Lex/IdentifierTable.cpp - platform/external/clang - Gitiles

 //===--- IdentifierTable.cpp - Hash table for identifier lookup -----------===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file was developed by Chris Lattner and is distributed under
 // the University of Illinois Open Source License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 // This file implements the IdentifierInfo, IdentifierVisitor, and
 // IdentifierTable interfaces.
 //
 //===----------------------------------------------------------------------===//

 #include "clang/Lex/IdentifierTable.h"
 #include "clang/Lex/MacroInfo.h"
 #include "clang/Basic/LangOptions.h"
 #include "llvm/ADT/FoldingSet.h"
 using namespace clang;

 //===----------------------------------------------------------------------===//
 // Token Implementation
 //===----------------------------------------------------------------------===//

 /// isObjCAtKeyword - Return true if we have an ObjC keyword identifier.
 bool Token::isObjCAtKeyword(tok::ObjCKeywordKind objcKey) const {
   return getKind() == tok::identifier &&
          getIdentifierInfo()->getObjCKeywordID() == objcKey;
 }

 /// getObjCKeywordID - Return the ObjC keyword kind.
 tok::ObjCKeywordKind Token::getObjCKeywordID() const {
   IdentifierInfo *specId = getIdentifierInfo();
   return specId ? specId->getObjCKeywordID() : tok::objc_not_keyword;
 }

 //===----------------------------------------------------------------------===//
 // IdentifierInfo Implementation
 //===----------------------------------------------------------------------===//

 IdentifierInfo::IdentifierInfo() {
   Macro = 0;
   TokenID = tok::identifier;
   PPID = tok::pp_not_keyword;
   ObjCID = tok::objc_not_keyword;
   BuiltinID = 0;
   IsExtension = false;
   IsPoisoned = false;
   IsOtherTargetMacro = false;
   IsCPPOperatorKeyword = false;
   IsNonPortableBuiltin = false;
   FETokenInfo = 0;
 }

 IdentifierInfo::~IdentifierInfo() {
   delete Macro;
 }

 //===----------------------------------------------------------------------===//
 // IdentifierTable Implementation
 //===----------------------------------------------------------------------===//

 IdentifierTable::IdentifierTable(const LangOptions &LangOpts)
   // Start with space for 8K identifiers.
   : HashTable(8192) {

   // Populate the identifier table with info about keywords for the current
   // language.
   AddKeywords(LangOpts);
 }

 //===----------------------------------------------------------------------===//
 // Language Keyword Implementation
 //===----------------------------------------------------------------------===//

 /// AddKeyword - This method is used to associate a token ID with specific
 /// identifiers because they are language keywords.  This causes the lexer to
 /// automatically map matching identifiers to specialized token codes.
 ///
 /// The C90/C99/CPP/CPP0x flags are set to 0 if the token should be
 /// enabled in the specified langauge, set to 1 if it is an extension
 /// in the specified language, and set to 2 if disabled in the
 /// specified language.
 static void AddKeyword(const char *Keyword, unsigned KWLen,
                        tok::TokenKind TokenCode,
                        int C90, int C99, int CXX, int CXX0x,
                        const LangOptions &LangOpts, IdentifierTable &Table) {
   int Flags = LangOpts.CPlusPlus ? (LangOpts.CPlusPlus0x? CXX0x : CXX)
                                  : (LangOpts.C99 ? C99 : C90);

   // Don't add this keyword if disabled in this language or if an extension
   // and extensions are disabled.
   if (Flags + LangOpts.NoExtensions >= 2) return;

