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      1 //===--- DeclObjC.h - Classes for representing declarations -----*- C++ -*-===//
      2 //
      3 //                     The LLVM Compiler Infrastructure
      4 //
      5 // This file is distributed under the University of Illinois Open Source
      6 // License. See LICENSE.TXT for details.
      7 //
      8 //===----------------------------------------------------------------------===//
      9 //
     10 //  This file defines the DeclObjC interface and subclasses.
     11 //
     12 //===----------------------------------------------------------------------===//
     13 
     14 #ifndef LLVM_CLANG_AST_DECLOBJC_H
     15 #define LLVM_CLANG_AST_DECLOBJC_H
     16 
     17 #include "clang/AST/Decl.h"
     18 #include "clang/AST/SelectorLocationsKind.h"
     19 #include "llvm/ADT/STLExtras.h"
     20 #include "llvm/Support/Compiler.h"
     21 
     22 namespace clang {
     23 class Expr;
     24 class Stmt;
     25 class FunctionDecl;
     26 class RecordDecl;
     27 class ObjCIvarDecl;
     28 class ObjCMethodDecl;
     29 class ObjCProtocolDecl;
     30 class ObjCCategoryDecl;
     31 class ObjCPropertyDecl;
     32 class ObjCPropertyImplDecl;
     33 class CXXCtorInitializer;
     34 
     35 class ObjCListBase {
     36   ObjCListBase(const ObjCListBase &) LLVM_DELETED_FUNCTION;
     37   void operator=(const ObjCListBase &) LLVM_DELETED_FUNCTION;
     38 protected:
     39   /// List is an array of pointers to objects that are not owned by this object.
     40   void **List;
     41   unsigned NumElts;
     42 
     43 public:
     44   ObjCListBase() : List(0), NumElts(0) {}
     45   unsigned size() const { return NumElts; }
     46   bool empty() const { return NumElts == 0; }
     47 
     48 protected:
     49   void set(void *const* InList, unsigned Elts, ASTContext &Ctx);
     50 };
     51 
     52 
     53 /// ObjCList - This is a simple template class used to hold various lists of
     54 /// decls etc, which is heavily used by the ObjC front-end.  This only use case
     55 /// this supports is setting the list all at once and then reading elements out
     56 /// of it.
     57 template <typename T>
     58 class ObjCList : public ObjCListBase {
     59 public:
     60   void set(T* const* InList, unsigned Elts, ASTContext &Ctx) {
     61     ObjCListBase::set(reinterpret_cast<void*const*>(InList), Elts, Ctx);
     62   }
     63 
     64   typedef T* const * iterator;
     65   iterator begin() const { return (iterator)List; }
     66   iterator end() const { return (iterator)List+NumElts; }
     67 
     68   T* operator[](unsigned Idx) const {
     69     assert(Idx < NumElts && "Invalid access");
     70     return (T*)List[Idx];
     71   }
     72 };
     73 
     74 /// \brief A list of Objective-C protocols, along with the source
     75 /// locations at which they were referenced.
     76 class ObjCProtocolList : public ObjCList<ObjCProtocolDecl> {
     77   SourceLocation *Locations;
     78 
     79   using ObjCList<ObjCProtocolDecl>::set;
     80 
     81 public:
     82   ObjCProtocolList() : ObjCList<ObjCProtocolDecl>(), Locations(0) { }
     83 
     84   typedef const SourceLocation *loc_iterator;
     85   loc_iterator loc_begin() const { return Locations; }
     86   loc_iterator loc_end() const { return Locations + size(); }
     87 
     88   void set(ObjCProtocolDecl* const* InList, unsigned Elts,
     89            const SourceLocation *Locs, ASTContext &Ctx);
     90 };
     91 
     92 
     93 /// ObjCMethodDecl - Represents an instance or class method declaration.
     94 /// ObjC methods can be declared within 4 contexts: class interfaces,
     95 /// categories, protocols, and class implementations. While C++ member
     96 /// functions leverage C syntax, Objective-C method syntax is modeled after
     97 /// Smalltalk (using colons to specify argument types/expressions).
     98 /// Here are some brief examples:
     99 ///
    100 /// Setter/getter instance methods:
    101 /// - (void)setMenu:(NSMenu *)menu;
    102 /// - (NSMenu *)menu;
    103 ///
    104 /// Instance method that takes 2 NSView arguments:
    105 /// - (void)replaceSubview:(NSView *)oldView with:(NSView *)newView;
    106 ///
    107 /// Getter class method:
    108 /// + (NSMenu *)defaultMenu;
    109 ///
    110 /// A selector represents a unique name for a method. The selector names for
    111 /// the above methods are setMenu:, menu, replaceSubview:with:, and defaultMenu.
    112 ///
    113 class ObjCMethodDecl : public NamedDecl, public DeclContext {
    114 public:
    115   enum ImplementationControl { None, Required, Optional };
    116 private:
    117   // The conventional meaning of this method; an ObjCMethodFamily.
    118   // This is not serialized; instead, it is computed on demand and
    119   // cached.
    120   mutable unsigned Family : ObjCMethodFamilyBitWidth;
    121 
    122   /// instance (true) or class (false) method.
    123   unsigned IsInstance : 1;
    124   unsigned IsVariadic : 1;
    125 
    126   /// True if this method is the getter or setter for an explicit property.
    127   unsigned IsPropertyAccessor : 1;
    128 
    129   // Method has a definition.
    130   unsigned IsDefined : 1;
    131 
    132   /// \brief Method redeclaration in the same interface.
    133   unsigned IsRedeclaration : 1;
    134 
    135   /// \brief Is redeclared in the same interface.
    136   mutable unsigned HasRedeclaration : 1;
    137 
    138   // NOTE: VC++ treats enums as signed, avoid using ImplementationControl enum
    139   /// \@required/\@optional
    140   unsigned DeclImplementation : 2;
    141 
    142   // NOTE: VC++ treats enums as signed, avoid using the ObjCDeclQualifier enum
    143   /// in, inout, etc.
    144   unsigned objcDeclQualifier : 6;
    145 
    146   /// \brief Indicates whether this method has a related result type.
    147   unsigned RelatedResultType : 1;
    148 
    149   /// \brief Whether the locations of the selector identifiers are in a
    150   /// "standard" position, a enum SelectorLocationsKind.
    151   unsigned SelLocsKind : 2;
    152 
    153   /// \brief Whether this method overrides any other in the class hierarchy.
    154   ///
    155   /// A method is said to override any method in the class's
    156   /// base classes, its protocols, or its categories' protocols, that has
    157   /// the same selector and is of the same kind (class or instance).
    158   /// A method in an implementation is not considered as overriding the same
    159   /// method in the interface or its categories.
    160   unsigned IsOverriding : 1;
    161 
    162   /// \brief Indicates if the method was a definition but its body was skipped.
    163   unsigned HasSkippedBody : 1;
    164 
    165   // Result type of this method.
    166   QualType MethodDeclType;
    167 
    168   // Type source information for the result type.
    169   TypeSourceInfo *ResultTInfo;
    170 
    171   /// \brief Array of ParmVarDecls for the formal parameters of this method
    172   /// and optionally followed by selector locations.
    173   void *ParamsAndSelLocs;
    174   unsigned NumParams;
    175 
    176   /// List of attributes for this method declaration.
    177   SourceLocation DeclEndLoc; // the location of the ';' or '{'.
    178 
    179   // The following are only used for method definitions, null otherwise.
    180   LazyDeclStmtPtr Body;
    181 
    182   /// SelfDecl - Decl for the implicit self parameter. This is lazily
    183   /// constructed by createImplicitParams.
    184   ImplicitParamDecl *SelfDecl;
    185   /// CmdDecl - Decl for the implicit _cmd parameter. This is lazily
    186   /// constructed by createImplicitParams.
    187   ImplicitParamDecl *CmdDecl;
    188 
    189   SelectorLocationsKind getSelLocsKind() const {
    190     return (SelectorLocationsKind)SelLocsKind;
    191   }
    192   bool hasStandardSelLocs() const {
    193     return getSelLocsKind() != SelLoc_NonStandard;
    194   }
    195 
    196   /// \brief Get a pointer to the stored selector identifiers locations array.
    197   /// No locations will be stored if HasStandardSelLocs is true.
    198   SourceLocation *getStoredSelLocs() {
    199     return reinterpret_cast<SourceLocation*>(getParams() + NumParams);
    200   }
    201   const SourceLocation *getStoredSelLocs() const {
    202     return reinterpret_cast<const SourceLocation*>(getParams() + NumParams);
    203   }
    204 
    205   /// \brief Get a pointer to the stored selector identifiers locations array.
    206   /// No locations will be stored if HasStandardSelLocs is true.
    207   ParmVarDecl **getParams() {
    208     return reinterpret_cast<ParmVarDecl **>(ParamsAndSelLocs);
    209   }
    210   const ParmVarDecl *const *getParams() const {
    211     return reinterpret_cast<const ParmVarDecl *const *>(ParamsAndSelLocs);
    212   }
    213 
    214   /// \brief Get the number of stored selector identifiers locations.
    215   /// No locations will be stored if HasStandardSelLocs is true.
    216   unsigned getNumStoredSelLocs() const {
    217     if (hasStandardSelLocs())
    218       return 0;
    219     return getNumSelectorLocs();
    220   }
    221 
    222   void setParamsAndSelLocs(ASTContext &C,
    223                            ArrayRef<ParmVarDecl*> Params,
    224                            ArrayRef<SourceLocation> SelLocs);
    225 
    226   ObjCMethodDecl(SourceLocation beginLoc, SourceLocation endLoc,
    227                  Selector SelInfo, QualType T,
    228                  TypeSourceInfo *ResultTInfo,
    229                  DeclContext *contextDecl,
    230                  bool isInstance = true,
    231                  bool isVariadic = false,
    232                  bool isPropertyAccessor = false,
    233                  bool isImplicitlyDeclared = false,
    234                  bool isDefined = false,
    235                  ImplementationControl impControl = None,
    236                  bool HasRelatedResultType = false)
    237   : NamedDecl(ObjCMethod, contextDecl, beginLoc, SelInfo),
    238     DeclContext(ObjCMethod), Family(InvalidObjCMethodFamily),
    239     IsInstance(isInstance), IsVariadic(isVariadic),
    240     IsPropertyAccessor(isPropertyAccessor),
    241     IsDefined(isDefined), IsRedeclaration(0), HasRedeclaration(0),
    242     DeclImplementation(impControl), objcDeclQualifier(OBJC_TQ_None),
    243     RelatedResultType(HasRelatedResultType),
    244     SelLocsKind(SelLoc_StandardNoSpace), IsOverriding(0), HasSkippedBody(0),
    245     MethodDeclType(T), ResultTInfo(ResultTInfo),
    246     ParamsAndSelLocs(0), NumParams(0),
    247     DeclEndLoc(endLoc), Body(), SelfDecl(0), CmdDecl(0) {
    248     setImplicit(isImplicitlyDeclared);
    249   }
    250 
    251   /// \brief A definition will return its interface declaration.
    252   /// An interface declaration will return its definition.
    253   /// Otherwise it will return itself.
    254   virtual ObjCMethodDecl *getNextRedeclaration();
    255 
    256 public:
    257   static ObjCMethodDecl *Create(ASTContext &C,
    258                                 SourceLocation beginLoc,
    259                                 SourceLocation endLoc,
    260                                 Selector SelInfo,
    261                                 QualType T,
    262                                 TypeSourceInfo *ResultTInfo,
    263                                 DeclContext *contextDecl,
    264                                 bool isInstance = true,
    265                                 bool isVariadic = false,
    266                                 bool isPropertyAccessor = false,
    267                                 bool isImplicitlyDeclared = false,
    268                                 bool isDefined = false,
    269                                 ImplementationControl impControl = None,
    270                                 bool HasRelatedResultType = false);
    271 
    272   static ObjCMethodDecl *CreateDeserialized(ASTContext &C, unsigned ID);
    273 
    274   virtual ObjCMethodDecl *getCanonicalDecl();
    275   const ObjCMethodDecl *getCanonicalDecl() const {
    276     return const_cast<ObjCMethodDecl*>(this)->getCanonicalDecl();
    277   }
    278 
    279   ObjCDeclQualifier getObjCDeclQualifier() const {
    280     return ObjCDeclQualifier(objcDeclQualifier);
    281   }
    282   void setObjCDeclQualifier(ObjCDeclQualifier QV) { objcDeclQualifier = QV; }
    283 
    284   /// \brief Determine whether this method has a result type that is related
    285   /// to the message receiver's type.
    286   bool hasRelatedResultType() const { return RelatedResultType; }
    287 
    288   /// \brief Note whether this method has a related result type.
    289   void SetRelatedResultType(bool RRT = true) { RelatedResultType = RRT; }
    290 
    291   /// \brief True if this is a method redeclaration in the same interface.
    292   bool isRedeclaration() const { return IsRedeclaration; }
    293   void setAsRedeclaration(const ObjCMethodDecl *PrevMethod);
    294 
    295   /// \brief Returns the location where the declarator ends. It will be
    296   /// the location of ';' for a method declaration and the location of '{'
    297   /// for a method definition.
