include/clang/AST/DeclarationName.h - clang - Git at Google

 //===-- DeclarationName.h - Representation of declaration names -*- C++ -*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 // This file declares the DeclarationName and DeclarationNameTable classes.
 //
 //===----------------------------------------------------------------------===//
 #ifndef LLVM_CLANG_AST_DECLARATIONNAME_H
 #define LLVM_CLANG_AST_DECLARATIONNAME_H

 #include "clang/Basic/IdentifierTable.h"
 #include "clang/AST/Type.h"
 #include "clang/AST/CanonicalType.h"
 #include "clang/Basic/PartialDiagnostic.h"

 namespace llvm {
   template <typename T> struct DenseMapInfo;
 }

 namespace clang {
   class CXXSpecialName;
   class CXXOperatorIdName;
   class CXXLiteralOperatorIdName;
   class DeclarationNameExtra;
   class IdentifierInfo;
   class MultiKeywordSelector;
   class UsingDirectiveDecl;

 /// DeclarationName - The name of a declaration. In the common case,
 /// this just stores an IdentifierInfo pointer to a normal
 /// name. However, it also provides encodings for Objective-C
 /// selectors (optimizing zero- and one-argument selectors, which make
 /// up 78% percent of all selectors in Cocoa.h) and special C++ names
 /// for constructors, destructors, and conversion functions.
 class DeclarationName {
 public:
   /// NameKind - The kind of name this object contains.
   enum NameKind {
     Identifier,
     ObjCZeroArgSelector,
     ObjCOneArgSelector,
     ObjCMultiArgSelector,
     CXXConstructorName,
     CXXDestructorName,
     CXXConversionFunctionName,
     CXXOperatorName,
     CXXLiteralOperatorName,
     CXXUsingDirective
   };

 private:
   /// StoredNameKind - The kind of name that is actually stored in the
   /// upper bits of the Ptr field. This is only used internally.
   enum StoredNameKind {
     StoredIdentifier = 0,
     StoredObjCZeroArgSelector,
     StoredObjCOneArgSelector,
     StoredDeclarationNameExtra,
     PtrMask = 0x03
   };

   /// Ptr - The lowest two bits are used to express what kind of name
   /// we're actually storing, using the values of NameKind. Depending
   /// on the kind of name this is, the upper bits of Ptr may have one
   /// of several different meanings:
   ///
   ///   StoredIdentifier - The name is a normal identifier, and Ptr is
   ///   a normal IdentifierInfo pointer.
   ///
   ///   StoredObjCZeroArgSelector - The name is an Objective-C
   ///   selector with zero arguments, and Ptr is an IdentifierInfo
   ///   pointer pointing to the selector name.
   ///
   ///   StoredObjCOneArgSelector - The name is an Objective-C selector
   ///   with one argument, and Ptr is an IdentifierInfo pointer
   ///   pointing to the selector name.
   ///
   ///   StoredDeclarationNameExtra - Ptr is actually a pointer to a
   ///   DeclarationNameExtra structure, whose first value will tell us
   ///   whether this is an Objective-C selector, C++ operator-id name,
   ///   or special C++ name.
   uintptr_t Ptr;

   /// getStoredNameKind - Return the kind of object that is stored in
   /// Ptr.
   StoredNameKind getStoredNameKind() const {
     return static_cast<StoredNameKind>(Ptr & PtrMask);
   }

   /// getExtra - Get the "extra" information associated with this
   /// multi-argument selector or C++ special name.
   DeclarationNameExtra *getExtra() const {
     assert(getStoredNameKind() == StoredDeclarationNameExtra &&
            "Declaration name does not store an Extra structure");
     return reinterpret_cast<DeclarationNameExtra *>(Ptr & ~PtrMask);
   }