   IdentifierInfo &Info = Table.get(Keyword, Keyword+KWLen);
   Info.setTokenID(TokenCode);
   Info.setIsExtensionToken(Flags == 1);
 }

 static void AddAlias(const char *Keyword, unsigned KWLen,
                      const char *AliaseeKeyword, unsigned AliaseeKWLen,
                      const LangOptions &LangOpts, IdentifierTable &Table) {
   IdentifierInfo &AliasInfo = Table.get(Keyword, Keyword+KWLen);
   IdentifierInfo &AliaseeInfo = Table.get(AliaseeKeyword,
                                           AliaseeKeyword+AliaseeKWLen);
   AliasInfo.setTokenID(AliaseeInfo.getTokenID());
   AliasInfo.setIsExtensionToken(AliaseeInfo.isExtensionToken());
 }

 /// AddPPKeyword - Register a preprocessor keyword like "define" "undef" or
 /// "elif".
 static void AddPPKeyword(tok::PPKeywordKind PPID,
                          const char *Name, unsigned NameLen,
                          IdentifierTable &Table) {
   Table.get(Name, Name+NameLen).setPPKeywordID(PPID);
 }

 /// AddCXXOperatorKeyword - Register a C++ operator keyword alternative
 /// representations.
 static void AddCXXOperatorKeyword(const char *Keyword, unsigned KWLen,
                                   tok::TokenKind TokenCode,
                                   IdentifierTable &Table) {
   IdentifierInfo &Info = Table.get(Keyword, Keyword + KWLen);
   Info.setTokenID(TokenCode);
   Info.setIsCPlusplusOperatorKeyword();
 }

 /// AddObjCKeyword - Register an Objective-C @keyword like "class" "selector" or
 /// "property".
 static void AddObjCKeyword(tok::ObjCKeywordKind ObjCID,
                            const char *Name, unsigned NameLen,
                            IdentifierTable &Table) {
   Table.get(Name, Name+NameLen).setObjCKeywordID(ObjCID);
 }

 /// AddKeywords - Add all keywords to the symbol table.
 ///
 void IdentifierTable::AddKeywords(const LangOptions &LangOpts) {
   enum {
     C90Shift = 0,
     EXTC90   = 1 << C90Shift,
     NOTC90   = 2 << C90Shift,
     C99Shift = 2,
     EXTC99   = 1 << C99Shift,
     NOTC99   = 2 << C99Shift,
     CPPShift = 4,
     EXTCPP   = 1 << CPPShift,
     NOTCPP   = 2 << CPPShift,
     CPP0xShift = 6,
     EXTCPP0x   = 1 << CPP0xShift,
     NOTCPP0x   = 2 << CPP0xShift,
     Mask     = 3
   };

   // Add keywords and tokens for the current language.
 #define KEYWORD(NAME, FLAGS) \
   AddKeyword(#NAME, strlen(#NAME), tok::kw_ ## NAME,  \
              ((FLAGS) >> C90Shift) & Mask, \
              ((FLAGS) >> C99Shift) & Mask, \
              ((FLAGS) >> CPPShift) & Mask, \
              ((FLAGS) >> CPP0xShift) & Mask, LangOpts, *this);
 #define ALIAS(NAME, TOK) \
   AddAlias(NAME, strlen(NAME), #TOK, strlen(#TOK), LangOpts, *this);
 #define PPKEYWORD(NAME) \
   AddPPKeyword(tok::pp_##NAME, #NAME, strlen(#NAME), *this);
 #define CXX_KEYWORD_OPERATOR(NAME, ALIAS) \
   if (LangOpts.CXXOperatorNames)          \
     AddCXXOperatorKeyword(#NAME, strlen(#NAME), tok::ALIAS, *this);
 #define OBJC1_AT_KEYWORD(NAME) \
   if (LangOpts.ObjC1)          \
     AddObjCKeyword(tok::objc_##NAME, #NAME, strlen(#NAME), *this);
 #define OBJC2_AT_KEYWORD(NAME) \
   if (LangOpts.ObjC2)          \
     AddObjCKeyword(tok::objc_##NAME, #NAME, strlen(#NAME), *this);
 #include "clang/Basic/TokenKinds.def"
 }