    298   SourceLocation getDeclaratorEndLoc() const { return DeclEndLoc; }
    299 
    300   // Location information, modeled after the Stmt API.
    301   SourceLocation getLocStart() const LLVM_READONLY { return getLocation(); }
    302   SourceLocation getLocEnd() const LLVM_READONLY;
    303   virtual SourceRange getSourceRange() const LLVM_READONLY {
    304     return SourceRange(getLocation(), getLocEnd());
    305   }
    306 
    307   SourceLocation getSelectorStartLoc() const {
    308     if (isImplicit())
    309       return getLocStart();
    310     return getSelectorLoc(0);
    311   }
    312   SourceLocation getSelectorLoc(unsigned Index) const {
    313     assert(Index < getNumSelectorLocs() && "Index out of range!");
    314     if (hasStandardSelLocs())
    315       return getStandardSelectorLoc(Index, getSelector(),
    316                                    getSelLocsKind() == SelLoc_StandardWithSpace,
    317                       llvm::makeArrayRef(const_cast<ParmVarDecl**>(getParams()),
    318                                          NumParams),
    319                                    DeclEndLoc);
    320     return getStoredSelLocs()[Index];
    321   }
    322 
    323   void getSelectorLocs(SmallVectorImpl<SourceLocation> &SelLocs) const;
    324 
    325   unsigned getNumSelectorLocs() const {
    326     if (isImplicit())
    327       return 0;
    328     Selector Sel = getSelector();
    329     if (Sel.isUnarySelector())
    330       return 1;
    331     return Sel.getNumArgs();
    332   }
    333 
    334   ObjCInterfaceDecl *getClassInterface();
    335   const ObjCInterfaceDecl *getClassInterface() const {
    336     return const_cast<ObjCMethodDecl*>(this)->getClassInterface();
    337   }
    338 
    339   Selector getSelector() const { return getDeclName().getObjCSelector(); }
    340 
    341   QualType getResultType() const { return MethodDeclType; }
    342   void setResultType(QualType T) { MethodDeclType = T; }
    343 
    344   /// \brief Determine the type of an expression that sends a message to this
    345   /// function.
    346   QualType getSendResultType() const {
    347     return getResultType().getNonLValueExprType(getASTContext());
    348   }
    349 
    350   TypeSourceInfo *getResultTypeSourceInfo() const { return ResultTInfo; }
    351   void setResultTypeSourceInfo(TypeSourceInfo *TInfo) { ResultTInfo = TInfo; }
    352 
    353   // Iterator access to formal parameters.
    354   unsigned param_size() const { return NumParams; }
    355   typedef const ParmVarDecl *const *param_const_iterator;
    356   typedef ParmVarDecl *const *param_iterator;
    357   param_const_iterator param_begin() const { return getParams(); }
    358   param_const_iterator param_end() const { return getParams() + NumParams; }
    359   param_iterator param_begin() { return getParams(); }
    360   param_iterator param_end() { return getParams() + NumParams; }
    361   // This method returns and of the parameters which are part of the selector
    362   // name mangling requirements.
    363   param_const_iterator sel_param_end() const {
    364     return param_begin() + getSelector().getNumArgs();
    365   }
    366 
    367   /// \brief Sets the method's parameters and selector source locations.
    368   /// If the method is implicit (not coming from source) \p SelLocs is
    369   /// ignored.
    370   void setMethodParams(ASTContext &C,
    371                        ArrayRef<ParmVarDecl*> Params,
    372                        ArrayRef<SourceLocation> SelLocs =
    373                            ArrayRef<SourceLocation>());
    374 
    375   // Iterator access to parameter types.
    376   typedef std::const_mem_fun_t<QualType, ParmVarDecl> deref_fun;
    377   typedef llvm::mapped_iterator<param_const_iterator, deref_fun>
    378       arg_type_iterator;
    379 
    380   arg_type_iterator arg_type_begin() const {
    381     return llvm::map_iterator(param_begin(), deref_fun(&ParmVarDecl::getType));
    382   }
    383   arg_type_iterator arg_type_end() const {
    384     return llvm::map_iterator(param_end(), deref_fun(&ParmVarDecl::getType));
    385   }
    386 
    387   /// createImplicitParams - Used to lazily create the self and cmd
    388   /// implict parameters. This must be called prior to using getSelfDecl()
    389   /// or getCmdDecl(). The call is ignored if the implicit paramters
    390   /// have already been created.
    391   void createImplicitParams(ASTContext &Context, const ObjCInterfaceDecl *ID);
    392 
    393   ImplicitParamDecl * getSelfDecl() const { return SelfDecl; }
    394   void setSelfDecl(ImplicitParamDecl *SD) { SelfDecl = SD; }
    395   ImplicitParamDecl * getCmdDecl() const { return CmdDecl; }
    396   void setCmdDecl(ImplicitParamDecl *CD) { CmdDecl = CD; }
    397 
    398   /// Determines the family of this method.
    399   ObjCMethodFamily getMethodFamily() const;
    400 
    401   bool isInstanceMethod() const { return IsInstance; }
    402   void setInstanceMethod(bool isInst) { IsInstance = isInst; }
    403   bool isVariadic() const { return IsVariadic; }
    404   void setVariadic(bool isVar) { IsVariadic = isVar; }
    405 
    406   bool isClassMethod() const { return !IsInstance; }
    407 
    408   bool isPropertyAccessor() const { return IsPropertyAccessor; }
    409   void setPropertyAccessor(bool isAccessor) { IsPropertyAccessor = isAccessor; }
    410 
    411   bool isDefined() const { return IsDefined; }
    412   void setDefined(bool isDefined) { IsDefined = isDefined; }
    413 
    414   /// \brief Whether this method overrides any other in the class hierarchy.
    415   ///
    416   /// A method is said to override any method in the class's
    417   /// base classes, its protocols, or its categories' protocols, that has
    418   /// the same selector and is of the same kind (class or instance).
    419   /// A method in an implementation is not considered as overriding the same
    420   /// method in the interface or its categories.
    421   bool isOverriding() const { return IsOverriding; }
    422   void setOverriding(bool isOverriding) { IsOverriding = isOverriding; }
    423 
    424   /// \brief Return overridden methods for the given \p Method.
    425   ///
    426   /// An ObjC method is considered to override any method in the class's
    427   /// base classes (and base's categories), its protocols, or its categories'
    428   /// protocols, that has
    429   /// the same selector and is of the same kind (class or instance).
    430   /// A method in an implementation is not considered as overriding the same
    431   /// method in the interface or its categories.
    432   void getOverriddenMethods(
    433                      SmallVectorImpl<const ObjCMethodDecl *> &Overridden) const;
    434 
    435   /// \brief True if the method was a definition but its body was skipped.
    436   bool hasSkippedBody() const { return HasSkippedBody; }
    437   void setHasSkippedBody(bool Skipped = true) { HasSkippedBody = Skipped; }
    438 
    439   /// \brief Returns the property associated with this method's selector.
    440   ///
    441   /// Note that even if this particular method is not marked as a property
    442   /// accessor, it is still possible for it to match a property declared in a
    443   /// superclass. Pass \c false if you only want to check the current class.
    444   const ObjCPropertyDecl *findPropertyDecl(bool CheckOverrides = true) const;
    445 
    446   // Related to protocols declared in  \@protocol
    447   void setDeclImplementation(ImplementationControl ic) {
    448     DeclImplementation = ic;
    449   }
    450   ImplementationControl getImplementationControl() const {
    451     return ImplementationControl(DeclImplementation);
    452   }
    453 
    454   /// \brief Determine whether this method has a body.
    455   virtual bool hasBody() const { return Body.isValid(); }
    456 
    457   /// \brief Retrieve the body of this method, if it has one.
    458   virtual Stmt *getBody() const;
    459 
    460   void setLazyBody(uint64_t Offset) { Body = Offset; }
    461 
    462   CompoundStmt *getCompoundBody() { return (CompoundStmt*)getBody(); }
    463   void setBody(Stmt *B) { Body = B; }
    464 
    465   /// \brief Returns whether this specific method is a definition.
    466   bool isThisDeclarationADefinition() const { return hasBody(); }
    467 
    468   // Implement isa/cast/dyncast/etc.
    469   static bool classof(const Decl *D) { return classofKind(D->getKind()); }
    470   static bool classofKind(Kind K) { return K == ObjCMethod; }
    471   static DeclContext *castToDeclContext(const ObjCMethodDecl *D) {
    472     return static_cast<DeclContext *>(const_cast<ObjCMethodDecl*>(D));
    473   }
    474   static ObjCMethodDecl *castFromDeclContext(const DeclContext *DC) {
    475     return static_cast<ObjCMethodDecl *>(const_cast<DeclContext*>(DC));
    476   }
    477 
    478   friend class ASTDeclReader;
    479   friend class ASTDeclWriter;
    480 };
    481 
    482 /// ObjCContainerDecl - Represents a container for method declarations.
    483 /// Current sub-classes are ObjCInterfaceDecl, ObjCCategoryDecl,
    484 /// ObjCProtocolDecl, and ObjCImplDecl.
    485 ///
    486 class ObjCContainerDecl : public NamedDecl, public DeclContext {
    487   virtual void anchor();
    488 
    489   SourceLocation AtStart;
    490 
    491   // These two locations in the range mark the end of the method container.
    492   // The first points to the '@' token, and the second to the 'end' token.
    493   SourceRange AtEnd;
    494 public:
    495 
    496   ObjCContainerDecl(Kind DK, DeclContext *DC,
    497                     IdentifierInfo *Id, SourceLocation nameLoc,
    498                     SourceLocation atStartLoc)
    499     : NamedDecl(DK, DC, nameLoc, Id), DeclContext(DK), AtStart(atStartLoc) {}
    500 
    501   // Iterator access to properties.
    502   typedef specific_decl_iterator<ObjCPropertyDecl> prop_iterator;
    503   prop_iterator prop_begin() const {
    504     return prop_iterator(decls_begin());
    505   }
    506   prop_iterator prop_end() const {
    507     return prop_iterator(decls_end());
    508   }
    509 
    510   // Iterator access to instance/class methods.
    511   typedef specific_decl_iterator<ObjCMethodDecl> method_iterator;
    512   method_iterator meth_begin() const {
    513     return method_iterator(decls_begin());
    514   }
    515   method_iterator meth_end() const {
    516     return method_iterator(decls_end());
    517   }
    518 
    519   typedef filtered_decl_iterator<ObjCMethodDecl,
    520                                  &ObjCMethodDecl::isInstanceMethod>
    521     instmeth_iterator;
    522   instmeth_iterator instmeth_begin() const {
    523     return instmeth_iterator(decls_begin());
    524   }
    525   instmeth_iterator instmeth_end() const {
    526     return instmeth_iterator(decls_end());
    527   }
    528 
    529   typedef filtered_decl_iterator<ObjCMethodDecl,
    530                                  &ObjCMethodDecl::isClassMethod>
    531     classmeth_iterator;
    532   classmeth_iterator classmeth_begin() const {
    533     return classmeth_iterator(decls_begin());
    534   }
    535   classmeth_iterator classmeth_end() const {
    536     return classmeth_iterator(decls_end());
    537   }
    538 
    539   // Get the local instance/class method declared in this interface.
    540   ObjCMethodDecl *getMethod(Selector Sel, bool isInstance,
    541                             bool AllowHidden = false) const;
    542   ObjCMethodDecl *getInstanceMethod(Selector Sel,
    543                                     bool AllowHidden = false) const {
    544     return getMethod(Sel, true/*isInstance*/, AllowHidden);
    545   }
    546   ObjCMethodDecl *getClassMethod(Selector Sel, bool AllowHidden = false) const {
    547     return getMethod(Sel, false/*isInstance*/, AllowHidden);
    548   }
    549   bool HasUserDeclaredSetterMethod(const ObjCPropertyDecl *P) const;
    550   ObjCIvarDecl *getIvarDecl(IdentifierInfo *Id) const;
    551 
    552   ObjCPropertyDecl *FindPropertyDeclaration(IdentifierInfo *PropertyId) const;
    553 
    554   typedef llvm::DenseMap<IdentifierInfo*, ObjCPropertyDecl*> PropertyMap;
    555 
    556   typedef llvm::DenseMap<const ObjCProtocolDecl *, ObjCPropertyDecl*>
    557             ProtocolPropertyMap;
    558 
    559   typedef llvm::SmallVector<ObjCPropertyDecl*, 8> PropertyDeclOrder;
    560 
    561   /// This routine collects list of properties to be implemented in the class.
    562   /// This includes, class's and its conforming protocols' properties.
    563   /// Note, the superclass's properties are not included in the list.
    564   virtual void collectPropertiesToImplement(PropertyMap &PM,
    565                                             PropertyDeclOrder &PO) const {}
    566 
    567   SourceLocation getAtStartLoc() const { return AtStart; }
    568   void setAtStartLoc(SourceLocation Loc) { AtStart = Loc; }
    569 
    570   // Marks the end of the container.