   /// getAsCXXSpecialName - If the stored pointer is actually a
   /// CXXSpecialName, returns a pointer to it. Otherwise, returns
   /// a NULL pointer.
   CXXSpecialName *getAsCXXSpecialName() const {
     if (getNameKind() >= CXXConstructorName &&
         getNameKind() <= CXXConversionFunctionName)
       return reinterpret_cast<CXXSpecialName *>(Ptr & ~PtrMask);
     return 0;
   }

   /// getAsCXXOperatorIdName
   CXXOperatorIdName *getAsCXXOperatorIdName() const {
     if (getNameKind() == CXXOperatorName)
       return reinterpret_cast<CXXOperatorIdName *>(Ptr & ~PtrMask);
     return 0;
   }

   CXXLiteralOperatorIdName *getAsCXXLiteralOperatorIdName() const {
     if (getNameKind() == CXXLiteralOperatorName)
       return reinterpret_cast<CXXLiteralOperatorIdName *>(Ptr & ~PtrMask);
     return 0;
   }

   // Construct a declaration name from the name of a C++ constructor,
   // destructor, or conversion function.
   DeclarationName(CXXSpecialName *Name)
     : Ptr(reinterpret_cast<uintptr_t>(Name)) {
     assert((Ptr & PtrMask) == 0 && "Improperly aligned CXXSpecialName");
     Ptr |= StoredDeclarationNameExtra;
   }

   // Construct a declaration name from the name of a C++ overloaded
   // operator.
   DeclarationName(CXXOperatorIdName *Name)
     : Ptr(reinterpret_cast<uintptr_t>(Name)) {
     assert((Ptr & PtrMask) == 0 && "Improperly aligned CXXOperatorId");
     Ptr |= StoredDeclarationNameExtra;
   }

   DeclarationName(CXXLiteralOperatorIdName *Name)
     : Ptr(reinterpret_cast<uintptr_t>(Name)) {
     assert((Ptr & PtrMask) == 0 && "Improperly aligned CXXLiteralOperatorId");
     Ptr |= StoredDeclarationNameExtra;
   }

   /// Construct a declaration name from a raw pointer.
   DeclarationName(uintptr_t Ptr) : Ptr(Ptr) { }

   friend class DeclarationNameTable;
   friend class NamedDecl;

   /// getFETokenInfoAsVoid - Retrieves the front end-specified pointer
   /// for this name as a void pointer.
   void *getFETokenInfoAsVoid() const;

 public:
   /// DeclarationName - Used to create an empty selector.
   DeclarationName() : Ptr(0) { }

   // Construct a declaration name from an IdentifierInfo *.
   DeclarationName(const IdentifierInfo *II)
     : Ptr(reinterpret_cast<uintptr_t>(II)) {
     assert((Ptr & PtrMask) == 0 && "Improperly aligned IdentifierInfo");
   }

   // Construct a declaration name from an Objective-C selector.
   DeclarationName(Selector Sel);

   /// getUsingDirectiveName - Return name for all using-directives.
   static DeclarationName getUsingDirectiveName();

   // operator bool() - Evaluates true when this declaration name is
   // non-empty.
   operator bool() const {
     return ((Ptr & PtrMask) != 0) ||
            (reinterpret_cast<IdentifierInfo *>(Ptr & ~PtrMask));
   }

   /// Predicate functions for querying what type of name this is.
   bool isIdentifier() const { return getStoredNameKind() == StoredIdentifier; }
   bool isObjCZeroArgSelector() const {
     return getStoredNameKind() == StoredObjCZeroArgSelector;
   }
   bool isObjCOneArgSelector() const {
     return getStoredNameKind() == StoredObjCOneArgSelector;
   }

   /// getNameKind - Determine what kind of name this is.
   NameKind getNameKind() const;

   /// \brief Determines whether the name itself is dependent, e.g., because it
   /// involves a C++ type that is itself dependent.
   ///
   /// Note that this does not capture all of the notions of "dependent name",
   /// because an identifier can be a dependent name if it is used as the
   /// callee in a call expression with dependent arguments.
   bool isDependentName() const;

   /// getName - Retrieve the human-readable string for this name.
   std::string getAsString() const;

