraData.MatchingCType) ParsedType(matchingCType); ExtraData.LayoutCompatible = layoutCompatible; ExtraData.MustBeNull = mustBeNull; AttrKind = getKind(getName(), getScopeName(), syntaxUsed); } /// Constructor for attributes with a single type argument. AttributeList(IdentifierInfo *attrName, SourceRange attrRange, IdentifierInfo *scopeName, SourceLocation scopeLoc, IdentifierInfo *parmName, SourceLocation parmLoc, ParsedType typeArg, Syntax syntaxUsed) : AttrName(attrName), ScopeName(scopeName), ParmName(parmName), AttrRange(attrRange), ScopeLoc(scopeLoc), ParmLoc(parmLoc), EllipsisLoc(), NumArgs(1), SyntaxUsed(syntaxUsed), Invalid(false), UsedAsTypeAttr(false), IsAvailability(false), IsTypeTagForDatatype(false), IsProperty(false), NextInPosition(0), NextInPool(0) { new (&getTypeBuffer()) ParsedType(typeArg); AttrKind = getKind(getName(), getScopeName(), syntaxUsed); } /// Constructor for microsoft __declspec(property) attribute. AttributeList(IdentifierInfo *attrName, SourceRange attrRange, IdentifierInfo *scopeName, SourceLocation scopeLoc, IdentifierInfo *parmName, SourceLocation parmLoc, IdentifierInfo *getterId, IdentifierInfo *setterId, Syntax syntaxUsed) : AttrName(attrName), ScopeName(scopeName), ParmName(parmName), AttrRange(attrRange), ScopeLoc(scopeLoc), ParmLoc(parmLoc), SyntaxUsed(syntaxUsed), Invalid(false), UsedAsTypeAttr(false), IsAvailability(false), IsTypeTagForDatatype(false), IsProperty(true), NextInPosition(0), NextInPool(0) { new (&getPropertyDataBuffer()) PropertyData(getterId, setterId); AttrKind = getKind(getName(), getScopeName(), syntaxUsed); } friend class AttributePool; friend class AttributeFactory; public: enum Kind { #define PARSED_ATTR(NAME) AT_##NAME, #include "clang/Sema/AttrParsedAttrList.inc" #undef PARSED_ATTR IgnoredAttribute, UnknownAttribute }; IdentifierInfo *getName() const { return AttrName; } SourceLocation getLoc() const { return AttrRange.getBegin(); } SourceRange getRange() const { return AttrRange; } bool hasScope() const { return ScopeName; } IdentifierInfo *getScopeName() const { return ScopeName; } SourceLocation getScopeLoc() const { return ScopeLoc; } IdentifierInfo *getParameterName() const { return ParmName; } SourceLocation getParameterLoc() const { return ParmLoc; } /// Is this the Microsoft __declspec(property) attribute? bool isDeclspecPropertyAttribute() const { return IsProperty; } bool isAlignasAttribute() const { // FIXME: Use a better mechanism to determine this. return getKind() == AT_Aligned && SyntaxUsed == AS_Keyword; } bool isDeclspecAttribute() const { return SyntaxUsed == AS_Declspec; } bool isCXX11Attribute() const { return SyntaxUsed == AS_CXX11 || isAlignasAttribute(); } bool isKeywordAttribute() const { return SyntaxUsed == AS_Keyword; } bool isInvalid() const { return Invalid; } void setInvalid(bool b = true) const { Invalid = b; } bool isUsedAsTypeAttr() const { return UsedAsTypeAttr; } void setUsedAsTypeAttr() { UsedAsTypeAttr = true; } bool isPackExpansion() const { return EllipsisLoc.isValid(); } SourceLocation getEllipsisLoc() const { return EllipsisLoc; } Kind getKind() const { return Kind(AttrKind); } static Kind getKind(const IdentifierInfo *Name, const IdentifierInfo *Scope, Syntax SyntaxUsed); AttributeList *getNext() const { return NextInPosition; } void setNext(AttributeList *N) { NextInPosition = N; } /// getNumArgs - Return the number of actual arguments to this attribute. unsigned getNumArgs() const { return NumArgs; } /// hasParameterOrArguments - Return true if this attribute has a parameter, /// or has a non empty argument expression list. bool hasParameterOrArguments() const { return ParmName || NumArgs; } /// getArg - Return the specified argument. Expr *getArg(unsigned Arg) const { assert(Arg < NumArgs && "Arg access out of range!"); return getArgsBuffer()[Arg]; } class arg_iterator { Expr * const *X; unsigned Idx; public: arg_iterator(Expr * const *x, unsigned idx) : X(x), Idx(idx) {} arg_iterator& operator++() { ++Idx; return *this; } bool operator==(const arg_iterator& I) const { assert (X == I.X && "compared arg_iterators are for different argument lists"); return Idx == I.Idx; } bool operator!