    571   SourceRange getAtEndRange() const {
    572     return AtEnd;
    573   }
    574   void setAtEndRange(SourceRange atEnd) {
    575     AtEnd = atEnd;
    576   }
    577 
    578   virtual SourceRange getSourceRange() const LLVM_READONLY {
    579     return SourceRange(AtStart, getAtEndRange().getEnd());
    580   }
    581 
    582   // Implement isa/cast/dyncast/etc.
    583   static bool classof(const Decl *D) { return classofKind(D->getKind()); }
    584   static bool classofKind(Kind K) {
    585     return K >= firstObjCContainer &&
    586            K <= lastObjCContainer;
    587   }
    588 
    589   static DeclContext *castToDeclContext(const ObjCContainerDecl *D) {
    590     return static_cast<DeclContext *>(const_cast<ObjCContainerDecl*>(D));
    591   }
    592   static ObjCContainerDecl *castFromDeclContext(const DeclContext *DC) {
    593     return static_cast<ObjCContainerDecl *>(const_cast<DeclContext*>(DC));
    594   }
    595 };
    596 
    597 /// \brief Represents an ObjC class declaration.
    598 ///
    599 /// For example:
    600 ///
    601 /// \code
    602 ///   // MostPrimitive declares no super class (not particularly useful).
    603 ///   \@interface MostPrimitive
    604 ///     // no instance variables or methods.
    605 ///   \@end
    606 ///
    607 ///   // NSResponder inherits from NSObject & implements NSCoding (a protocol).
    608 ///   \@interface NSResponder : NSObject \<NSCoding>
    609 ///   { // instance variables are represented by ObjCIvarDecl.
    610 ///     id nextResponder; // nextResponder instance variable.
    611 ///   }
    612 ///   - (NSResponder *)nextResponder; // return a pointer to NSResponder.
    613 ///   - (void)mouseMoved:(NSEvent *)theEvent; // return void, takes a pointer
    614 ///   \@end                                    // to an NSEvent.
    615 /// \endcode
    616 ///
    617 ///   Unlike C/C++, forward class declarations are accomplished with \@class.
    618 ///   Unlike C/C++, \@class allows for a list of classes to be forward declared.
    619 ///   Unlike C++, ObjC is a single-rooted class model. In Cocoa, classes
    620 ///   typically inherit from NSObject (an exception is NSProxy).
    621 ///
    622 class ObjCInterfaceDecl : public ObjCContainerDecl
    623                         , public Redeclarable<ObjCInterfaceDecl> {
    624   virtual void anchor();
    625 
    626   /// TypeForDecl - This indicates the Type object that represents this
    627   /// TypeDecl.  It is a cache maintained by ASTContext::getObjCInterfaceType
    628   mutable const Type *TypeForDecl;
    629   friend class ASTContext;
    630 
    631   struct DefinitionData {
    632     /// \brief The definition of this class, for quick access from any
    633     /// declaration.
    634     ObjCInterfaceDecl *Definition;
    635 
    636     /// Class's super class.
    637     ObjCInterfaceDecl *SuperClass;
    638 
    639     /// Protocols referenced in the \@interface  declaration
    640     ObjCProtocolList ReferencedProtocols;
    641 
    642     /// Protocols reference in both the \@interface and class extensions.
    643     ObjCList<ObjCProtocolDecl> AllReferencedProtocols;
    644 
    645     /// \brief List of categories and class extensions defined for this class.
    646     ///
    647     /// Categories are stored as a linked list in the AST, since the categories
    648     /// and class extensions come long after the initial interface declaration,
    649     /// and we avoid dynamically-resized arrays in the AST wherever possible.
    650     ObjCCategoryDecl *CategoryList;
    651 
    652     /// IvarList - List of all ivars defined by this class; including class
    653     /// extensions and implementation. This list is built lazily.
    654     ObjCIvarDecl *IvarList;
    655 
    656     /// \brief Indicates that the contents of this Objective-C class will be
    657     /// completed by the external AST source when required.
    658     mutable bool ExternallyCompleted : 1;
    659 
    660     /// \brief Indicates that the ivar cache does not yet include ivars
    661     /// declared in the implementation.
    662     mutable bool IvarListMissingImplementation : 1;
    663 
    664     /// \brief The location of the superclass, if any.
    665     SourceLocation SuperClassLoc;
    666 
    667     /// \brief The location of the last location in this declaration, before
    668     /// the properties/methods. For example, this will be the '>', '}', or
    669     /// identifier,
    670     SourceLocation EndLoc;
    671 
    672     DefinitionData() : Definition(), SuperClass(), CategoryList(), IvarList(),
    673                        ExternallyCompleted(),
    674                        IvarListMissingImplementation(true) { }
    675   };
    676 
    677   ObjCInterfaceDecl(DeclContext *DC, SourceLocation atLoc, IdentifierInfo *Id,
    678                     SourceLocation CLoc, ObjCInterfaceDecl *PrevDecl,
    679                     bool isInternal);
    680 
    681   void LoadExternalDefinition() const;
    682 
    683   /// \brief Contains a pointer to the data associated with this class,
    684   /// which will be NULL if this class has not yet been defined.
    685   ///
    686   /// The bit indicates when we don't need to check for out-of-date
    687   /// declarations. It will be set unless modules are enabled.
    688   llvm::PointerIntPair<DefinitionData *, 1, bool> Data;
    689 
    690   DefinitionData &data() const {
    691     assert(Data.getPointer() && "Declaration has no definition!");
    692     return *Data.getPointer();
    693   }
    694 
    695   /// \brief Allocate the definition data for this class.
    696   void allocateDefinitionData();
    697 
    698   typedef Redeclarable<ObjCInterfaceDecl> redeclarable_base;
    699   virtual ObjCInterfaceDecl *getNextRedeclaration() {
    700     return RedeclLink.getNext();
    701   }
    702   virtual ObjCInterfaceDecl *getPreviousDeclImpl() {
    703     return getPreviousDecl();
    704   }
    705   virtual ObjCInterfaceDecl *getMostRecentDeclImpl() {
    706     return getMostRecentDecl();
    707   }
    708 
    709 public:
    710   static ObjCInterfaceDecl *Create(const ASTContext &C, DeclContext *DC,
    711                                    SourceLocation atLoc,
    712                                    IdentifierInfo *Id,
    713                                    ObjCInterfaceDecl *PrevDecl,
    714                                    SourceLocation ClassLoc = SourceLocation(),
    715                                    bool isInternal = false);
    716 
    717   static ObjCInterfaceDecl *CreateDeserialized(ASTContext &C, unsigned ID);
    718 
    719   virtual SourceRange getSourceRange() const LLVM_READONLY {
    720     if (isThisDeclarationADefinition())
    721       return ObjCContainerDecl::getSourceRange();
    722 
    723     return SourceRange(getAtStartLoc(), getLocation());
    724   }
    725 
    726   /// \brief Indicate that this Objective-C class is complete, but that
    727   /// the external AST source will be responsible for filling in its contents
    728   /// when a complete class is required.
    729   void setExternallyCompleted();
    730 
    731   const ObjCProtocolList &getReferencedProtocols() const {
    732     assert(hasDefinition() && "Caller did not check for forward reference!");
    733     if (data().ExternallyCompleted)
    734       LoadExternalDefinition();
    735 
    736     return data().ReferencedProtocols;
    737   }
    738 
    739   ObjCImplementationDecl *getImplementation() const;
    740   void setImplementation(ObjCImplementationDecl *ImplD);
    741 
    742   ObjCCategoryDecl *FindCategoryDeclaration(IdentifierInfo *CategoryId) const;
    743 
    744   // Get the local instance/class method declared in a category.
    745   ObjCMethodDecl *getCategoryInstanceMethod(Selector Sel) const;
    746   ObjCMethodDecl *getCategoryClassMethod(Selector Sel) const;
    747   ObjCMethodDecl *getCategoryMethod(Selector Sel, bool isInstance) const {
    748     return isInstance ? getInstanceMethod(Sel)
    749                       : getClassMethod(Sel);
    750   }
    751 
    752   typedef ObjCProtocolList::iterator protocol_iterator;
    753 
    754   protocol_iterator protocol_begin() const {
    755     // FIXME: Should make sure no callers ever do this.
    756     if (!hasDefinition())
    757       return protocol_iterator();
    758 
    759     if (data().ExternallyCompleted)
    760       LoadExternalDefinition();
    761 
    762     return data().ReferencedProtocols.begin();
    763   }
    764   protocol_iterator protocol_end() const {
    765     // FIXME: Should make sure no callers ever do this.
    766     if (!hasDefinition())
    767       return protocol_iterator();
    768 
    769     if (data().ExternallyCompleted)
    770       LoadExternalDefinition();
    771 
    772     return data().ReferencedProtocols.end();
    773   }
    774 
    775   typedef ObjCProtocolList::loc_iterator protocol_loc_iterator;
    776 
    777   protocol_loc_iterator protocol_loc_begin() const {
    778     // FIXME: Should make sure no callers ever do this.
    779     if (!hasDefinition())
    780       return protocol_loc_iterator();
    781 
    782     if (data().ExternallyCompleted)
    783       LoadExternalDefinition();
    784 
    785     return data().ReferencedProtocols.loc_begin();
    786   }
    787 
    788   protocol_loc_iterator protocol_loc_end() const {
    789     // FIXME: Should make sure no callers ever do this.
    790     if (!hasDefinition())
    791       return protocol_loc_iterator();
    792 
    793     if (data().ExternallyCompleted)
    794       LoadExternalDefinition();
    795 
    796     return data().ReferencedProtocols.loc_end();
    797   }
    798 
    799   typedef ObjCList<ObjCProtocolDecl>::iterator all_protocol_iterator;
    800 
    801   all_protocol_iterator all_referenced_protocol_begin() const {
    802     // FIXME: Should make sure no callers ever do this.
    803     if (!hasDefinition())
    804       return all_protocol_iterator();
    805 
    806     if (data().ExternallyCompleted)
    807       LoadExternalDefinition();
    808 
    809     return data().AllReferencedProtocols.empty()
    810              ? protocol_begin()
    811              : data().AllReferencedProtocols.begin();
    812   }
    813   all_protocol_iterator all_referenced_protocol_end() const {
    814     // FIXME: Should make sure no callers ever do this.
    815     if (!hasDefinition())
    816       return all_protocol_iterator();
    817 
    818     if (data().ExternallyCompleted)
    819       LoadExternalDefinition();
    820 
    821     return data().AllReferencedProtocols.empty()
    822              ? protocol_end()
    823              : data().AllReferencedProtocols.end();
    824   }
    825 
    826   typedef specific_decl_iterator<ObjCIvarDecl> ivar_iterator;
    827 
    828   ivar_iterator ivar_begin() const {
    829     if (const ObjCInterfaceDecl *Def = getDefinition())
    830       return ivar_iterator(Def->decls_begin());
    831 
    832     // FIXME: Should make sure no callers ever do this.
    833     return ivar_iterator();
    834   }
    835   ivar_iterator ivar_end() const {
    836     if (const ObjCInterfaceDecl *Def = getDefinition())
    837       return ivar_iterator(Def->decls_end());
    838 
    839     // FIXME: Should make sure no callers ever do this.
    840     return ivar_iterator();
    841   }
    842 
    843   unsigned ivar_size() const {
    844     return std::distance(ivar_begin(), ivar_end());
    845   }
    846 
    847   bool ivar_empty() const { return ivar_begin() == ivar_end(); }
    848 
    849   ObjCIvarDecl *all_declared_ivar_begin();
    850   const ObjCIvarDecl *all_declared_ivar_begin() const {
    851     // Even though this modifies IvarList, it's conceptually const:
    852     // the ivar chain is essentially a cached property of ObjCInterfaceDecl.
    853     return const_cast<ObjCInterfaceDecl *>(this)->all_declared_ivar_begin();
    854   }
    855   void setIvarList(ObjCIvarDecl *ivar) { data().IvarList = ivar; }
    856 
    857   /// setProtocolList - Set the list of protocols that this interface
    858   /// implements.
    859   void setProtocolList(ObjCProtocolDecl *const* List, unsigned Num,
    860                        const SourceLocation *Locs, ASTContext &C) {
    861     data().ReferencedProtocols.set(List, Num, Locs, C);
    862   }
    863 
    864   /// mergeClassExtensionProtocolList - Merge class extension's protocol list
    865   /// into the protocol list for this class.
    866   void mergeClassExtensionProtocolList(ObjCProtocolDecl *const* List,
    867                                        unsigned Num,
    868                                        ASTContext &C);
    869 
    870   /// \brief Determine whether this particular declaration of this class is
    871   /// actually also a definition.
    872   bool isThisDeclarationADefinition() const {
    873     return getDefinition() == this;
    874   }
    875 
    876   /// \brief Determine whether this class has been defined.
    877   bool hasDefinition() const {
    878     // If the name of this class is out-of-date, bring it up-to-date, which
    879     // might bring in a definition.
    880     // Note: a null value indicates that we don't have a definition and that
    881     // modules are enabled.
    882     if (!Data.getOpaqueValue()) {
    883       if (IdentifierInfo *II = getIdentifier()) {
    884         if (II->isOutOfDate()) {
    885           updateOutOfDate(*II);
    886         }
    887       }
    888     }
    889 
    890     return Data.getPointer();
    891   }
    892 
    893   /// \brief Retrieve the definition of this class, or NULL if this class
    894   /// has been forward-declared (with \@class) but not yet defined (with
    895   /// \@interface).