   /// getAsIdentifierInfo - Retrieve the IdentifierInfo * stored in
   /// this declaration name, or NULL if this declaration name isn't a
   /// simple identifier.
   IdentifierInfo *getAsIdentifierInfo() const {
     if (isIdentifier())
       return reinterpret_cast<IdentifierInfo *>(Ptr);
     return 0;
   }

   /// getAsOpaqueInteger - Get the representation of this declaration
   /// name as an opaque integer.
   uintptr_t getAsOpaqueInteger() const { return Ptr; }

   /// getAsOpaquePtr - Get the representation of this declaration name as
   /// an opaque pointer.
   void *getAsOpaquePtr() const { return reinterpret_cast<void*>(Ptr); }

   static DeclarationName getFromOpaquePtr(void *P) {
     DeclarationName N;
     N.Ptr = reinterpret_cast<uintptr_t> (P);
     return N;
   }

   static DeclarationName getFromOpaqueInteger(uintptr_t P) {
     DeclarationName N;
     N.Ptr = P;
     return N;
   }

   /// getCXXNameType - If this name is one of the C++ names (of a
   /// constructor, destructor, or conversion function), return the
   /// type associated with that name.
   QualType getCXXNameType() const;

   /// getCXXOverloadedOperator - If this name is the name of an
   /// overloadable operator in C++ (e.g., @c operator+), retrieve the
   /// kind of overloaded operator.
   OverloadedOperatorKind getCXXOverloadedOperator() const;

   /// getCXXLiteralIdentifier - If this name is the name of a literal
   /// operator, retrieve the identifier associated with it.
   IdentifierInfo *getCXXLiteralIdentifier() const;

   /// getObjCSelector - Get the Objective-C selector stored in this
   /// declaration name.
   Selector getObjCSelector() const;

   /// getFETokenInfo/setFETokenInfo - The language front-end is
   /// allowed to associate arbitrary metadata with some kinds of
   /// declaration names, including normal identifiers and C++
   /// constructors, destructors, and conversion functions.
   template<typename T>
   T *getFETokenInfo() const { return static_cast<T*>(getFETokenInfoAsVoid()); }

   void setFETokenInfo(void *T);

   /// operator== - Determine whether the specified names are identical..
   friend bool operator==(DeclarationName LHS, DeclarationName RHS) {
     return LHS.Ptr == RHS.Ptr;
   }

   /// operator!= - Determine whether the specified names are different.
   friend bool operator!=(DeclarationName LHS, DeclarationName RHS) {
     return LHS.Ptr != RHS.Ptr;
   }

   static DeclarationName getEmptyMarker() {
     return DeclarationName(uintptr_t(-1));
   }

   static DeclarationName getTombstoneMarker() {
     return DeclarationName(uintptr_t(-2));
   }

   static int compare(DeclarationName LHS, DeclarationName RHS);

   void dump() const;
 };

 /// Ordering on two declaration names. If both names are identifiers,
 /// this provides a lexicographical ordering.
 inline bool operator<(DeclarationName LHS, DeclarationName RHS) {
   return DeclarationName::compare(LHS, RHS) < 0;
 }

 /// Ordering on two declaration names. If both names are identifiers,
 /// this provides a lexicographical ordering.
 inline bool operator>(DeclarationName LHS, DeclarationName RHS) {
   return DeclarationName::compare(LHS, RHS) > 0;
 }

 /// Ordering on two declaration names. If both names are identifiers,
 /// this provides a lexicographical ordering.
 inline bool operator<=(DeclarationName LHS, DeclarationName RHS) {
   return DeclarationName::compare(LHS, RHS) <= 0;
 }

 /// Ordering on two declaration names. If both names are identifiers,
 /// this provides a lexicographical ordering.
 inline bool operator>=(DeclarationName LHS, DeclarationName RHS) {
   return DeclarationName::compare(LHS, RHS) >= 0;
 }