=(const arg_iterator& I) const { return !operator==(I); } Expr* operator*() const { return X[Idx]; } unsigned getArgNum() const { return Idx+1; } }; arg_iterator arg_begin() const { return arg_iterator(getArgsBuffer(), 0); } arg_iterator arg_end() const { return arg_iterator(getArgsBuffer(), NumArgs); } const AvailabilityChange &getAvailabilityIntroduced() const { assert(getKind() == AT_Availability && "Not an availability attribute"); return getAvailabilitySlot(IntroducedSlot); } const AvailabilityChange &getAvailabilityDeprecated() const { assert(getKind() == AT_Availability && "Not an availability attribute"); return getAvailabilitySlot(DeprecatedSlot); } const AvailabilityChange &getAvailabilityObsoleted() const { assert(getKind() == AT_Availability && "Not an availability attribute"); return getAvailabilitySlot(ObsoletedSlot); } SourceLocation getUnavailableLoc() const { assert(getKind() == AT_Availability && "Not an availability attribute"); return UnavailableLoc; } const Expr * getMessageExpr() const { assert(getKind() == AT_Availability && "Not an availability attribute"); return MessageExpr; } const ParsedType &getMatchingCType() const { assert(getKind() == AT_TypeTagForDatatype && "Not a type_tag_for_datatype attribute"); return *getTypeTagForDatatypeDataSlot().MatchingCType; } bool getLayoutCompatible() const { assert(getKind() == AT_TypeTagForDatatype && "Not a type_tag_for_datatype attribute"); return getTypeTagForDatatypeDataSlot().LayoutCompatible; } bool getMustBeNull() const { assert(getKind() == AT_TypeTagForDatatype && "Not a type_tag_for_datatype attribute"); return getTypeTagForDatatypeDataSlot().MustBeNull; } const ParsedType &getTypeArg() const { assert(getKind() == AT_VecTypeHint && "Not a type attribute"); return getTypeBuffer(); } const PropertyData &getPropertyData() const { assert(isDeclspecPropertyAttribute() && "Not a __delcspec(property) attribute"); return getPropertyDataBuffer(); } /// \brief Get an index into the attribute spelling list /// defined in Attr.td. This index is used by an attribute /// to pretty print itself. unsigned getAttributeSpellingListIndex() const; }; /// A factory, from which one makes pools, from which one creates /// individual attributes which are deallocated with the pool. /// /// Note that it's tolerably cheap to create and destroy one of /// these as long as you don't actually allocate anything in it. class AttributeFactory { public: enum { /// The required allocation size of an availability attribute, /// which we want to ensure is a multiple of sizeof(void*). AvailabilityAllocSize = sizeof(AttributeList) + ((3 * sizeof(AvailabilityChange) + sizeof(void*) - 1) / sizeof(void*) * sizeof(void*)), TypeTagForDatatypeAllocSize = sizeof(AttributeList) + (sizeof(AttributeList::TypeTagForDatatypeData) + sizeof(void *) - 1) / sizeof(void*) * sizeof(void*), PropertyAllocSize = sizeof(AttributeList) + (sizeof(AttributeList::PropertyData) + sizeof(void *) - 1) / sizeof(void*) * sizeof(void*) }; private: enum { /// The number of free lists we want to be sure to support /// inline. This is just enough that availability attributes /// don't surpass it. It's actually very unlikely we'll see an /// attribute that needs more than that; on x86-64 you'd need 10 /// expression arguments, and on i386 you'd need 19. InlineFreeListsCapacity = 1 + (AvailabilityAllocSize - sizeof(AttributeList)) / sizeof(void*) }; llvm::BumpPtrAllocator Alloc; /// Free lists. The index is determined by the following formula: /// (size - sizeof(AttributeList)) / sizeof(void*) SmallVector FreeLists; // The following are the private interface used by AttributePool. friend class AttributePool; /// Allocate an attribute of the given size. void *allocate(size_t size); /// Reclaim all the attributes in the given pool chain, which is /// non-empty. Note that the current implementation is safe /// against reclaiming things which were not actually allocated /// with the allocator, although of course it's important to make /// sure that their allocator lives at least as long as this one. void reclaimPool(AttributeList *head); public: AttributeFactory(); ~AttributeFactory(); }; class AttributePool { AttributeFactory &Factory; AttributeList *Head; void *allocate(size_t size) { return Factory.allocate(size); } AttributeList *add(AttributeList *attr) { // We don't care about the order of the pool. attr->NextInPool = Head; Head = attr; return attr; } void takePool(AttributeList *pool); public: /// Create a new pool for a factory. AttributePool(AttributeFactory &factory) : Factory(factory), Head(0) {} /// Move the given pool's allocations to this pool. AttributePool(AttributePool &pool) : Factory(pool.Factory), Head(pool.Head) { pool.Head = 0; } AttributeFactory &getFactory() const { return Factory; } void clear() { if (Head) { Factory.reclaimPool(Head); Head = 0; } } /// Take the given pool's allocations and add them to this pool. void takeAllFrom(AttributePool &pool) { if (pool.Head) { takePool(pool.Head); pool.Head = 0; } } ~AttributePool() { if (Head) Factory.reclaimPool(Head); } AttributeList *create(IdentifierInfo *attrName, SourceRange attrRange, IdentifierInfo *scopeName, SourceLocation scopeLoc, IdentifierInfo *parmName, SourceLocation parmLoc, Expr **args, unsigned numArgs, AttributeList::Syntax syntax, SourceLocation ellipsisLoc = SourceLocation()) { void *memory = allocate(sizeof(AttributeList) + numArgs * sizeof(Expr*)); return add(new (memory) AttributeList(attrName, attrRange, scopeName, scopeLoc, parmName, parmLoc, args, numArgs, syntax, ellipsisLoc)); } AttributeList *create(IdentifierInfo *attrName, SourceRange attrRange, IdentifierInfo *scopeName, SourceLocation scopeLoc, IdentifierInfo *parmName, SourceLocation parmLoc, const AvailabilityChange &introduced, const AvailabilityChange &deprecated, const AvailabilityChange &obsoleted, SourceLocation unavailable, const Expr *MessageExpr, AttributeList::Syntax syntax) { void *memory = allocate(AttributeFactory::AvailabilityAllocSize); return add(new (memory) AttributeList(attrName, attrRange, scopeName, scopeLoc, parmName, parmLoc, introduced, deprecated, obsoleted, unavailable, MessageExpr, syntax)); } AttributeList *createIntegerAttribute(ASTContext &C, IdentifierInfo *Name, SourceLocation TokLoc, int Arg); AttributeList *createTypeTagForDatatype( IdentifierInfo *attrName, SourceRange attrRange, IdentifierInfo *scopeName, SourceLocation scopeLoc, IdentifierInfo *argumentKindName, SourceLocation argumentKindLoc, ParsedType matchingCType, bool layoutCompatible, bool mustBeNull, AttributeList::Syntax syntax) { void *memory = allocate(AttributeFactory::TypeTagForDatatypeAllocSize); return add(new (memory) AttributeList(attrName, attrRange, scopeName, scopeLoc, argumentKindName, argumentKindLoc, matchingCType, layoutCompatible, mustBeNull, syntax)); } AttributeList *createTypeAttribute( IdentifierInfo *attrName, SourceRange attrRange, IdentifierInfo *scopeName, SourceLocation scopeLoc, IdentifierInfo *parmName, SourceLocation parmLoc, ParsedType typeArg, AttributeList::Syntax syntaxUsed) { void *memory = allocate(sizeof(AttributeList) + sizeof(void *)); return add(new (memory) AttributeList(attrName, attrRange, scopeName, scopeLoc, parmName, parmLoc, typeArg, syntaxUsed)); } AttributeList *createPropertyAttribute( IdentifierInfo *attrName, SourceRange attrRange, IdentifierInfo *scopeName, SourceLocation scopeLoc, IdentifierInfo *parmName, SourceLocation parmLoc, IdentifierInfo *getterId, IdentifierInfo *setterId, AttributeList::Syntax syntaxUsed) { void *memory = allocate(AttributeFactory::PropertyAllocSize); return add(new (memory) AttributeList(attrName, attrRange, scopeName, scopeLoc, parmName, parmLoc, getterId, setterId, syntaxUsed)); } }; /// addAttributeLists - Add two AttributeLists together /// The right-hand list is appended to the left-hand list, if any /// A pointer to the joined list is returned. /// Note: the lists are not left unmodified. inline AttributeList *addAttributeLists(AttributeList *Left, AttributeList *Right) { if (!Left) return Right; AttributeList *next = Left, *prev; do { prev = next; next = next->getNext(); } while (next); prev->setNext(Right); return Left; } /// CXX11AttributeList - A wrapper around a C++11 attribute list. /// Stores, in addition to the list proper, whether or not an actual list was /// (as opposed to an empty list, which may be ill-formed in some places) and /// the source range of the list. struct CXX11AttributeList { AttributeList *AttrList; SourceRange Range; bool HasAttr; CXX11AttributeList (AttributeList *attrList, SourceRange range, bool hasAttr) : AttrList(attrList), Range(range), HasAttr (hasAttr) { } CXX11AttributeList () : AttrList(0), Range(), HasAttr(false) { } }; /// ParsedAttributes - A collection of parsed attributes. Currently /// we don't differentiate between the various attribute syntaxes, /// which is basically silly. /// /// Right now this is a very lightweight container, but the expectation /// is that this will become significantly more serious. class ParsedAttributes { public: ParsedAttributes(AttributeFactory &factory) : pool(factory), list(0) { } ParsedAttributes(ParsedAttributes &attrs) : pool(attrs.pool), list(attrs.list) { attrs.list = 0; } AttributePool &getPool() const { return pool; } bool empty() const { return list == 0; } void add(AttributeList *newAttr) { assert(newAttr); assert(newAttr->getNext() == 0); newAttr->setNext(list); list = newAttr; } void addAll(AttributeList *newList) { if (!newList) return; AttributeList *lastInNewList = newList; while (AttributeList *next = lastInNewList->getNext()) lastInNewList = next; lastInNewList->setNext(list); list = newList; } void set(AttributeList *newList) { list = newList; } void takeAllFrom(ParsedAttributes &attrs) { addAll(attrs.list); attrs.list = 0; pool.takeAllFrom(attrs.pool); } void clear() { list = 0; pool.clear(); } AttributeList *getList() const { return list; } /// Returns a reference to the attribute list. Try not to introduce /// dependencies on this method, it may not be long-lived. AttributeList *&getListRef() { return list; } /// Add attribute with expression arguments. AttributeList *addNew(IdentifierInfo *attrName, SourceRange attrRange, IdentifierInfo *scopeName, SourceLocation scopeLoc, IdentifierInfo *parmName, SourceLocation parmLoc, Expr **args, unsigned numArgs, AttributeList::Syntax syntax, SourceLocation ellipsisLoc = SourceLocation()) { AttributeList *attr = pool.create(attrName, attrRange, scopeName, scopeLoc, parmName, parmLoc, args, numArgs, syntax, ellipsisLoc); add(attr); return attr; } /// Add availability attribute. AttributeList *addNew(IdentifierInfo *attrName, SourceRange attrRange, IdentifierInfo *scopeName, SourceLocation scopeLoc, IdentifierInfo *parmName, SourceLocation parmLoc, const AvailabilityChange &introduced, const AvailabilityChange &deprecated, const AvailabilityChange &obsoleted, SourceLocation unavailable, const Expr *MessageExpr, AttributeList::Syntax syntax) { AttributeList *attr = pool.create(attrName, attrRange, scopeName, scopeLoc, parmName, parmLoc, introduced, deprecated, obsoleted, unavailable, MessageExpr, syntax); add(attr); return attr; } /// Add type_tag_for_datatype attribute. AttributeList *addNewTypeTagForDatatype( IdentifierInfo *attrName, SourceRange attrRange, IdentifierInfo *scopeName, SourceLocation scopeLoc, IdentifierInfo *argumentKindName, SourceLocation argumentKindLoc, ParsedType matchingCType, bool layoutCompatible, bool mustBeNull, AttributeList::Syntax syntax) { AttributeList *attr = pool.createTypeTagForDatatype(attrName, attrRange, scopeName, scopeLoc, argumentKindName, argumentKindLoc, matchingCType, layoutCompatible, mustBeNull, syntax); add(attr); return attr; } /// Add an attribute with a single type argument. AttributeList * addNewTypeAttr(IdentifierInfo *attrName, SourceRange attrRange, IdentifierInfo *scopeName, SourceLocation scopeLoc, IdentifierInfo *parmName, SourceLocation parmLoc, ParsedType typeArg, AttributeList::Syntax syntaxUsed) { AttributeList *attr = pool.createTypeAttribute(attrName, attrRange, scopeName, scopeLoc, parmName, parmLoc, typeArg, syntaxUsed); add(attr); return attr; } /// Add microsoft __delspec(property) attribute. AttributeList * addNewPropertyAttr(IdentifierInfo *attrName, SourceRange attrRange, IdentifierInfo *scopeName, SourceLocation scopeLoc, IdentifierInfo *parmName, SourceLocation parmLoc, IdentifierInfo *getterId, IdentifierInfo *setterId, AttributeList::Syntax syntaxUsed) { AttributeList *attr = pool.createPropertyAttribute(attrName, attrRange, scopeName, scopeLoc, parmName, parmLoc, getterId, setterId, syntaxUsed); add(attr); return attr; } AttributeList *addNewInteger(ASTContext &C, IdentifierInfo *name, SourceLocation loc, int arg) { AttributeList *attr = pool.createIntegerAttribute(C, name, loc, arg); add(attr); return attr; } private: mutable AttributePool pool; AttributeList *list; }; } // end namespace clang #endif