 //===----------------------------------------------------------------------===//
 // Stats Implementation
 //===----------------------------------------------------------------------===//

 /// PrintStats - Print statistics about how well the identifier table is doing
 /// at hashing identifiers.
 void IdentifierTable::PrintStats() const {
   unsigned NumBuckets = HashTable.getNumBuckets();
   unsigned NumIdentifiers = HashTable.getNumItems();
   unsigned NumEmptyBuckets = NumBuckets-NumIdentifiers;
   unsigned AverageIdentifierSize = 0;
   unsigned MaxIdentifierLength = 0;

   // TODO: Figure out maximum times an identifier had to probe for -stats.
   for (llvm::StringMap<IdentifierInfo, llvm::BumpPtrAllocator>::const_iterator
        I = HashTable.begin(), E = HashTable.end(); I != E; ++I) {
     unsigned IdLen = I->getKeyLength();
     AverageIdentifierSize += IdLen;
     if (MaxIdentifierLength < IdLen)
       MaxIdentifierLength = IdLen;
   }

   fprintf(stderr, "\n*** Identifier Table Stats:\n");
   fprintf(stderr, "# Identifiers:   %d\n", NumIdentifiers);
   fprintf(stderr, "# Empty Buckets: %d\n", NumEmptyBuckets);
   fprintf(stderr, "Hash density (#identifiers per bucket): %f\n",
           NumIdentifiers/(double)NumBuckets);
   fprintf(stderr, "Ave identifier length: %f\n",
           (AverageIdentifierSize/(double)NumIdentifiers));
   fprintf(stderr, "Max identifier length: %d\n", MaxIdentifierLength);

   // Compute statistics about the memory allocated for identifiers.
   HashTable.getAllocator().PrintStats();
 }

 //===----------------------------------------------------------------------===//
 // SelectorTable Implementation
 //===----------------------------------------------------------------------===//

 /// MultiKeywordSelector - One of these variable length records is kept for each
 /// selector containing more than one keyword. We use a folding set
 /// to unique aggregate names (keyword selectors in ObjC parlance). Access to
 /// this class is provided strictly through Selector.
 class MultiKeywordSelector : public llvm::FoldingSetNode {
 public:
   unsigned NumArgs;

   // Constructor for keyword selectors.
   MultiKeywordSelector(unsigned nKeys, IdentifierInfo **IIV) {
     assert((nKeys > 1) && "not a multi-keyword selector");
     NumArgs = nKeys;
     // Fill in the trailing keyword array.
     IdentifierInfo **KeyInfo = reinterpret_cast<IdentifierInfo **>(this+1);
     for (unsigned i = 0; i != nKeys; ++i)
       KeyInfo[i] = IIV[i];
   }
   // Derive the full selector name, placing the result into methodBuffer.
   // As a convenience, a pointer to the first character is returned.
   // Example usage: llvm::SmallString<128> mbuf; Selector->getName(mbuf);
   char *getName(llvm::SmallVectorImpl<char> &methodBuffer);

   unsigned getNumArgs() const { return NumArgs; }

   typedef IdentifierInfo *const *keyword_iterator;
   keyword_iterator keyword_begin() const {
     return reinterpret_cast<keyword_iterator>(this+1);
   }
   keyword_iterator keyword_end() const {
     return keyword_begin()+NumArgs;
   }
   IdentifierInfo *getIdentifierInfoForSlot(unsigned i) {
     assert((i < NumArgs) && "getIdentifierInfoForSlot(): illegal index");
     return keyword_begin()[i];
   }
   static void Profile(llvm::FoldingSetNodeID &ID,
                       keyword_iterator ArgTys, unsigned NumArgs) {
     ID.AddInteger(NumArgs);
     if (NumArgs) { // handle keyword selector.
       for (unsigned i = 0; i != NumArgs; ++i)
         ID.AddPointer(ArgTys[i]);
     } else // handle unary selector.
       ID.AddPointer(ArgTys[0]);
   }
   void Profile(llvm::FoldingSetNodeID &ID) {
     Profile(ID, keyword_begin(), NumArgs);
   }
 };