 /// DeclarationNameTable - Used to store and retrieve DeclarationName
 /// instances for the various kinds of declaration names, e.g., normal
 /// identifiers, C++ constructor names, etc. This class contains
 /// uniqued versions of each of the C++ special names, which can be
 /// retrieved using its member functions (e.g.,
 /// getCXXConstructorName).
 class DeclarationNameTable {
   void *CXXSpecialNamesImpl; // Actually a FoldingSet<CXXSpecialName> *
   CXXOperatorIdName *CXXOperatorNames; // Operator names
   void *CXXLiteralOperatorNames; // Actually a FoldingSet<...> *

   DeclarationNameTable(const DeclarationNameTable&);            // NONCOPYABLE
   DeclarationNameTable& operator=(const DeclarationNameTable&); // NONCOPYABLE

 public:
   DeclarationNameTable();
   ~DeclarationNameTable();

   /// getIdentifier - Create a declaration name that is a simple
   /// identifier.
   DeclarationName getIdentifier(const IdentifierInfo *ID) {
     return DeclarationName(ID);
   }

   /// getCXXConstructorName - Returns the name of a C++ constructor
   /// for the given Type.
   DeclarationName getCXXConstructorName(CanQualType Ty) {
     return getCXXSpecialName(DeclarationName::CXXConstructorName, Ty);
   }

   /// getCXXDestructorName - Returns the name of a C++ destructor
   /// for the given Type.
   DeclarationName getCXXDestructorName(CanQualType Ty) {
     return getCXXSpecialName(DeclarationName::CXXDestructorName, Ty);
   }

   /// getCXXConversionFunctionName - Returns the name of a C++
   /// conversion function for the given Type.
   DeclarationName getCXXConversionFunctionName(CanQualType Ty) {
     return getCXXSpecialName(DeclarationName::CXXConversionFunctionName, Ty);
   }

   /// getCXXSpecialName - Returns a declaration name for special kind
   /// of C++ name, e.g., for a constructor, destructor, or conversion
   /// function.
   DeclarationName getCXXSpecialName(DeclarationName::NameKind Kind,
                                     CanQualType Ty);

   /// getCXXOperatorName - Get the name of the overloadable C++
   /// operator corresponding to Op.
   DeclarationName getCXXOperatorName(OverloadedOperatorKind Op);

   /// getCXXLiteralOperatorName - Get the name of the literal operator function
   /// with II as the identifier.
   DeclarationName getCXXLiteralOperatorName(IdentifierInfo *II);
 };

 /// Insertion operator for diagnostics.  This allows sending DeclarationName's
 /// into a diagnostic with <<.
 inline const DiagnosticBuilder &operator<<(const DiagnosticBuilder &DB,
                                            DeclarationName N) {
   DB.AddTaggedVal(N.getAsOpaqueInteger(),
                   Diagnostic::ak_declarationname);
   return DB;
 }

 /// Insertion operator for partial diagnostics.  This allows binding
 /// DeclarationName's into a partial diagnostic with <<.
 inline const PartialDiagnostic &operator<<(const PartialDiagnostic &PD,
                                            DeclarationName N) {
   PD.AddTaggedVal(N.getAsOpaqueInteger(),
                   Diagnostic::ak_declarationname);
   return PD;
 }

 }  // end namespace clang

 namespace llvm {
 /// Define DenseMapInfo so that DeclarationNames can be used as keys
 /// in DenseMap and DenseSets.
 template<>
 struct DenseMapInfo<clang::DeclarationName> {
   static inline clang::DeclarationName getEmptyKey() {
     return clang::DeclarationName::getEmptyMarker();
   }

   static inline clang::DeclarationName getTombstoneKey() {
     return clang::DeclarationName::getTombstoneMarker();
   }

   static unsigned getHashValue(clang::DeclarationName);

   static inline bool
   isEqual(clang::DeclarationName LHS, clang::DeclarationName RHS) {
     return LHS == RHS;
   }
 };

 template <>
 struct isPodLike<clang::DeclarationName> { static const bool value = true; };