    896   ObjCInterfaceDecl *getDefinition() {
    897     return hasDefinition()? Data.getPointer()->Definition : 0;
    898   }
    899 
    900   /// \brief Retrieve the definition of this class, or NULL if this class
    901   /// has been forward-declared (with \@class) but not yet defined (with
    902   /// \@interface).
    903   const ObjCInterfaceDecl *getDefinition() const {
    904     return hasDefinition()? Data.getPointer()->Definition : 0;
    905   }
    906 
    907   /// \brief Starts the definition of this Objective-C class, taking it from
    908   /// a forward declaration (\@class) to a definition (\@interface).
    909   void startDefinition();
    910 
    911   ObjCInterfaceDecl *getSuperClass() const {
    912     // FIXME: Should make sure no callers ever do this.
    913     if (!hasDefinition())
    914       return 0;
    915 
    916     if (data().ExternallyCompleted)
    917       LoadExternalDefinition();
    918 
    919     return data().SuperClass;
    920   }
    921 
    922   void setSuperClass(ObjCInterfaceDecl * superCls) {
    923     data().SuperClass =
    924       (superCls && superCls->hasDefinition()) ? superCls->getDefinition()
    925                                               : superCls;
    926   }
    927 
    928   /// \brief Iterator that walks over the list of categories, filtering out
    929   /// those that do not meet specific criteria.
    930   ///
    931   /// This class template is used for the various permutations of category
    932   /// and extension iterators.
    933   template<bool (*Filter)(ObjCCategoryDecl *)>
    934   class filtered_category_iterator {
    935     ObjCCategoryDecl *Current;
    936 
    937     void findAcceptableCategory();
    938 
    939   public:
    940     typedef ObjCCategoryDecl *      value_type;
    941     typedef value_type              reference;
    942     typedef value_type              pointer;
    943     typedef std::ptrdiff_t          difference_type;
    944     typedef std::input_iterator_tag iterator_category;
    945 
    946     filtered_category_iterator() : Current(0) { }
    947     explicit filtered_category_iterator(ObjCCategoryDecl *Current)
    948       : Current(Current)
    949     {
    950       findAcceptableCategory();
    951     }
    952 
    953     reference operator*() const { return Current; }
    954     pointer operator->() const { return Current; }
    955 
    956     filtered_category_iterator &operator++();
    957 
    958     filtered_category_iterator operator++(int) {
    959       filtered_category_iterator Tmp = *this;
    960       ++(*this);
    961       return Tmp;
    962     }
    963 
    964     friend bool operator==(filtered_category_iterator X,
    965                            filtered_category_iterator Y) {
    966       return X.Current == Y.Current;
    967     }
    968 
    969     friend bool operator!=(filtered_category_iterator X,
    970                            filtered_category_iterator Y) {
    971       return X.Current != Y.Current;
    972     }
    973   };
    974 
    975 private:
    976   /// \brief Test whether the given category is visible.
    977   ///
    978   /// Used in the \c visible_categories_iterator.
    979   static bool isVisibleCategory(ObjCCategoryDecl *Cat);
    980 
    981 public:
    982   /// \brief Iterator that walks over the list of categories and extensions
    983   /// that are visible, i.e., not hidden in a non-imported submodule.
    984   typedef filtered_category_iterator<isVisibleCategory>
    985     visible_categories_iterator;
    986 
    987   /// \brief Retrieve an iterator to the beginning of the visible-categories
    988   /// list.
    989   visible_categories_iterator visible_categories_begin() const {
    990     return visible_categories_iterator(getCategoryListRaw());
    991   }
    992 
    993   /// \brief Retrieve an iterator to the end of the visible-categories list.
    994   visible_categories_iterator visible_categories_end() const {
    995     return visible_categories_iterator();
    996   }
    997 
    998   /// \brief Determine whether the visible-categories list is empty.
    999   bool visible_categories_empty() const {
   1000     return visible_categories_begin() == visible_categories_end();
   1001   }
   1002 
   1003 private:
   1004   /// \brief Test whether the given category... is a category.
   1005   ///
   1006   /// Used in the \c known_categories_iterator.
   1007   static bool isKnownCategory(ObjCCategoryDecl *) { return true; }
   1008 
   1009 public:
   1010   /// \brief Iterator that walks over all of the known categories and
   1011   /// extensions, including those that are hidden.
   1012   typedef filtered_category_iterator<isKnownCategory> known_categories_iterator;
   1013 
   1014   /// \brief Retrieve an iterator to the beginning of the known-categories
   1015   /// list.
   1016   known_categories_iterator known_categories_begin() const {
   1017     return known_categories_iterator(getCategoryListRaw());
   1018   }
   1019 
   1020   /// \brief Retrieve an iterator to the end of the known-categories list.
   1021   known_categories_iterator known_categories_end() const {
   1022     return known_categories_iterator();
   1023   }
   1024 
   1025   /// \brief Determine whether the known-categories list is empty.
   1026   bool known_categories_empty() const {
   1027     return known_categories_begin() == known_categories_end();
   1028   }
   1029 
   1030 private:
   1031   /// \brief Test whether the given category is a visible extension.
   1032   ///
   1033   /// Used in the \c visible_extensions_iterator.
   1034   static bool isVisibleExtension(ObjCCategoryDecl *Cat);
   1035 
   1036 public:
   1037   /// \brief Iterator that walks over all of the visible extensions, skipping
   1038   /// any that are known but hidden.
   1039   typedef filtered_category_iterator<isVisibleExtension>
   1040     visible_extensions_iterator;
   1041 
   1042   /// \brief Retrieve an iterator to the beginning of the visible-extensions
   1043   /// list.
   1044   visible_extensions_iterator visible_extensions_begin() const {
   1045     return visible_extensions_iterator(getCategoryListRaw());
   1046   }
   1047 
   1048   /// \brief Retrieve an iterator to the end of the visible-extensions list.
   1049   visible_extensions_iterator visible_extensions_end() const {
   1050     return visible_extensions_iterator();
   1051   }
   1052 
   1053   /// \brief Determine whether the visible-extensions list is empty.
   1054   bool visible_extensions_empty() const {
   1055     return visible_extensions_begin() == visible_extensions_end();
   1056   }
   1057 
   1058 private:
   1059   /// \brief Test whether the given category is an extension.
   1060   ///
   1061   /// Used in the \c known_extensions_iterator.
   1062   static bool isKnownExtension(ObjCCategoryDecl *Cat);
   1063 
   1064 public:
   1065   /// \brief Iterator that walks over all of the known extensions.
   1066   typedef filtered_category_iterator<isKnownExtension>
   1067     known_extensions_iterator;
   1068 
   1069   /// \brief Retrieve an iterator to the beginning of the known-extensions
   1070   /// list.
   1071   known_extensions_iterator known_extensions_begin() const {
   1072     return known_extensions_iterator(getCategoryListRaw());
   1073   }
   1074 
   1075   /// \brief Retrieve an iterator to the end of the known-extensions list.
   1076   known_extensions_iterator known_extensions_end() const {
   1077     return known_extensions_iterator();
   1078   }
   1079 
   1080   /// \brief Determine whether the known-extensions list is empty.
   1081   bool known_extensions_empty() const {
   1082     return known_extensions_begin() == known_extensions_end();
   1083   }
   1084 
   1085   /// \brief Retrieve the raw pointer to the start of the category/extension
   1086   /// list.
   1087   ObjCCategoryDecl* getCategoryListRaw() const {
   1088     // FIXME: Should make sure no callers ever do this.
   1089     if (!hasDefinition())
   1090       return 0;
   1091 
   1092     if (data().ExternallyCompleted)
   1093       LoadExternalDefinition();
   1094 
   1095     return data().CategoryList;
   1096   }
   1097 
   1098   /// \brief Set the raw pointer to the start of the category/extension
   1099   /// list.
   1100   void setCategoryListRaw(ObjCCategoryDecl *category) {
   1101     data().CategoryList = category;
   1102   }
   1103 
   1104   ObjCPropertyDecl
   1105     *FindPropertyVisibleInPrimaryClass(IdentifierInfo *PropertyId) const;
   1106 
   1107   virtual void collectPropertiesToImplement(PropertyMap &PM,
   1108                                             PropertyDeclOrder &PO) const;
   1109 
   1110   /// isSuperClassOf - Return true if this class is the specified class or is a
   1111   /// super class of the specified interface class.
   1112   bool isSuperClassOf(const ObjCInterfaceDecl *I) const {
   1113     // If RHS is derived from LHS it is OK; else it is not OK.
   1114     while (I != NULL) {
   1115       if (declaresSameEntity(this, I))
   1116         return true;
   1117 
   1118       I = I->getSuperClass();
   1119     }
   1120     return false;
   1121   }
   1122 
   1123   /// isArcWeakrefUnavailable - Checks for a class or one of its super classes
   1124   /// to be incompatible with __weak references. Returns true if it is.
   1125   bool isArcWeakrefUnavailable() const;
   1126 
   1127   /// isObjCRequiresPropertyDefs - Checks that a class or one of its super
   1128   /// classes must not be auto-synthesized. Returns class decl. if it must not
   1129   /// be; 0, otherwise.
   1130   const ObjCInterfaceDecl *isObjCRequiresPropertyDefs() const;
   1131 
   1132   ObjCIvarDecl *lookupInstanceVariable(IdentifierInfo *IVarName,
   1133                                        ObjCInterfaceDecl *&ClassDeclared);
   1134   ObjCIvarDecl *lookupInstanceVariable(IdentifierInfo *IVarName) {
   1135     ObjCInterfaceDecl *ClassDeclared;
   1136     return lookupInstanceVariable(IVarName, ClassDeclared);
   1137   }
   1138 
   1139   ObjCProtocolDecl *lookupNestedProtocol(IdentifierInfo *Name);
   1140 
   1141   // Lookup a method. First, we search locally. If a method isn't
   1142   // found, we search referenced protocols and class categories.
   1143   ObjCMethodDecl *lookupMethod(Selector Sel, bool isInstance,
   1144                                bool shallowCategoryLookup= false,
   1145                                const ObjCCategoryDecl *C= 0) const;
   1146   ObjCMethodDecl *lookupInstanceMethod(Selector Sel,
   1147                             bool shallowCategoryLookup = false) const {
   1148     return lookupMethod(Sel, true/*isInstance*/, shallowCategoryLookup);
   1149   }
   1150   ObjCMethodDecl *lookupClassMethod(Selector Sel,
   1151                      bool shallowCategoryLookup = false) const {
   1152     return lookupMethod(Sel, false/*isInstance*/, shallowCategoryLookup);
   1153   }
   1154   ObjCInterfaceDecl *lookupInheritedClass(const IdentifierInfo *ICName);
   1155 
   1156   /// \brief Lookup a method in the classes implementation hierarchy.
   1157   ObjCMethodDecl *lookupPrivateMethod(const Selector &Sel,
   1158                                       bool Instance=true) const;
   1159 
   1160   ObjCMethodDecl *lookupPrivateClassMethod(const Selector &Sel) {
   1161     return lookupPrivateMethod(Sel, false);
   1162   }
   1163 
   1164   /// \brief Lookup a setter or getter in the class hierarchy,
   1165   /// including in all categories except for category passed
   1166   /// as argument.
   1167   ObjCMethodDecl *lookupPropertyAccessor(const Selector Sel,
   1168                                          const ObjCCategoryDecl *Cat) const {
   1169     return lookupMethod(Sel, true/*isInstance*/,
   1170                         false/*shallowCategoryLookup*/, Cat);
   1171   }
   1172 
   1173   SourceLocation getEndOfDefinitionLoc() const {
   1174     if (!hasDefinition())
   1175       return getLocation();
   1176 
   1177     return data().EndLoc;
   1178   }
   1179 
   1180   void setEndOfDefinitionLoc(SourceLocation LE) { data().EndLoc = LE; }
   1181 
   1182   void setSuperClassLoc(SourceLocation Loc) { data().SuperClassLoc = Loc; }
   1183   SourceLocation getSuperClassLoc() const { return data().SuperClassLoc; }
   1184 
   1185   /// isImplicitInterfaceDecl - check that this is an implicitly declared
   1186   /// ObjCInterfaceDecl node. This is for legacy objective-c \@implementation
   1187   /// declaration without an \@interface declaration.
   1188   bool isImplicitInterfaceDecl() const {
   1189     return hasDefinition() ? data().Definition->isImplicit() : isImplicit();
   1190   }
   1191 
   1192   /// ClassImplementsProtocol - Checks that 'lProto' protocol
   1193   /// has been implemented in IDecl class, its super class or categories (if
   1194   /// lookupCategory is true).
   1195   bool ClassImplementsProtocol(ObjCProtocolDecl *lProto,
   1196                                bool lookupCategory,
   1197                                bool RHSIsQualifiedID = false);
   1198 
   1199   typedef redeclarable_base::redecl_iterator redecl_iterator;
   1200   using redeclarable_base::redecls_begin;
   1201   using redeclarable_base::redecls_end;
   1202   using redeclarable_base::getPreviousDecl;
   1203   using redeclarable_base::getMostRecentDecl;
   1204 
   1205   /// Retrieves the canonical declaration of this Objective-C class.