 unsigned Selector::getNumArgs() const {
   unsigned IIF = getIdentifierInfoFlag();
   if (IIF == ZeroArg)
     return 0;
   if (IIF == OneArg)
     return 1;
   // We point to a MultiKeywordSelector (pointer doesn't contain any flags).
   MultiKeywordSelector *SI = reinterpret_cast<MultiKeywordSelector *>(InfoPtr);
   return SI->getNumArgs();
 }

 IdentifierInfo *Selector::getIdentifierInfoForSlot(unsigned argIndex) {
   IdentifierInfo *II = getAsIdentifierInfo();
   if (II) {
     assert(((argIndex == 0) || (argIndex == 1)) && "illegal keyword index");
     return II;
   }
   // We point to a MultiKeywordSelector (pointer doesn't contain any flags).
   MultiKeywordSelector *SI = reinterpret_cast<MultiKeywordSelector *>(InfoPtr);
   return SI->getIdentifierInfoForSlot(argIndex);
 }

 char *MultiKeywordSelector::getName(llvm::SmallVectorImpl<char> &methodName) {
   methodName[0] = '\0';
   keyword_iterator KeyIter = keyword_begin();
   for (unsigned int i = 0; i < NumArgs; i++) {
     if (KeyIter[i]) {
       unsigned KeyLen = KeyIter[i]->getLength();
       methodName.append(KeyIter[i]->getName(), KeyIter[i]->getName()+KeyLen);
     }
     methodName.push_back(':');
   }
   methodName.push_back('\0');
   return &methodName[0];
 }

 char *Selector::getName(llvm::SmallVectorImpl<char> &methodName) {
   methodName[0] = '\0';
   IdentifierInfo *II = getAsIdentifierInfo();
   if (II) {
     unsigned NameLen = II->getLength();
     methodName.append(II->getName(), II->getName()+NameLen);
     if (getNumArgs() == 1)
       methodName.push_back(':');
     methodName.push_back('\0');
   } else { // We have a multiple keyword selector (no embedded flags).
     MultiKeywordSelector *SI = reinterpret_cast<MultiKeywordSelector *>(InfoPtr);
     SI->getName(methodName);
   }
   return &methodName[0];
 }


 Selector SelectorTable::getKeywordSelector(unsigned nKeys, IdentifierInfo **IIV)
 {
   llvm::FoldingSet<MultiKeywordSelector> *SelTab;

   SelTab = static_cast<llvm::FoldingSet<MultiKeywordSelector> *>(Impl);

   // Unique selector, to guarantee there is one per name.
   llvm::FoldingSetNodeID ID;
   MultiKeywordSelector::Profile(ID, IIV, nKeys);

   void *InsertPos = 0;
   if (MultiKeywordSelector *SI = SelTab->FindNodeOrInsertPos(ID, InsertPos)) {
     return Selector(SI);
   }
   // MultiKeywordSelector objects are not allocated with new because they have a
   // variable size array (for parameter types) at the end of them.
   MultiKeywordSelector *SI =
     (MultiKeywordSelector*)malloc(sizeof(MultiKeywordSelector) +
                                   nKeys*sizeof(IdentifierInfo *));
   new (SI) MultiKeywordSelector(nKeys, IIV);
   SelTab->InsertNode(SI, InsertPos);
   return Selector(SI);
 }

 Selector SelectorTable::getUnarySelector(IdentifierInfo *ID) {
   return Selector(ID, 1);
 }

 Selector SelectorTable::getNullarySelector(IdentifierInfo *ID) {
   return Selector(ID, 0);
 }

 SelectorTable::SelectorTable() {
   Impl = new llvm::FoldingSet<MultiKeywordSelector>;
 }