 }  // end namespace llvm

 #endif
	//===-- DeclarationName.h - Representation of declaration names -- C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// This file declares the DeclarationName and DeclarationNameTable classes.
	//
	//===----------------------------------------------------------------------===//
	#ifndef LLVM_CLANG_AST_DECLARATIONNAME_H
	#define LLVM_CLANG_AST_DECLARATIONNAME_H

	#include "clang/Basic/IdentifierTable.h"
	#include "clang/AST/Type.h"
	#include "clang/AST/CanonicalType.h"
	#include "clang/Basic/PartialDiagnostic.h"

	namespace llvm {
	template <typename T> struct DenseMapInfo;
	}

	namespace clang {
	class CXXSpecialName;
	class CXXOperatorIdName;
	class CXXLiteralOperatorIdName;
	class DeclarationNameExtra;
	class IdentifierInfo;
	class MultiKeywordSelector;
	class UsingDirectiveDecl;

	/// DeclarationName - The name of a declaration. In the common case,
	/// this just stores an IdentifierInfo pointer to a normal
	/// name. However, it also provides encodings for Objective-C
	/// selectors (optimizing zero- and one-argument selectors, which make
	/// up 78% percent of all selectors in Cocoa.h) and special C++ names
	/// for constructors, destructors, and conversion functions.
	class DeclarationName {
	public:
	/// NameKind - The kind of name this object contains.
	enum NameKind {
	Identifier,
	ObjCZeroArgSelector,
	ObjCOneArgSelector,
	ObjCMultiArgSelector,
	CXXConstructorName,
	CXXDestructorName,
	CXXConversionFunctionName,
	CXXOperatorName,
	CXXLiteralOperatorName,
	CXXUsingDirective
	};

	private:
	/// StoredNameKind - The kind of name that is actually stored in the
	/// upper bits of the Ptr field. This is only used internally.
	enum StoredNameKind {
	StoredIdentifier = 0,
	StoredObjCZeroArgSelector,
	StoredObjCOneArgSelector,
	StoredDeclarationNameExtra,
	PtrMask = 0x03
	};

	/// Ptr - The lowest two bits are used to express what kind of name
	/// we're actually storing, using the values of NameKind. Depending
	/// on the kind of name this is, the upper bits of Ptr may have one
	/// of several different meanings:
	///
	/// StoredIdentifier - The name is a normal identifier, and Ptr is
	/// a normal IdentifierInfo pointer.
	///
	/// StoredObjCZeroArgSelector - The name is an Objective-C
	/// selector with zero arguments, and Ptr is an IdentifierInfo
	/// pointer pointing to the selector name.
	///
	/// StoredObjCOneArgSelector - The name is an Objective-C selector
	/// with one argument, and Ptr is an IdentifierInfo pointer
	/// pointing to the selector name.
	///
	/// StoredDeclarationNameExtra - Ptr is actually a pointer to a
	/// DeclarationNameExtra structure, whose first value will tell us
	/// whether this is an Objective-C selector, C++ operator-id name,
	/// or special C++ name.
	uintptr_t Ptr;

	/// getStoredNameKind - Return the kind of object that is stored in
	/// Ptr.
	StoredNameKind getStoredNameKind() const {
	return static_cast<StoredNameKind>(Ptr & PtrMask);
	}

	/// getExtra - Get the "extra" information associated with this
	/// multi-argument selector or C++ special name.
	DeclarationNameExtra *getExtra() const {
	assert(getStoredNameKind() == StoredDeclarationNameExtra &&
	"Declaration name does not store an Extra structure");
	return reinterpret_cast<DeclarationNameExtra *>(Ptr & ~PtrMask);
	}

	/// getAsCXXSpecialName - If the stored pointer is actually a
	/// CXXSpecialName, returns a pointer to it. Otherwise, returns
	/// a NULL pointer.
	CXXSpecialName *getAsCXXSpecialName() const {
	if (getNameKind() >= CXXConstructorName &&
	getNameKind() <= CXXConversionFunctionName)
	return reinterpret_cast<CXXSpecialName *>(Ptr & ~PtrMask);
	return 0;
	}