   1206   ObjCInterfaceDecl *getCanonicalDecl() {
   1207     return getFirstDeclaration();
   1208   }
   1209   const ObjCInterfaceDecl *getCanonicalDecl() const {
   1210     return getFirstDeclaration();
   1211   }
   1212 
   1213   // Low-level accessor
   1214   const Type *getTypeForDecl() const { return TypeForDecl; }
   1215   void setTypeForDecl(const Type *TD) const { TypeForDecl = TD; }
   1216 
   1217   static bool classof(const Decl *D) { return classofKind(D->getKind()); }
   1218   static bool classofKind(Kind K) { return K == ObjCInterface; }
   1219 
   1220   friend class ASTReader;
   1221   friend class ASTDeclReader;
   1222   friend class ASTDeclWriter;
   1223 };
   1224 
   1225 /// ObjCIvarDecl - Represents an ObjC instance variable. In general, ObjC
   1226 /// instance variables are identical to C. The only exception is Objective-C
   1227 /// supports C++ style access control. For example:
   1228 ///
   1229 ///   \@interface IvarExample : NSObject
   1230 ///   {
   1231 ///     id defaultToProtected;
   1232 ///   \@public:
   1233 ///     id canBePublic; // same as C++.
   1234 ///   \@protected:
   1235 ///     id canBeProtected; // same as C++.
   1236 ///   \@package:
   1237 ///     id canBePackage; // framework visibility (not available in C++).
   1238 ///   }
   1239 ///
   1240 class ObjCIvarDecl : public FieldDecl {
   1241   virtual void anchor();
   1242 
   1243 public:
   1244   enum AccessControl {
   1245     None, Private, Protected, Public, Package
   1246   };
   1247 
   1248 private:
   1249   ObjCIvarDecl(ObjCContainerDecl *DC, SourceLocation StartLoc,
   1250                SourceLocation IdLoc, IdentifierInfo *Id,
   1251                QualType T, TypeSourceInfo *TInfo, AccessControl ac, Expr *BW,
   1252                bool synthesized)
   1253     : FieldDecl(ObjCIvar, DC, StartLoc, IdLoc, Id, T, TInfo, BW,
   1254                 /*Mutable=*/false, /*HasInit=*/ICIS_NoInit),
   1255       NextIvar(0), DeclAccess(ac), Synthesized(synthesized) {}
   1256 
   1257 public:
   1258   static ObjCIvarDecl *Create(ASTContext &C, ObjCContainerDecl *DC,
   1259                               SourceLocation StartLoc, SourceLocation IdLoc,
   1260                               IdentifierInfo *Id, QualType T,
   1261                               TypeSourceInfo *TInfo,
   1262                               AccessControl ac, Expr *BW = NULL,
   1263                               bool synthesized=false);
   1264 
   1265   static ObjCIvarDecl *CreateDeserialized(ASTContext &C, unsigned ID);
   1266 
   1267   /// \brief Return the class interface that this ivar is logically contained
   1268   /// in; this is either the interface where the ivar was declared, or the
   1269   /// interface the ivar is conceptually a part of in the case of synthesized
   1270   /// ivars.
   1271   const ObjCInterfaceDecl *getContainingInterface() const;
   1272 
   1273   ObjCIvarDecl *getNextIvar() { return NextIvar; }
   1274   const ObjCIvarDecl *getNextIvar() const { return NextIvar; }
   1275   void setNextIvar(ObjCIvarDecl *ivar) { NextIvar = ivar; }
   1276 
   1277   void setAccessControl(AccessControl ac) { DeclAccess = ac; }
   1278 
   1279   AccessControl getAccessControl() const { return AccessControl(DeclAccess); }
   1280 
   1281   AccessControl getCanonicalAccessControl() const {
   1282     return DeclAccess == None ? Protected : AccessControl(DeclAccess);
   1283   }
   1284 
   1285   void setSynthesize(bool synth) { Synthesized = synth; }
   1286   bool getSynthesize() const { return Synthesized; }
   1287 
   1288   // Implement isa/cast/dyncast/etc.
   1289   static bool classof(const Decl *D) { return classofKind(D->getKind()); }
   1290   static bool classofKind(Kind K) { return K == ObjCIvar; }
   1291 private:
   1292   /// NextIvar - Next Ivar in the list of ivars declared in class; class's
   1293   /// extensions and class's implementation
   1294   ObjCIvarDecl *NextIvar;
   1295 
   1296   // NOTE: VC++ treats enums as signed, avoid using the AccessControl enum
   1297   unsigned DeclAccess : 3;
   1298   unsigned Synthesized : 1;
   1299 };
   1300 
   1301 
   1302 /// \brief Represents a field declaration created by an \@defs(...).
   1303 class ObjCAtDefsFieldDecl : public FieldDecl {
   1304   virtual void anchor();
   1305   ObjCAtDefsFieldDecl(DeclContext *DC, SourceLocation StartLoc,
   1306                       SourceLocation IdLoc, IdentifierInfo *Id,
   1307                       QualType T, Expr *BW)
   1308     : FieldDecl(ObjCAtDefsField, DC, StartLoc, IdLoc, Id, T,
   1309                 /*TInfo=*/0, // FIXME: Do ObjCAtDefs have declarators ?
   1310                 BW, /*Mutable=*/false, /*HasInit=*/ICIS_NoInit) {}
   1311 
   1312 public:
   1313   static ObjCAtDefsFieldDecl *Create(ASTContext &C, DeclContext *DC,
   1314                                      SourceLocation StartLoc,
   1315                                      SourceLocation IdLoc, IdentifierInfo *Id,
   1316                                      QualType T, Expr *BW);
   1317 
   1318   static ObjCAtDefsFieldDecl *CreateDeserialized(ASTContext &C, unsigned ID);
   1319 
   1320   // Implement isa/cast/dyncast/etc.
   1321   static bool classof(const Decl *D) { return classofKind(D->getKind()); }
   1322   static bool classofKind(Kind K) { return K == ObjCAtDefsField; }
   1323 };
   1324 
   1325 /// \brief Represents an Objective-C protocol declaration.
   1326 ///
   1327 /// Objective-C protocols declare a pure abstract type (i.e., no instance
   1328 /// variables are permitted).  Protocols originally drew inspiration from
   1329 /// C++ pure virtual functions (a C++ feature with nice semantics and lousy
   1330 /// syntax:-). Here is an example:
   1331 ///
   1332 /// \code
   1333 /// \@protocol NSDraggingInfo <refproto1, refproto2>
   1334 /// - (NSWindow *)draggingDestinationWindow;
   1335 /// - (NSImage *)draggedImage;
   1336 /// \@end
   1337 /// \endcode
   1338 ///
   1339 /// This says that NSDraggingInfo requires two methods and requires everything
   1340 /// that the two "referenced protocols" 'refproto1' and 'refproto2' require as
   1341 /// well.
   1342 ///
   1343 /// \code
   1344 /// \@interface ImplementsNSDraggingInfo : NSObject \<NSDraggingInfo>
   1345 /// \@end
   1346 /// \endcode
   1347 ///
   1348 /// ObjC protocols inspired Java interfaces. Unlike Java, ObjC classes and
   1349 /// protocols are in distinct namespaces. For example, Cocoa defines both
   1350 /// an NSObject protocol and class (which isn't allowed in Java). As a result,
   1351 /// protocols are referenced using angle brackets as follows:
   1352 ///
   1353 /// id \<NSDraggingInfo> anyObjectThatImplementsNSDraggingInfo;
   1354 ///
   1355 class ObjCProtocolDecl : public ObjCContainerDecl,
   1356                          public Redeclarable<ObjCProtocolDecl> {
   1357   virtual void anchor();
   1358 
   1359   struct DefinitionData {
   1360     // \brief The declaration that defines this protocol.
   1361     ObjCProtocolDecl *Definition;
   1362 
   1363     /// \brief Referenced protocols
   1364     ObjCProtocolList ReferencedProtocols;
   1365   };
   1366 
   1367   /// \brief Contains a pointer to the data associated with this class,
   1368   /// which will be NULL if this class has not yet been defined.
   1369   ///
   1370   /// The bit indicates when we don't need to check for out-of-date
   1371   /// declarations. It will be set unless modules are enabled.
   1372   llvm::PointerIntPair<DefinitionData *, 1, bool> Data;
   1373 
   1374   DefinitionData &data() const {
   1375     assert(Data.getPointer() && "Objective-C protocol has no definition!");
   1376     return *Data.getPointer();
   1377   }
   1378 
   1379   ObjCProtocolDecl(DeclContext *DC, IdentifierInfo *Id,
   1380                    SourceLocation nameLoc, SourceLocation atStartLoc,
   1381                    ObjCProtocolDecl *PrevDecl);
   1382 
   1383   void allocateDefinitionData();
   1384 
   1385   typedef Redeclarable<ObjCProtocolDecl> redeclarable_base;
   1386   virtual ObjCProtocolDecl *getNextRedeclaration() {
   1387     return RedeclLink.getNext();
   1388   }
   1389   virtual ObjCProtocolDecl *getPreviousDeclImpl() {
   1390     return getPreviousDecl();
   1391   }
   1392   virtual ObjCProtocolDecl *getMostRecentDeclImpl() {
   1393     return getMostRecentDecl();
   1394   }
   1395 
   1396 public:
   1397   static ObjCProtocolDecl *Create(ASTContext &C, DeclContext *DC,
   1398                                   IdentifierInfo *Id,
   1399                                   SourceLocation nameLoc,
   1400                                   SourceLocation atStartLoc,
   1401                                   ObjCProtocolDecl *PrevDecl);
   1402 
   1403   static ObjCProtocolDecl *CreateDeserialized(ASTContext &C, unsigned ID);
   1404 
   1405   const ObjCProtocolList &getReferencedProtocols() const {
   1406     assert(hasDefinition() && "No definition available!");
   1407     return data().ReferencedProtocols;
   1408   }
   1409   typedef ObjCProtocolList::iterator protocol_iterator;
   1410   protocol_iterator protocol_begin() const {
   1411     if (!hasDefinition())
   1412       return protocol_iterator();
   1413 
   1414     return data().ReferencedProtocols.begin();
   1415   }
   1416   protocol_iterator protocol_end() const {
   1417     if (!hasDefinition())
   1418       return protocol_iterator();
   1419 
   1420     return data().ReferencedProtocols.end();
   1421   }
   1422   typedef ObjCProtocolList::loc_iterator protocol_loc_iterator;
   1423   protocol_loc_iterator protocol_loc_begin() const {
   1424     if (!hasDefinition())
   1425       return protocol_loc_iterator();
   1426 
   1427     return data().ReferencedProtocols.loc_begin();
   1428   }
   1429   protocol_loc_iterator protocol_loc_end() const {
   1430     if (!hasDefinition())
   1431       return protocol_loc_iterator();
   1432 
   1433     return data().ReferencedProtocols.loc_end();
   1434   }
   1435   unsigned protocol_size() const {
   1436     if (!hasDefinition())
   1437       return 0;
   1438 
   1439     return data().ReferencedProtocols.size();
   1440   }
   1441 
   1442   /// setProtocolList - Set the list of protocols that this interface
   1443   /// implements.
   1444   void setProtocolList(ObjCProtocolDecl *const*List, unsigned Num,
   1445                        const SourceLocation *Locs, ASTContext &C) {
   1446     assert(hasDefinition() && "Protocol is not defined");
   1447     data().ReferencedProtocols.set(List, Num, Locs, C);
   1448   }
   1449 
   1450   ObjCProtocolDecl *lookupProtocolNamed(IdentifierInfo *PName);
   1451 
   1452   // Lookup a method. First, we search locally. If a method isn't
   1453   // found, we search referenced protocols and class categories.
   1454   ObjCMethodDecl *lookupMethod(Selector Sel, bool isInstance) const;
   1455   ObjCMethodDecl *lookupInstanceMethod(Selector Sel) const {
   1456     return lookupMethod(Sel, true/*isInstance*/);
   1457   }
   1458   ObjCMethodDecl *lookupClassMethod(Selector Sel) const {
   1459     return lookupMethod(Sel, false/*isInstance*/);
   1460   }
   1461 
   1462   /// \brief Determine whether this protocol has a definition.
   1463   bool hasDefinition() const {
   1464     // If the name of this protocol is out-of-date, bring it up-to-date, which
   1465     // might bring in a definition.
   1466     // Note: a null value indicates that we don't have a definition and that
   1467     // modules are enabled.
   1468     if (!Data.getOpaqueValue()) {
   1469       if (IdentifierInfo *II = getIdentifier()) {
   1470         if (II->isOutOfDate()) {
   1471           updateOutOfDate(*II);
   1472         }
   1473       }
   1474     }
   1475 
   1476     return Data.getPointer();
   1477   }
   1478 
   1479   /// \brief Retrieve the definition of this protocol, if any.