 SelectorTable::~SelectorTable() {
   delete static_cast<llvm::FoldingSet<MultiKeywordSelector> *>(Impl);
 }
	//===--- IdentifierTable.cpp - Hash table for identifier lookup -----------===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file was developed by Chris Lattner and is distributed under
	// the University of Illinois Open Source License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// This file implements the IdentifierInfo, IdentifierVisitor, and
	// IdentifierTable interfaces.
	//
	//===----------------------------------------------------------------------===//

	#include "clang/Lex/IdentifierTable.h"
	#include "clang/Lex/MacroInfo.h"
	#include "clang/Basic/LangOptions.h"
	#include "llvm/ADT/FoldingSet.h"
	using namespace clang;

	//===----------------------------------------------------------------------===//
	// Token Implementation
	//===----------------------------------------------------------------------===//

	/// isObjCAtKeyword - Return true if we have an ObjC keyword identifier.
	bool Token::isObjCAtKeyword(tok::ObjCKeywordKind objcKey) const {
	return getKind() == tok::identifier &&
	getIdentifierInfo()->getObjCKeywordID() == objcKey;
	}

	/// getObjCKeywordID - Return the ObjC keyword kind.
	tok::ObjCKeywordKind Token::getObjCKeywordID() const {
	IdentifierInfo *specId = getIdentifierInfo();
	return specId ? specId->getObjCKeywordID() : tok::objc_not_keyword;
	}

	//===----------------------------------------------------------------------===//
	// IdentifierInfo Implementation
	//===----------------------------------------------------------------------===//

	IdentifierInfo::IdentifierInfo() {
	Macro = 0;
	TokenID = tok::identifier;
	PPID = tok::pp_not_keyword;
	ObjCID = tok::objc_not_keyword;
	BuiltinID = 0;
	IsExtension = false;
	IsPoisoned = false;
	IsOtherTargetMacro = false;
	IsCPPOperatorKeyword = false;
	IsNonPortableBuiltin = false;
	FETokenInfo = 0;
	}

	IdentifierInfo::~IdentifierInfo() {
	delete Macro;
	}

	//===----------------------------------------------------------------------===//
	// IdentifierTable Implementation
	//===----------------------------------------------------------------------===//

	IdentifierTable::IdentifierTable(const LangOptions &LangOpts)
	// Start with space for 8K identifiers.
	: HashTable(8192) {

	// Populate the identifier table with info about keywords for the current
	// language.
	AddKeywords(LangOpts);
	}

	//===----------------------------------------------------------------------===//
	// Language Keyword Implementation
	//===----------------------------------------------------------------------===//

	/// AddKeyword - This method is used to associate a token ID with specific
	/// identifiers because they are language keywords. This causes the lexer to
	/// automatically map matching identifiers to specialized token codes.
	///
	/// The C90/C99/CPP/CPP0x flags are set to 0 if the token should be
	/// enabled in the specified langauge, set to 1 if it is an extension
	/// in the specified language, and set to 2 if disabled in the
	/// specified language.
	static void AddKeyword(const char *Keyword, unsigned KWLen,
	tok::TokenKind TokenCode,
	int C90, int C99, int CXX, int CXX0x,
	const LangOptions &LangOpts, IdentifierTable &Table) {
	int Flags = LangOpts.CPlusPlus ? (LangOpts.CPlusPlus0x? CXX0x : CXX)
	: (LangOpts.C99 ? C99 : C90);

	// Don't add this keyword if disabled in this language or if an extension
	// and extensions are disabled.
	if (Flags + LangOpts.NoExtensions >= 2) return;