	/// getAsCXXOperatorIdName
	CXXOperatorIdName *getAsCXXOperatorIdName() const {
	if (getNameKind() == CXXOperatorName)
	return reinterpret_cast<CXXOperatorIdName *>(Ptr & ~PtrMask);
	return 0;
	}

	CXXLiteralOperatorIdName *getAsCXXLiteralOperatorIdName() const {
	if (getNameKind() == CXXLiteralOperatorName)
	return reinterpret_cast<CXXLiteralOperatorIdName *>(Ptr & ~PtrMask);
	return 0;
	}

	// Construct a declaration name from the name of a C++ constructor,
	// destructor, or conversion function.
	DeclarationName(CXXSpecialName *Name)
	: Ptr(reinterpret_cast<uintptr_t>(Name)) {
	assert((Ptr & PtrMask) == 0 && "Improperly aligned CXXSpecialName");
	Ptr \|= StoredDeclarationNameExtra;
	}

	// Construct a declaration name from the name of a C++ overloaded
	// operator.
	DeclarationName(CXXOperatorIdName *Name)
	: Ptr(reinterpret_cast<uintptr_t>(Name)) {
	assert((Ptr & PtrMask) == 0 && "Improperly aligned CXXOperatorId");
	Ptr \|= StoredDeclarationNameExtra;
	}

	DeclarationName(CXXLiteralOperatorIdName *Name)
	: Ptr(reinterpret_cast<uintptr_t>(Name)) {
	assert((Ptr & PtrMask) == 0 && "Improperly aligned CXXLiteralOperatorId");
	Ptr \|= StoredDeclarationNameExtra;
	}

	/// Construct a declaration name from a raw pointer.
	DeclarationName(uintptr_t Ptr) : Ptr(Ptr) { }

	friend class DeclarationNameTable;
	friend class NamedDecl;

	/// getFETokenInfoAsVoid - Retrieves the front end-specified pointer
	/// for this name as a void pointer.
	void *getFETokenInfoAsVoid() const;

	public:
	/// DeclarationName - Used to create an empty selector.
	DeclarationName() : Ptr(0) { }

	// Construct a declaration name from an IdentifierInfo *.
	DeclarationName(const IdentifierInfo *II)
	: Ptr(reinterpret_cast<uintptr_t>(II)) {
	assert((Ptr & PtrMask) == 0 && "Improperly aligned IdentifierInfo");
	}

	// Construct a declaration name from an Objective-C selector.
	DeclarationName(Selector Sel);

	/// getUsingDirectiveName - Return name for all using-directives.
	static DeclarationName getUsingDirectiveName();

	// operator bool() - Evaluates true when this declaration name is
	// non-empty.
	operator bool() const {
	return ((Ptr & PtrMask) != 0) \|\|
	(reinterpret_cast<IdentifierInfo *>(Ptr & ~PtrMask));
	}

	/// Predicate functions for querying what type of name this is.
	bool isIdentifier() const { return getStoredNameKind() == StoredIdentifier; }
	bool isObjCZeroArgSelector() const {
	return getStoredNameKind() == StoredObjCZeroArgSelector;
	}
	bool isObjCOneArgSelector() const {
	return getStoredNameKind() == StoredObjCOneArgSelector;
	}

	/// getNameKind - Determine what kind of name this is.
	NameKind getNameKind() const;

	/// \brief Determines whether the name itself is dependent, e.g., because it
	/// involves a C++ type that is itself dependent.
	///
	/// Note that this does not capture all of the notions of "dependent name",
	/// because an identifier can be a dependent name if it is used as the
	/// callee in a call expression with dependent arguments.
	bool isDependentName() const;

	/// getName - Retrieve the human-readable string for this name.
	std::string getAsString() const;