   1480   ObjCProtocolDecl *getDefinition() {
   1481     return hasDefinition()? Data.getPointer()->Definition : 0;
   1482   }
   1483 
   1484   /// \brief Retrieve the definition of this protocol, if any.
   1485   const ObjCProtocolDecl *getDefinition() const {
   1486     return hasDefinition()? Data.getPointer()->Definition : 0;
   1487   }
   1488 
   1489   /// \brief Determine whether this particular declaration is also the
   1490   /// definition.
   1491   bool isThisDeclarationADefinition() const {
   1492     return getDefinition() == this;
   1493   }
   1494 
   1495   /// \brief Starts the definition of this Objective-C protocol.
   1496   void startDefinition();
   1497 
   1498   virtual SourceRange getSourceRange() const LLVM_READONLY {
   1499     if (isThisDeclarationADefinition())
   1500       return ObjCContainerDecl::getSourceRange();
   1501 
   1502     return SourceRange(getAtStartLoc(), getLocation());
   1503   }
   1504 
   1505   typedef redeclarable_base::redecl_iterator redecl_iterator;
   1506   using redeclarable_base::redecls_begin;
   1507   using redeclarable_base::redecls_end;
   1508   using redeclarable_base::getPreviousDecl;
   1509   using redeclarable_base::getMostRecentDecl;
   1510 
   1511   /// Retrieves the canonical declaration of this Objective-C protocol.
   1512   ObjCProtocolDecl *getCanonicalDecl() {
   1513     return getFirstDeclaration();
   1514   }
   1515   const ObjCProtocolDecl *getCanonicalDecl() const {
   1516     return getFirstDeclaration();
   1517   }
   1518 
   1519   virtual void collectPropertiesToImplement(PropertyMap &PM,
   1520                                             PropertyDeclOrder &PO) const;
   1521 
   1522 void collectInheritedProtocolProperties(const ObjCPropertyDecl *Property,
   1523                                         ProtocolPropertyMap &PM) const;
   1524 
   1525   static bool classof(const Decl *D) { return classofKind(D->getKind()); }
   1526   static bool classofKind(Kind K) { return K == ObjCProtocol; }
   1527 
   1528   friend class ASTReader;
   1529   friend class ASTDeclReader;
   1530   friend class ASTDeclWriter;
   1531 };
   1532 
   1533 /// ObjCCategoryDecl - Represents a category declaration. A category allows
   1534 /// you to add methods to an existing class (without subclassing or modifying
   1535 /// the original class interface or implementation:-). Categories don't allow
   1536 /// you to add instance data. The following example adds "myMethod" to all
   1537 /// NSView's within a process:
   1538 ///
   1539 /// \@interface NSView (MyViewMethods)
   1540 /// - myMethod;
   1541 /// \@end
   1542 ///
   1543 /// Categories also allow you to split the implementation of a class across
   1544 /// several files (a feature more naturally supported in C++).
   1545 ///
   1546 /// Categories were originally inspired by dynamic languages such as Common
   1547 /// Lisp and Smalltalk.  More traditional class-based languages (C++, Java)
   1548 /// don't support this level of dynamism, which is both powerful and dangerous.
   1549 ///
   1550 class ObjCCategoryDecl : public ObjCContainerDecl {
   1551   virtual void anchor();
   1552 
   1553   /// Interface belonging to this category
   1554   ObjCInterfaceDecl *ClassInterface;
   1555 
   1556   /// referenced protocols in this category.
   1557   ObjCProtocolList ReferencedProtocols;
   1558 
   1559   /// Next category belonging to this class.
   1560   /// FIXME: this should not be a singly-linked list.  Move storage elsewhere.
   1561   ObjCCategoryDecl *NextClassCategory;
   1562 
   1563   /// \brief The location of the category name in this declaration.
   1564   SourceLocation CategoryNameLoc;
   1565 
   1566   /// class extension may have private ivars.
   1567   SourceLocation IvarLBraceLoc;
   1568   SourceLocation IvarRBraceLoc;
   1569 
   1570   ObjCCategoryDecl(DeclContext *DC, SourceLocation AtLoc,
   1571                    SourceLocation ClassNameLoc, SourceLocation CategoryNameLoc,
   1572                    IdentifierInfo *Id, ObjCInterfaceDecl *IDecl,
   1573                    SourceLocation IvarLBraceLoc=SourceLocation(),
   1574                    SourceLocation IvarRBraceLoc=SourceLocation())
   1575     : ObjCContainerDecl(ObjCCategory, DC, Id, ClassNameLoc, AtLoc),
   1576       ClassInterface(IDecl), NextClassCategory(0),
   1577       CategoryNameLoc(CategoryNameLoc),
   1578       IvarLBraceLoc(IvarLBraceLoc), IvarRBraceLoc(IvarRBraceLoc) {
   1579   }
   1580 
   1581 public:
   1582 
   1583   static ObjCCategoryDecl *Create(ASTContext &C, DeclContext *DC,
   1584                                   SourceLocation AtLoc,
   1585                                   SourceLocation ClassNameLoc,
   1586                                   SourceLocation CategoryNameLoc,
   1587                                   IdentifierInfo *Id,
   1588                                   ObjCInterfaceDecl *IDecl,
   1589                                   SourceLocation IvarLBraceLoc=SourceLocation(),
   1590                                   SourceLocation IvarRBraceLoc=SourceLocation());
   1591   static ObjCCategoryDecl *CreateDeserialized(ASTContext &C, unsigned ID);
   1592 
   1593   ObjCInterfaceDecl *getClassInterface() { return ClassInterface; }
   1594   const ObjCInterfaceDecl *getClassInterface() const { return ClassInterface; }
   1595 
   1596   ObjCCategoryImplDecl *getImplementation() const;
   1597   void setImplementation(ObjCCategoryImplDecl *ImplD);
   1598 
   1599   /// setProtocolList - Set the list of protocols that this interface
   1600   /// implements.
   1601   void setProtocolList(ObjCProtocolDecl *const*List, unsigned Num,
   1602                        const SourceLocation *Locs, ASTContext &C) {
   1603     ReferencedProtocols.set(List, Num, Locs, C);
   1604   }
   1605 
   1606   const ObjCProtocolList &getReferencedProtocols() const {
   1607     return ReferencedProtocols;
   1608   }
   1609 
   1610   typedef ObjCProtocolList::iterator protocol_iterator;
   1611   protocol_iterator protocol_begin() const {return ReferencedProtocols.begin();}
   1612   protocol_iterator protocol_end() const { return ReferencedProtocols.end(); }
   1613   unsigned protocol_size() const { return ReferencedProtocols.size(); }
   1614   typedef ObjCProtocolList::loc_iterator protocol_loc_iterator;
   1615   protocol_loc_iterator protocol_loc_begin() const {
   1616     return ReferencedProtocols.loc_begin();
   1617   }
   1618   protocol_loc_iterator protocol_loc_end() const {
   1619     return ReferencedProtocols.loc_end();
   1620   }
   1621 
   1622   ObjCCategoryDecl *getNextClassCategory() const { return NextClassCategory; }
   1623 
   1624   /// \brief Retrieve the pointer to the next stored category (or extension),
   1625   /// which may be hidden.
   1626   ObjCCategoryDecl *getNextClassCategoryRaw() const {
   1627     return NextClassCategory;
   1628   }
   1629 
   1630   bool IsClassExtension() const { return getIdentifier() == 0; }
   1631 
   1632   typedef specific_decl_iterator<ObjCIvarDecl> ivar_iterator;
   1633   ivar_iterator ivar_begin() const {
   1634     return ivar_iterator(decls_begin());
   1635   }
   1636   ivar_iterator ivar_end() const {
   1637     return ivar_iterator(decls_end());
   1638   }
   1639   unsigned ivar_size() const {
   1640     return std::distance(ivar_begin(), ivar_end());
   1641   }
   1642   bool ivar_empty() const {
   1643     return ivar_begin() == ivar_end();
   1644   }
   1645 
   1646   SourceLocation getCategoryNameLoc() const { return CategoryNameLoc; }
   1647   void setCategoryNameLoc(SourceLocation Loc) { CategoryNameLoc = Loc; }
   1648 
   1649   void setIvarLBraceLoc(SourceLocation Loc) { IvarLBraceLoc = Loc; }
   1650   SourceLocation getIvarLBraceLoc() const { return IvarLBraceLoc; }
   1651   void setIvarRBraceLoc(SourceLocation Loc) { IvarRBraceLoc = Loc; }
   1652   SourceLocation getIvarRBraceLoc() const { return IvarRBraceLoc; }
   1653 
   1654   static bool classof(const Decl *D) { return classofKind(D->getKind()); }
   1655   static bool classofKind(Kind K) { return K == ObjCCategory; }
   1656 
   1657   friend class ASTDeclReader;
   1658   friend class ASTDeclWriter;
   1659 };
   1660 
   1661 class ObjCImplDecl : public ObjCContainerDecl {
   1662   virtual void anchor();
   1663 
   1664   /// Class interface for this class/category implementation
   1665   ObjCInterfaceDecl *ClassInterface;
   1666 
   1667 protected:
   1668   ObjCImplDecl(Kind DK, DeclContext *DC,
   1669                ObjCInterfaceDecl *classInterface,
   1670                SourceLocation nameLoc, SourceLocation atStartLoc)
   1671     : ObjCContainerDecl(DK, DC,
   1672                         classInterface? classInterface->getIdentifier() : 0,
   1673                         nameLoc, atStartLoc),
   1674       ClassInterface(classInterface) {}
   1675 
   1676 public:
   1677   const ObjCInterfaceDecl *getClassInterface() const { return ClassInterface; }
   1678   ObjCInterfaceDecl *getClassInterface() { return ClassInterface; }
   1679   void setClassInterface(ObjCInterfaceDecl *IFace);
   1680 
   1681   void addInstanceMethod(ObjCMethodDecl *method) {
   1682     // FIXME: Context should be set correctly before we get here.
   1683     method->setLexicalDeclContext(this);
   1684     addDecl(method);
   1685   }
   1686   void addClassMethod(ObjCMethodDecl *method) {
   1687     // FIXME: Context should be set correctly before we get here.
   1688     method->setLexicalDeclContext(this);
   1689     addDecl(method);
   1690   }
   1691 
   1692   void addPropertyImplementation(ObjCPropertyImplDecl *property);
   1693 
   1694   ObjCPropertyImplDecl *FindPropertyImplDecl(IdentifierInfo *propertyId) const;
   1695   ObjCPropertyImplDecl *FindPropertyImplIvarDecl(IdentifierInfo *ivarId) const;
   1696 
   1697   // Iterator access to properties.
   1698   typedef specific_decl_iterator<ObjCPropertyImplDecl> propimpl_iterator;
   1699   propimpl_iterator propimpl_begin() const {
   1700     return propimpl_iterator(decls_begin());
   1701   }
   1702   propimpl_iterator propimpl_end() const {
   1703     return propimpl_iterator(decls_end());
   1704   }
   1705 
   1706   static bool classof(const Decl *D) { return classofKind(D->getKind()); }
   1707   static bool classofKind(Kind K) {
   1708     return K >= firstObjCImpl && K <= lastObjCImpl;
   1709   }
   1710 };
   1711 
   1712 /// ObjCCategoryImplDecl - An object of this class encapsulates a category
   1713 /// \@implementation declaration. If a category class has declaration of a
   1714 /// property, its implementation must be specified in the category's
   1715 /// \@implementation declaration. Example:
   1716 /// \@interface I \@end
   1717 /// \@interface I(CATEGORY)
   1718 ///    \@property int p1, d1;
   1719 /// \@end
   1720 /// \@implementation I(CATEGORY)
   1721 ///  \@dynamic p1,d1;
   1722 /// \@end
   1723 ///
   1724 /// ObjCCategoryImplDecl
   1725 class ObjCCategoryImplDecl : public ObjCImplDecl {
   1726   virtual void anchor();
   1727 
   1728   // Category name
   1729   IdentifierInfo *Id;
   1730 
   1731   // Category name location
   1732   SourceLocation CategoryNameLoc;
   1733 
   1734   ObjCCategoryImplDecl(DeclContext *DC, IdentifierInfo *Id,
   1735                        ObjCInterfaceDecl *classInterface,
   1736                        SourceLocation nameLoc, SourceLocation atStartLoc,
   1737                        SourceLocation CategoryNameLoc)
   1738     : ObjCImplDecl(ObjCCategoryImpl, DC, classInterface, nameLoc, atStartLoc),
   1739       Id(Id), CategoryNameLoc(CategoryNameLoc) {}
   1740 public:
   1741   static ObjCCategoryImplDecl *Create(ASTContext &C, DeclContext *DC,
   1742                                       IdentifierInfo *Id,
   1743                                       ObjCInterfaceDecl *classInterface,
   1744                                       SourceLocation nameLoc,
   1745                                       SourceLocation atStartLoc,
   1746                                       SourceLocation CategoryNameLoc);
   1747   static ObjCCategoryImplDecl *CreateDeserialized(ASTContext &C, unsigned ID);
   1748 
   1749   /// getIdentifier - Get the identifier that names the category
   1750   /// interface associated with this implementation.