	IdentifierInfo &Info = Table.get(Keyword, Keyword+KWLen);
	Info.setTokenID(TokenCode);
	Info.setIsExtensionToken(Flags == 1);
	}

	static void AddAlias(const char *Keyword, unsigned KWLen,
	const char *AliaseeKeyword, unsigned AliaseeKWLen,
	const LangOptions &LangOpts, IdentifierTable &Table) {
	IdentifierInfo &AliasInfo = Table.get(Keyword, Keyword+KWLen);
	IdentifierInfo &AliaseeInfo = Table.get(AliaseeKeyword,
	AliaseeKeyword+AliaseeKWLen);
	AliasInfo.setTokenID(AliaseeInfo.getTokenID());
	AliasInfo.setIsExtensionToken(AliaseeInfo.isExtensionToken());
	}

	/// AddPPKeyword - Register a preprocessor keyword like "define" "undef" or
	/// "elif".
	static void AddPPKeyword(tok::PPKeywordKind PPID,
	const char *Name, unsigned NameLen,
	IdentifierTable &Table) {
	Table.get(Name, Name+NameLen).setPPKeywordID(PPID);
	}

	/// AddCXXOperatorKeyword - Register a C++ operator keyword alternative
	/// representations.
	static void AddCXXOperatorKeyword(const char *Keyword, unsigned KWLen,
	tok::TokenKind TokenCode,
	IdentifierTable &Table) {
	IdentifierInfo &Info = Table.get(Keyword, Keyword + KWLen);
	Info.setTokenID(TokenCode);
	Info.setIsCPlusplusOperatorKeyword();
	}

	/// AddObjCKeyword - Register an Objective-C @keyword like "class" "selector" or
	/// "property".
	static void AddObjCKeyword(tok::ObjCKeywordKind ObjCID,
	const char *Name, unsigned NameLen,
	IdentifierTable &Table) {
	Table.get(Name, Name+NameLen).setObjCKeywordID(ObjCID);
	}

	/// AddKeywords - Add all keywords to the symbol table.
	///
	void IdentifierTable::AddKeywords(const LangOptions &LangOpts) {
	enum {
	C90Shift = 0,
	EXTC90 = 1 << C90Shift,
	NOTC90 = 2 << C90Shift,
	C99Shift = 2,
	EXTC99 = 1 << C99Shift,
	NOTC99 = 2 << C99Shift,
	CPPShift = 4,
	EXTCPP = 1 << CPPShift,
	NOTCPP = 2 << CPPShift,
	CPP0xShift = 6,
	EXTCPP0x = 1 << CPP0xShift,
	NOTCPP0x = 2 << CPP0xShift,
	Mask = 3
	};

	// Add keywords and tokens for the current language.
	#define KEYWORD(NAME, FLAGS) \
	AddKeyword(#NAME, strlen(#NAME), tok::kw_ ## NAME, \
	((FLAGS) >> C90Shift) & Mask, \
	((FLAGS) >> C99Shift) & Mask, \
	((FLAGS) >> CPPShift) & Mask, \
	((FLAGS) >> CPP0xShift) & Mask, LangOpts, *this);
	#define ALIAS(NAME, TOK) \
	AddAlias(NAME, strlen(NAME), #TOK, strlen(#TOK), LangOpts, *this);
	#define PPKEYWORD(NAME) \
	AddPPKeyword(tok::pp_##NAME, #NAME, strlen(#NAME), *this);
	#define CXX_KEYWORD_OPERATOR(NAME, ALIAS) \
	if (LangOpts.CXXOperatorNames) \
	AddCXXOperatorKeyword(#NAME, strlen(#NAME), tok::ALIAS, *this);
	#define OBJC1_AT_KEYWORD(NAME) \
	if (LangOpts.ObjC1) \
	AddObjCKeyword(tok::objc_##NAME, #NAME, strlen(#NAME), *this);
	#define OBJC2_AT_KEYWORD(NAME) \
	if (LangOpts.ObjC2) \
	AddObjCKeyword(tok::objc_##NAME, #NAME, strlen(#NAME), *this);
	#include "clang/Basic/TokenKinds.def"
	}


	//===----------------------------------------------------------------------===//
	// Stats Implementation
	//===----------------------------------------------------------------------===//