	/// getAsIdentifierInfo - Retrieve the IdentifierInfo * stored in
	/// this declaration name, or NULL if this declaration name isn't a
	/// simple identifier.
	IdentifierInfo *getAsIdentifierInfo() const {
	if (isIdentifier())
	return reinterpret_cast<IdentifierInfo *>(Ptr);
	return 0;
	}

	/// getAsOpaqueInteger - Get the representation of this declaration
	/// name as an opaque integer.
	uintptr_t getAsOpaqueInteger() const { return Ptr; }

	/// getAsOpaquePtr - Get the representation of this declaration name as
	/// an opaque pointer.
	void getAsOpaquePtr() const { return reinterpret_cast<void>(Ptr); }

	static DeclarationName getFromOpaquePtr(void *P) {
	DeclarationName N;
	N.Ptr = reinterpret_cast<uintptr_t> (P);
	return N;
	}

	static DeclarationName getFromOpaqueInteger(uintptr_t P) {
	DeclarationName N;
	N.Ptr = P;
	return N;
	}

	/// getCXXNameType - If this name is one of the C++ names (of a
	/// constructor, destructor, or conversion function), return the
	/// type associated with that name.
	QualType getCXXNameType() const;

	/// getCXXOverloadedOperator - If this name is the name of an
	/// overloadable operator in C++ (e.g., @c operator+), retrieve the
	/// kind of overloaded operator.
	OverloadedOperatorKind getCXXOverloadedOperator() const;

	/// getCXXLiteralIdentifier - If this name is the name of a literal
	/// operator, retrieve the identifier associated with it.
	IdentifierInfo *getCXXLiteralIdentifier() const;

	/// getObjCSelector - Get the Objective-C selector stored in this
	/// declaration name.
	Selector getObjCSelector() const;

	/// getFETokenInfo/setFETokenInfo - The language front-end is
	/// allowed to associate arbitrary metadata with some kinds of
	/// declaration names, including normal identifiers and C++
	/// constructors, destructors, and conversion functions.
	template<typename T>
	T getFETokenInfo() const { return static_cast<T>(getFETokenInfoAsVoid()); }

	void setFETokenInfo(void *T);

	/// operator== - Determine whether the specified names are identical..
	friend bool operator==(DeclarationName LHS, DeclarationName RHS) {
	return LHS.Ptr == RHS.Ptr;
	}

	/// operator!= - Determine whether the specified names are different.
	friend bool operator!=(DeclarationName LHS, DeclarationName RHS) {
	return LHS.Ptr != RHS.Ptr;
	}

	static DeclarationName getEmptyMarker() {
	return DeclarationName(uintptr_t(-1));
	}

	static DeclarationName getTombstoneMarker() {
	return DeclarationName(uintptr_t(-2));
	}

	static int compare(DeclarationName LHS, DeclarationName RHS);

	void dump() const;
	};

	/// Ordering on two declaration names. If both names are identifiers,
	/// this provides a lexicographical ordering.
	inline bool operator<(DeclarationName LHS, DeclarationName RHS) {
	return DeclarationName::compare(LHS, RHS) < 0;
	}

	/// Ordering on two declaration names. If both names are identifiers,
	/// this provides a lexicographical ordering.
	inline bool operator>(DeclarationName LHS, DeclarationName RHS) {
	return DeclarationName::compare(LHS, RHS) > 0;
	}

	/// Ordering on two declaration names. If both names are identifiers,
	/// this provides a lexicographical ordering.
	inline bool operator<=(DeclarationName LHS, DeclarationName RHS) {
	return DeclarationName::compare(LHS, RHS) <= 0;
	}

	/// Ordering on two declaration names. If both names are identifiers,
	/// this provides a lexicographical ordering.
	inline bool operator>=(DeclarationName LHS, DeclarationName RHS) {
	return DeclarationName::compare(LHS, RHS) >= 0;
	}