   1751   /// FIXME: This is a bad API, we are overriding the NamedDecl::getIdentifier()
   1752   /// to mean something different. For example:
   1753   /// ((NamedDecl *)SomeCategoryImplDecl)->getIdentifier()
   1754   /// returns the class interface name, whereas
   1755   /// ((ObjCCategoryImplDecl *)SomeCategoryImplDecl)->getIdentifier()
   1756   /// returns the category name.
   1757   IdentifierInfo *getIdentifier() const {
   1758     return Id;
   1759   }
   1760   void setIdentifier(IdentifierInfo *II) { Id = II; }
   1761 
   1762   ObjCCategoryDecl *getCategoryDecl() const;
   1763 
   1764   SourceLocation getCategoryNameLoc() const { return CategoryNameLoc; }
   1765 
   1766   /// getName - Get the name of identifier for the class interface associated
   1767   /// with this implementation as a StringRef.
   1768   //
   1769   // FIXME: This is a bad API, we are overriding the NamedDecl::getName, to mean
   1770   // something different.
   1771   StringRef getName() const {
   1772     return Id ? Id->getNameStart() : "";
   1773   }
   1774 
   1775   /// @brief Get the name of the class associated with this interface.
   1776   //
   1777   // FIXME: Deprecated, move clients to getName().
   1778   std::string getNameAsString() const {
   1779     return getName();
   1780   }
   1781 
   1782   static bool classof(const Decl *D) { return classofKind(D->getKind()); }
   1783   static bool classofKind(Kind K) { return K == ObjCCategoryImpl;}
   1784 
   1785   friend class ASTDeclReader;
   1786   friend class ASTDeclWriter;
   1787 };
   1788 
   1789 raw_ostream &operator<<(raw_ostream &OS, const ObjCCategoryImplDecl &CID);
   1790 
   1791 /// ObjCImplementationDecl - Represents a class definition - this is where
   1792 /// method definitions are specified. For example:
   1793 ///
   1794 /// @code
   1795 /// \@implementation MyClass
   1796 /// - (void)myMethod { /* do something */ }
   1797 /// \@end
   1798 /// @endcode
   1799 ///
   1800 /// Typically, instance variables are specified in the class interface,
   1801 /// *not* in the implementation. Nevertheless (for legacy reasons), we
   1802 /// allow instance variables to be specified in the implementation.  When
   1803 /// specified, they need to be *identical* to the interface.
   1804 ///
   1805 class ObjCImplementationDecl : public ObjCImplDecl {
   1806   virtual void anchor();
   1807   /// Implementation Class's super class.
   1808   ObjCInterfaceDecl *SuperClass;
   1809   SourceLocation SuperLoc;
   1810 
   1811   /// \@implementation may have private ivars.
   1812   SourceLocation IvarLBraceLoc;
   1813   SourceLocation IvarRBraceLoc;
   1814 
   1815   /// Support for ivar initialization.
   1816   /// IvarInitializers - The arguments used to initialize the ivars
   1817   CXXCtorInitializer **IvarInitializers;
   1818   unsigned NumIvarInitializers;
   1819 
   1820   /// Do the ivars of this class require initialization other than
   1821   /// zero-initialization?
   1822   bool HasNonZeroConstructors : 1;
   1823 
   1824   /// Do the ivars of this class require non-trivial destruction?
   1825   bool HasDestructors : 1;
   1826 
   1827   ObjCImplementationDecl(DeclContext *DC,
   1828                          ObjCInterfaceDecl *classInterface,
   1829                          ObjCInterfaceDecl *superDecl,
   1830                          SourceLocation nameLoc, SourceLocation atStartLoc,
   1831                          SourceLocation superLoc = SourceLocation(),
   1832                          SourceLocation IvarLBraceLoc=SourceLocation(),
   1833                          SourceLocation IvarRBraceLoc=SourceLocation())
   1834     : ObjCImplDecl(ObjCImplementation, DC, classInterface, nameLoc, atStartLoc),
   1835        SuperClass(superDecl), SuperLoc(superLoc), IvarLBraceLoc(IvarLBraceLoc),
   1836        IvarRBraceLoc(IvarRBraceLoc),
   1837        IvarInitializers(0), NumIvarInitializers(0),
   1838        HasNonZeroConstructors(false), HasDestructors(false) {}
   1839 public:
   1840   static ObjCImplementationDecl *Create(ASTContext &C, DeclContext *DC,
   1841                                         ObjCInterfaceDecl *classInterface,
   1842                                         ObjCInterfaceDecl *superDecl,
   1843                                         SourceLocation nameLoc,
   1844                                         SourceLocation atStartLoc,
   1845                                      SourceLocation superLoc = SourceLocation(),
   1846                                         SourceLocation IvarLBraceLoc=SourceLocation(),
   1847                                         SourceLocation IvarRBraceLoc=SourceLocation());
   1848 
   1849   static ObjCImplementationDecl *CreateDeserialized(ASTContext &C, unsigned ID);
   1850 
   1851   /// init_iterator - Iterates through the ivar initializer list.
   1852   typedef CXXCtorInitializer **init_iterator;
   1853 
   1854   /// init_const_iterator - Iterates through the ivar initializer list.
   1855   typedef CXXCtorInitializer * const * init_const_iterator;
   1856 
   1857   /// init_begin() - Retrieve an iterator to the first initializer.
   1858   init_iterator       init_begin()       { return IvarInitializers; }
   1859   /// begin() - Retrieve an iterator to the first initializer.
   1860   init_const_iterator init_begin() const { return IvarInitializers; }
   1861 
   1862   /// init_end() - Retrieve an iterator past the last initializer.
   1863   init_iterator       init_end()       {
   1864     return IvarInitializers + NumIvarInitializers;
   1865   }
   1866   /// end() - Retrieve an iterator past the last initializer.
   1867   init_const_iterator init_end() const {
   1868     return IvarInitializers + NumIvarInitializers;
   1869   }
   1870   /// getNumArgs - Number of ivars which must be initialized.
   1871   unsigned getNumIvarInitializers() const {
   1872     return NumIvarInitializers;
   1873   }
   1874 
   1875   void setNumIvarInitializers(unsigned numNumIvarInitializers) {
   1876     NumIvarInitializers = numNumIvarInitializers;
   1877   }
   1878 
   1879   void setIvarInitializers(ASTContext &C,
   1880                            CXXCtorInitializer ** initializers,
   1881                            unsigned numInitializers);
   1882 
   1883   /// Do any of the ivars of this class (not counting its base classes)
   1884   /// require construction other than zero-initialization?
   1885   bool hasNonZeroConstructors() const { return HasNonZeroConstructors; }
   1886   void setHasNonZeroConstructors(bool val) { HasNonZeroConstructors = val; }
   1887 
   1888   /// Do any of the ivars of this class (not counting its base classes)
   1889   /// require non-trivial destruction?
   1890   bool hasDestructors() const { return HasDestructors; }
   1891   void setHasDestructors(bool val) { HasDestructors = val; }
   1892 
   1893   /// getIdentifier - Get the identifier that names the class
   1894   /// interface associated with this implementation.
   1895   IdentifierInfo *getIdentifier() const {
   1896     return getClassInterface()->getIdentifier();
   1897   }
   1898 
   1899   /// getName - Get the name of identifier for the class interface associated
   1900   /// with this implementation as a StringRef.
   1901   //
   1902   // FIXME: This is a bad API, we are overriding the NamedDecl::getName, to mean
   1903   // something different.
   1904   StringRef getName() const {
   1905     assert(getIdentifier() && "Name is not a simple identifier");
   1906     return getIdentifier()->getName();
   1907   }
   1908 
   1909   /// @brief Get the name of the class associated with this interface.
   1910   //
   1911   // FIXME: Move to StringRef API.
   1912   std::string getNameAsString() const {
   1913     return getName();
   1914   }
   1915 
   1916   const ObjCInterfaceDecl *getSuperClass() const { return SuperClass; }
   1917   ObjCInterfaceDecl *getSuperClass() { return SuperClass; }
   1918   SourceLocation getSuperClassLoc() const { return SuperLoc; }
   1919 
   1920   void setSuperClass(ObjCInterfaceDecl * superCls) { SuperClass = superCls; }
   1921 
   1922   void setIvarLBraceLoc(SourceLocation Loc) { IvarLBraceLoc = Loc; }
   1923   SourceLocation getIvarLBraceLoc() const { return IvarLBraceLoc; }
   1924   void setIvarRBraceLoc(SourceLocation Loc) { IvarRBraceLoc = Loc; }
   1925   SourceLocation getIvarRBraceLoc() const { return IvarRBraceLoc; }
   1926 
   1927   typedef specific_decl_iterator<ObjCIvarDecl> ivar_iterator;
   1928   ivar_iterator ivar_begin() const {
   1929     return ivar_iterator(decls_begin());
   1930   }
   1931   ivar_iterator ivar_end() const {
   1932     return ivar_iterator(decls_end());
   1933   }
   1934   unsigned ivar_size() const {
   1935     return std::distance(ivar_begin(), ivar_end());
   1936   }
   1937   bool ivar_empty() const {
   1938     return ivar_begin() == ivar_end();
   1939   }
   1940 
   1941   static bool classof(const Decl *D) { return classofKind(D->getKind()); }
   1942   static bool classofKind(Kind K) { return K == ObjCImplementation; }
   1943 
   1944   friend class ASTDeclReader;
   1945   friend class ASTDeclWriter;
   1946 };
   1947 
   1948 raw_ostream &operator<<(raw_ostream &OS, const ObjCImplementationDecl &ID);
   1949 
   1950 /// ObjCCompatibleAliasDecl - Represents alias of a class. This alias is
   1951 /// declared as \@compatibility_alias alias class.
   1952 class ObjCCompatibleAliasDecl : public NamedDecl {
   1953   virtual void anchor();
   1954   /// Class that this is an alias of.
   1955   ObjCInterfaceDecl *AliasedClass;
   1956 
   1957   ObjCCompatibleAliasDecl(DeclContext *DC, SourceLocation L, IdentifierInfo *Id,
   1958                           ObjCInterfaceDecl* aliasedClass)
   1959     : NamedDecl(ObjCCompatibleAlias, DC, L, Id), AliasedClass(aliasedClass) {}
   1960 public:
   1961   static ObjCCompatibleAliasDecl *Create(ASTContext &C, DeclContext *DC,
   1962                                          SourceLocation L, IdentifierInfo *Id,
   1963                                          ObjCInterfaceDecl* aliasedClass);
   1964 
   1965   static ObjCCompatibleAliasDecl *CreateDeserialized(ASTContext &C,
   1966                                                      unsigned ID);
   1967 
   1968   const ObjCInterfaceDecl *getClassInterface() const { return AliasedClass; }
   1969   ObjCInterfaceDecl *getClassInterface() { return AliasedClass; }
   1970   void setClassInterface(ObjCInterfaceDecl *D) { AliasedClass = D; }
   1971 
   1972   static bool classof(const Decl *D) { return classofKind(D->getKind()); }
   1973   static bool classofKind(Kind K) { return K == ObjCCompatibleAlias; }
   1974 
   1975 };
   1976 
   1977 /// \brief Represents one property declaration in an Objective-C interface.
   1978 ///
   1979 /// For example:
   1980 /// \code{.mm}
   1981 /// \@property (assign, readwrite) int MyProperty;
   1982 /// \endcode
   1983 class ObjCPropertyDecl : public NamedDecl {
   1984   virtual void anchor();
   1985 public:
   1986   enum PropertyAttributeKind {
   1987     OBJC_PR_noattr    = 0x00,
   1988     OBJC_PR_readonly  = 0x01,
   1989     OBJC_PR_getter    = 0x02,
   1990     OBJC_PR_assign    = 0x04,
   1991     OBJC_PR_readwrite = 0x08,
   1992     OBJC_PR_retain    = 0x10,
   1993     OBJC_PR_copy      = 0x20,
   1994     OBJC_PR_nonatomic = 0x40,
   1995     OBJC_PR_setter    = 0x80,
   1996     OBJC_PR_atomic    = 0x100,
   1997     OBJC_PR_weak      = 0x200,
   1998     OBJC_PR_strong    = 0x400,
   1999     OBJC_PR_unsafe_unretained = 0x800
   2000     // Adding a property should change NumPropertyAttrsBits
   2001   };
   2002 
   2003   enum {
   2004     /// \brief Number of bits fitting all the property attributes.