	/// PrintStats - Print statistics about how well the identifier table is doing
	/// at hashing identifiers.
	void IdentifierTable::PrintStats() const {
	unsigned NumBuckets = HashTable.getNumBuckets();
	unsigned NumIdentifiers = HashTable.getNumItems();
	unsigned NumEmptyBuckets = NumBuckets-NumIdentifiers;
	unsigned AverageIdentifierSize = 0;
	unsigned MaxIdentifierLength = 0;

	// TODO: Figure out maximum times an identifier had to probe for -stats.
	for (llvm::StringMap<IdentifierInfo, llvm::BumpPtrAllocator>::const_iterator
	I = HashTable.begin(), E = HashTable.end(); I != E; ++I) {
	unsigned IdLen = I->getKeyLength();
	AverageIdentifierSize += IdLen;
	if (MaxIdentifierLength < IdLen)
	MaxIdentifierLength = IdLen;
	}

	fprintf(stderr, "\n*** Identifier Table Stats:\n");
	fprintf(stderr, "# Identifiers: %d\n", NumIdentifiers);
	fprintf(stderr, "# Empty Buckets: %d\n", NumEmptyBuckets);
	fprintf(stderr, "Hash density (#identifiers per bucket): %f\n",
	NumIdentifiers/(double)NumBuckets);
	fprintf(stderr, "Ave identifier length: %f\n",
	(AverageIdentifierSize/(double)NumIdentifiers));
	fprintf(stderr, "Max identifier length: %d\n", MaxIdentifierLength);

	// Compute statistics about the memory allocated for identifiers.
	HashTable.getAllocator().PrintStats();
	}

	//===----------------------------------------------------------------------===//
	// SelectorTable Implementation
	//===----------------------------------------------------------------------===//

	/// MultiKeywordSelector - One of these variable length records is kept for each
	/// selector containing more than one keyword. We use a folding set
	/// to unique aggregate names (keyword selectors in ObjC parlance). Access to
	/// this class is provided strictly through Selector.
	class MultiKeywordSelector : public llvm::FoldingSetNode {
	public:
	unsigned NumArgs;

	// Constructor for keyword selectors.
	MultiKeywordSelector(unsigned nKeys, IdentifierInfo **IIV) {
	assert((nKeys > 1) && "not a multi-keyword selector");
	NumArgs = nKeys;
	// Fill in the trailing keyword array.
	IdentifierInfo KeyInfo = reinterpret_cast<IdentifierInfo >(this+1);
	for (unsigned i = 0; i != nKeys; ++i)
	KeyInfo[i] = IIV[i];
	}
	// Derive the full selector name, placing the result into methodBuffer.
	// As a convenience, a pointer to the first character is returned.
	// Example usage: llvm::SmallString<128> mbuf; Selector->getName(mbuf);
	char *getName(llvm::SmallVectorImpl<char> &methodBuffer);

	unsigned getNumArgs() const { return NumArgs; }

	typedef IdentifierInfo const keyword_iterator;
	keyword_iterator keyword_begin() const {
	return reinterpret_cast<keyword_iterator>(this+1);
	}
	keyword_iterator keyword_end() const {
	return keyword_begin()+NumArgs;
	}
	IdentifierInfo *getIdentifierInfoForSlot(unsigned i) {
	assert((i < NumArgs) && "getIdentifierInfoForSlot(): illegal index");
	return keyword_begin()[i];
	}
	static void Profile(llvm::FoldingSetNodeID &ID,
	keyword_iterator ArgTys, unsigned NumArgs) {
	ID.AddInteger(NumArgs);
	if (NumArgs) { // handle keyword selector.
	for (unsigned i = 0; i != NumArgs; ++i)
	ID.AddPointer(ArgTys[i]);
	} else // handle unary selector.
	ID.AddPointer(ArgTys[0]);
	}
	void Profile(llvm::FoldingSetNodeID &ID) {
	Profile(ID, keyword_begin(), NumArgs);
	}
	};

	unsigned Selector::getNumArgs() const {
	unsigned IIF = getIdentifierInfoFlag();
	if (IIF == ZeroArg)
	return 0;
	if (IIF == OneArg)
	return 1;
	// We point to a MultiKeywordSelector (pointer doesn't contain any flags).
	MultiKeywordSelector SI = reinterpret_cast<MultiKeywordSelector >(InfoPtr);
	return SI->getNumArgs();
	}