	/// DeclarationNameTable - Used to store and retrieve DeclarationName
	/// instances for the various kinds of declaration names, e.g., normal
	/// identifiers, C++ constructor names, etc. This class contains
	/// uniqued versions of each of the C++ special names, which can be
	/// retrieved using its member functions (e.g.,
	/// getCXXConstructorName).
	class DeclarationNameTable {
	void CXXSpecialNamesImpl; // Actually a FoldingSet<CXXSpecialName>
	CXXOperatorIdName *CXXOperatorNames; // Operator names
	void CXXLiteralOperatorNames; // Actually a FoldingSet<...>

	DeclarationNameTable(const DeclarationNameTable&); // NONCOPYABLE
	DeclarationNameTable& operator=(const DeclarationNameTable&); // NONCOPYABLE

	public:
	DeclarationNameTable();
	~DeclarationNameTable();

	/// getIdentifier - Create a declaration name that is a simple
	/// identifier.
	DeclarationName getIdentifier(const IdentifierInfo *ID) {
	return DeclarationName(ID);
	}

	/// getCXXConstructorName - Returns the name of a C++ constructor
	/// for the given Type.
	DeclarationName getCXXConstructorName(CanQualType Ty) {
	return getCXXSpecialName(DeclarationName::CXXConstructorName, Ty);
	}

	/// getCXXDestructorName - Returns the name of a C++ destructor
	/// for the given Type.
	DeclarationName getCXXDestructorName(CanQualType Ty) {
	return getCXXSpecialName(DeclarationName::CXXDestructorName, Ty);
	}

	/// getCXXConversionFunctionName - Returns the name of a C++
	/// conversion function for the given Type.
	DeclarationName getCXXConversionFunctionName(CanQualType Ty) {
	return getCXXSpecialName(DeclarationName::CXXConversionFunctionName, Ty);
	}

	/// getCXXSpecialName - Returns a declaration name for special kind
	/// of C++ name, e.g., for a constructor, destructor, or conversion
	/// function.
	DeclarationName getCXXSpecialName(DeclarationName::NameKind Kind,
	CanQualType Ty);

	/// getCXXOperatorName - Get the name of the overloadable C++
	/// operator corresponding to Op.
	DeclarationName getCXXOperatorName(OverloadedOperatorKind Op);

	/// getCXXLiteralOperatorName - Get the name of the literal operator function
	/// with II as the identifier.
	DeclarationName getCXXLiteralOperatorName(IdentifierInfo *II);
	};

	/// Insertion operator for diagnostics. This allows sending DeclarationName's
	/// into a diagnostic with <<.
	inline const DiagnosticBuilder &operator<<(const DiagnosticBuilder &DB,
	DeclarationName N) {
	DB.AddTaggedVal(N.getAsOpaqueInteger(),
	Diagnostic::ak_declarationname);
	return DB;
	}

	/// Insertion operator for partial diagnostics. This allows binding
	/// DeclarationName's into a partial diagnostic with <<.
	inline const PartialDiagnostic &operator<<(const PartialDiagnostic &PD,
	DeclarationName N) {
	PD.AddTaggedVal(N.getAsOpaqueInteger(),
	Diagnostic::ak_declarationname);
	return PD;
	}

	} // end namespace clang

	namespace llvm {
	/// Define DenseMapInfo so that DeclarationNames can be used as keys
	/// in DenseMap and DenseSets.
	template<>
	struct DenseMapInfo<clang::DeclarationName> {
	static inline clang::DeclarationName getEmptyKey() {
	return clang::DeclarationName::getEmptyMarker();
	}

	static inline clang::DeclarationName getTombstoneKey() {
	return clang::DeclarationName::getTombstoneMarker();
	}

	static unsigned getHashValue(clang::DeclarationName);

	static inline bool
	isEqual(clang::DeclarationName LHS, clang::DeclarationName RHS) {
	return LHS == RHS;
	}
	};

	template <>
	struct isPodLike<clang::DeclarationName> { static const bool value = true; };

	} // end namespace llvm

	#endif