   2005     NumPropertyAttrsBits = 12
   2006   };
   2007 
   2008   enum SetterKind { Assign, Retain, Copy, Weak };
   2009   enum PropertyControl { None, Required, Optional };
   2010 private:
   2011   SourceLocation AtLoc;   // location of \@property
   2012   SourceLocation LParenLoc; // location of '(' starting attribute list or null.
   2013   TypeSourceInfo *DeclType;
   2014   unsigned PropertyAttributes : NumPropertyAttrsBits;
   2015   unsigned PropertyAttributesAsWritten : NumPropertyAttrsBits;
   2016   // \@required/\@optional
   2017   unsigned PropertyImplementation : 2;
   2018 
   2019   Selector GetterName;    // getter name of NULL if no getter
   2020   Selector SetterName;    // setter name of NULL if no setter
   2021 
   2022   ObjCMethodDecl *GetterMethodDecl; // Declaration of getter instance method
   2023   ObjCMethodDecl *SetterMethodDecl; // Declaration of setter instance method
   2024   ObjCIvarDecl *PropertyIvarDecl;   // Synthesize ivar for this property
   2025 
   2026   ObjCPropertyDecl(DeclContext *DC, SourceLocation L, IdentifierInfo *Id,
   2027                    SourceLocation AtLocation,  SourceLocation LParenLocation,
   2028                    TypeSourceInfo *T)
   2029     : NamedDecl(ObjCProperty, DC, L, Id), AtLoc(AtLocation),
   2030       LParenLoc(LParenLocation), DeclType(T),
   2031       PropertyAttributes(OBJC_PR_noattr),
   2032       PropertyAttributesAsWritten(OBJC_PR_noattr),
   2033       PropertyImplementation(None),
   2034       GetterName(Selector()),
   2035       SetterName(Selector()),
   2036       GetterMethodDecl(0), SetterMethodDecl(0) , PropertyIvarDecl(0) {}
   2037 public:
   2038   static ObjCPropertyDecl *Create(ASTContext &C, DeclContext *DC,
   2039                                   SourceLocation L,
   2040                                   IdentifierInfo *Id, SourceLocation AtLocation,
   2041                                   SourceLocation LParenLocation,
   2042                                   TypeSourceInfo *T,
   2043                                   PropertyControl propControl = None);
   2044 
   2045   static ObjCPropertyDecl *CreateDeserialized(ASTContext &C, unsigned ID);
   2046 
   2047   SourceLocation getAtLoc() const { return AtLoc; }
   2048   void setAtLoc(SourceLocation L) { AtLoc = L; }
   2049 
   2050   SourceLocation getLParenLoc() const { return LParenLoc; }
   2051   void setLParenLoc(SourceLocation L) { LParenLoc = L; }
   2052 
   2053   TypeSourceInfo *getTypeSourceInfo() const { return DeclType; }
   2054   QualType getType() const { return DeclType->getType(); }
   2055   void setType(TypeSourceInfo *T) { DeclType = T; }
   2056 
   2057   PropertyAttributeKind getPropertyAttributes() const {
   2058     return PropertyAttributeKind(PropertyAttributes);
   2059   }
   2060   void setPropertyAttributes(PropertyAttributeKind PRVal) {
   2061     PropertyAttributes |= PRVal;
   2062   }
   2063 
   2064   PropertyAttributeKind getPropertyAttributesAsWritten() const {
   2065     return PropertyAttributeKind(PropertyAttributesAsWritten);
   2066   }
   2067 
   2068   bool hasWrittenStorageAttribute() const {
   2069     return PropertyAttributesAsWritten & (OBJC_PR_assign | OBJC_PR_copy |
   2070         OBJC_PR_unsafe_unretained | OBJC_PR_retain | OBJC_PR_strong |
   2071         OBJC_PR_weak);
   2072   }
   2073 
   2074   void setPropertyAttributesAsWritten(PropertyAttributeKind PRVal) {
   2075     PropertyAttributesAsWritten = PRVal;
   2076   }
   2077 
   2078  void makeitReadWriteAttribute() {
   2079     PropertyAttributes &= ~OBJC_PR_readonly;
   2080     PropertyAttributes |= OBJC_PR_readwrite;
   2081  }
   2082 
   2083   // Helper methods for accessing attributes.
   2084 
   2085   /// isReadOnly - Return true iff the property has a setter.
   2086   bool isReadOnly() const {
   2087     return (PropertyAttributes & OBJC_PR_readonly);
   2088   }
   2089 
   2090   /// isAtomic - Return true if the property is atomic.
   2091   bool isAtomic() const {
   2092     return (PropertyAttributes & OBJC_PR_atomic);
   2093   }
   2094 
   2095   /// isRetaining - Return true if the property retains its value.
   2096   bool isRetaining() const {
   2097     return (PropertyAttributes &
   2098             (OBJC_PR_retain | OBJC_PR_strong | OBJC_PR_copy));
   2099   }
   2100 
   2101   /// getSetterKind - Return the method used for doing assignment in
   2102   /// the property setter. This is only valid if the property has been
   2103   /// defined to have a setter.
   2104   SetterKind getSetterKind() const {
   2105     if (PropertyAttributes & OBJC_PR_strong)
   2106       return getType()->isBlockPointerType() ? Copy : Retain;
   2107     if (PropertyAttributes & OBJC_PR_retain)
   2108       return Retain;
   2109     if (PropertyAttributes & OBJC_PR_copy)
   2110       return Copy;
   2111     if (PropertyAttributes & OBJC_PR_weak)
   2112       return Weak;
   2113     return Assign;
   2114   }
   2115 
   2116   Selector getGetterName() const { return GetterName; }
   2117   void setGetterName(Selector Sel) { GetterName = Sel; }
   2118 
   2119   Selector getSetterName() const { return SetterName; }
   2120   void setSetterName(Selector Sel) { SetterName = Sel; }
   2121 
   2122   ObjCMethodDecl *getGetterMethodDecl() const { return GetterMethodDecl; }
   2123   void setGetterMethodDecl(ObjCMethodDecl *gDecl) { GetterMethodDecl = gDecl; }
   2124 
   2125   ObjCMethodDecl *getSetterMethodDecl() const { return SetterMethodDecl; }
   2126   void setSetterMethodDecl(ObjCMethodDecl *gDecl) { SetterMethodDecl = gDecl; }
   2127 
   2128   // Related to \@optional/\@required declared in \@protocol
   2129   void setPropertyImplementation(PropertyControl pc) {
   2130     PropertyImplementation = pc;
   2131   }
   2132   PropertyControl getPropertyImplementation() const {
   2133     return PropertyControl(PropertyImplementation);
   2134   }
   2135 
   2136   void setPropertyIvarDecl(ObjCIvarDecl *Ivar) {
   2137     PropertyIvarDecl = Ivar;
   2138   }
   2139   ObjCIvarDecl *getPropertyIvarDecl() const {
   2140     return PropertyIvarDecl;
   2141   }
   2142 
   2143   virtual SourceRange getSourceRange() const LLVM_READONLY {
   2144     return SourceRange(AtLoc, getLocation());
   2145   }
   2146 
   2147   /// Get the default name of the synthesized ivar.
   2148   IdentifierInfo *getDefaultSynthIvarName(ASTContext &Ctx) const;
   2149 
   2150   /// Lookup a property by name in the specified DeclContext.
   2151   static ObjCPropertyDecl *findPropertyDecl(const DeclContext *DC,
   2152                                             IdentifierInfo *propertyID);
   2153 
   2154   static bool classof(const Decl *D) { return classofKind(D->getKind()); }
   2155   static bool classofKind(Kind K) { return K == ObjCProperty; }
   2156 };
   2157 
   2158 /// ObjCPropertyImplDecl - Represents implementation declaration of a property
   2159 /// in a class or category implementation block. For example:
   2160 /// \@synthesize prop1 = ivar1;
   2161 ///
   2162 class ObjCPropertyImplDecl : public Decl {
   2163 public:
   2164   enum Kind {
   2165     Synthesize,
   2166     Dynamic
   2167   };
   2168 private:
   2169   SourceLocation AtLoc;   // location of \@synthesize or \@dynamic
   2170 
   2171   /// \brief For \@synthesize, the location of the ivar, if it was written in
   2172   /// the source code.
   2173   ///
   2174   /// \code
   2175   /// \@synthesize int a = b
   2176   /// \endcode
   2177   SourceLocation IvarLoc;
   2178 
   2179   /// Property declaration being implemented
   2180   ObjCPropertyDecl *PropertyDecl;
   2181 
   2182   /// Null for \@dynamic. Required for \@synthesize.
   2183   ObjCIvarDecl *PropertyIvarDecl;
   2184 
   2185   /// Null for \@dynamic. Non-null if property must be copy-constructed in
   2186   /// getter.
   2187   Expr *GetterCXXConstructor;
   2188 
   2189   /// Null for \@dynamic. Non-null if property has assignment operator to call
   2190   /// in Setter synthesis.
   2191   Expr *SetterCXXAssignment;
   2192 
   2193   ObjCPropertyImplDecl(DeclContext *DC, SourceLocation atLoc, SourceLocation L,
   2194                        ObjCPropertyDecl *property,
   2195                        Kind PK,
   2196                        ObjCIvarDecl *ivarDecl,
   2197                        SourceLocation ivarLoc)
   2198     : Decl(ObjCPropertyImpl, DC, L), AtLoc(atLoc),
   2199       IvarLoc(ivarLoc), PropertyDecl(property), PropertyIvarDecl(ivarDecl),
   2200       GetterCXXConstructor(0), SetterCXXAssignment(0) {
   2201     assert (PK == Dynamic || PropertyIvarDecl);
   2202   }
   2203 
   2204 public:
   2205   static ObjCPropertyImplDecl *Create(ASTContext &C, DeclContext *DC,
   2206                                       SourceLocation atLoc, SourceLocation L,
   2207                                       ObjCPropertyDecl *property,
   2208                                       Kind PK,
   2209                                       ObjCIvarDecl *ivarDecl,
   2210                                       SourceLocation ivarLoc);
   2211 
   2212   static ObjCPropertyImplDecl *CreateDeserialized(ASTContext &C, unsigned ID);
   2213 
   2214   virtual SourceRange getSourceRange() const LLVM_READONLY;
   2215 
   2216   SourceLocation getLocStart() const LLVM_READONLY { return AtLoc; }
   2217   void setAtLoc(SourceLocation Loc) { AtLoc = Loc; }
   2218 
   2219   ObjCPropertyDecl *getPropertyDecl() const {
   2220     return PropertyDecl;
   2221   }
   2222   void setPropertyDecl(ObjCPropertyDecl *Prop) { PropertyDecl = Prop; }
   2223 
   2224   Kind getPropertyImplementation() const {
   2225     return PropertyIvarDecl ? Synthesize : Dynamic;
   2226   }
   2227 
   2228   ObjCIvarDecl *getPropertyIvarDecl() const {
   2229     return PropertyIvarDecl;
   2230   }
   2231   SourceLocation getPropertyIvarDeclLoc() const { return IvarLoc; }
   2232 
   2233   void setPropertyIvarDecl(ObjCIvarDecl *Ivar,
   2234                            SourceLocation IvarLoc) {
   2235     PropertyIvarDecl = Ivar;
   2236     this->IvarLoc = IvarLoc;
   2237   }
   2238 
   2239   /// \brief For \@synthesize, returns true if an ivar name was explicitly
   2240   /// specified.
   2241   ///
   2242   /// \code
   2243   /// \@synthesize int a = b; // true
   2244   /// \@synthesize int a; // false
   2245   /// \endcode
   2246   bool isIvarNameSpecified() const {
   2247     return IvarLoc.isValid() && IvarLoc != getLocation();
   2248   }
   2249 
   2250   Expr *getGetterCXXConstructor() const {
   2251     return GetterCXXConstructor;
   2252   }
   2253   void setGetterCXXConstructor(Expr *getterCXXConstructor) {
   2254     GetterCXXConstructor = getterCXXConstructor;
   2255   }
   2256 
   2257   Expr *getSetterCXXAssignment() const {
   2258     return SetterCXXAssignment;
   2259   }
   2260   void setSetterCXXAssignment(Expr *setterCXXAssignment) {
   2261     SetterCXXAssignment = setterCXXAssignment;
   2262   }
   2263 
   2264   static bool classof(const Decl *D) { return classofKind(D->getKind()); }
   2265   static bool classofKind(Decl::Kind K) { return K == ObjCPropertyImpl; }
   2266 
   2267   friend class ASTDeclReader;
   2268 };
   2269 
   2270 template<bool (*Filter)(ObjCCategoryDecl *)>
   2271 void
   2272 ObjCInterfaceDecl::filtered_category_iterator<Filter>::
   2273 findAcceptableCategory() {
   2274   while (Current && !Filter(Current))
   2275     Current = Current->getNextClassCategoryRaw();
   2276 }
   2277 
   2278 template<bool (*Filter)(ObjCCategoryDecl *)>
   2279 inline ObjCInterfaceDecl::filtered_category_iterator<Filter> &
   2280 ObjCInterfaceDecl::filtered_category_iterator<Filter>::operator++() {
   2281   Current = Current->getNextClassCategoryRaw();
   2282   findAcceptableCategory();
   2283   return *this;
   2284 }
   2285 
   2286 inline bool ObjCInterfaceDecl::isVisibleCategory(ObjCCategoryDecl *Cat) {
   2287   return !Cat->isHidden();
   2288 }
   2289 
   2290 inline bool ObjCInterfaceDecl::isVisibleExtension(ObjCCategoryDecl *Cat) {
   2291   return Cat->IsClassExtension() && !Cat->isHidden();
   2292 }
   2293 
   2294 inline bool ObjCInterfaceDecl::isKnownExtension(ObjCCategoryDecl *Cat) {
   2295   return Cat->IsClassExtension();
   2296 }
   2297 
   2298 }  // end namespace clang
   2299 #endif
   2300