	IdentifierInfo *Selector::getIdentifierInfoForSlot(unsigned argIndex) {
	IdentifierInfo *II = getAsIdentifierInfo();
	if (II) {
	assert(((argIndex == 0) \|\| (argIndex == 1)) && "illegal keyword index");
	return II;
	}
	// We point to a MultiKeywordSelector (pointer doesn't contain any flags).
	MultiKeywordSelector SI = reinterpret_cast<MultiKeywordSelector >(InfoPtr);
	return SI->getIdentifierInfoForSlot(argIndex);
	}

	char *MultiKeywordSelector::getName(llvm::SmallVectorImpl<char> &methodName) {
	methodName[0] = '\0';
	keyword_iterator KeyIter = keyword_begin();
	for (unsigned int i = 0; i < NumArgs; i++) {
	if (KeyIter[i]) {
	unsigned KeyLen = KeyIter[i]->getLength();
	methodName.append(KeyIter[i]->getName(), KeyIter[i]->getName()+KeyLen);
	}
	methodName.push_back(':');
	}
	methodName.push_back('\0');
	return &methodName[0];
	}

	char *Selector::getName(llvm::SmallVectorImpl<char> &methodName) {
	methodName[0] = '\0';
	IdentifierInfo *II = getAsIdentifierInfo();
	if (II) {
	unsigned NameLen = II->getLength();
	methodName.append(II->getName(), II->getName()+NameLen);
	if (getNumArgs() == 1)
	methodName.push_back(':');
	methodName.push_back('\0');
	} else { // We have a multiple keyword selector (no embedded flags).
	MultiKeywordSelector SI = reinterpret_cast<MultiKeywordSelector >(InfoPtr);
	SI->getName(methodName);
	}
	return &methodName[0];
	}


	Selector SelectorTable::getKeywordSelector(unsigned nKeys, IdentifierInfo **IIV)
	{
	llvm::FoldingSet<MultiKeywordSelector> *SelTab;

	SelTab = static_cast<llvm::FoldingSet<MultiKeywordSelector> *>(Impl);

	// Unique selector, to guarantee there is one per name.
	llvm::FoldingSetNodeID ID;
	MultiKeywordSelector::Profile(ID, IIV, nKeys);

	void *InsertPos = 0;
	if (MultiKeywordSelector *SI = SelTab->FindNodeOrInsertPos(ID, InsertPos)) {
	return Selector(SI);
	}
	// MultiKeywordSelector objects are not allocated with new because they have a
	// variable size array (for parameter types) at the end of them.
	MultiKeywordSelector *SI =
	(MultiKeywordSelector*)malloc(sizeof(MultiKeywordSelector) +
	nKeyssizeof(IdentifierInfo ));
	new (SI) MultiKeywordSelector(nKeys, IIV);
	SelTab->InsertNode(SI, InsertPos);
	return Selector(SI);
	}

	Selector SelectorTable::getUnarySelector(IdentifierInfo *ID) {
	return Selector(ID, 1);
	}

	Selector SelectorTable::getNullarySelector(IdentifierInfo *ID) {
	return Selector(ID, 0);
	}

	SelectorTable::SelectorTable() {
	Impl = new llvm::FoldingSet<MultiKeywordSelector>;
	}

	SelectorTable::~SelectorTable() {
	delete static_cast<llvm::FoldingSet<MultiKeywordSelector> *>(Impl);
	}