1 //===--- IdentifierTable.h - Hash table for identifier lookup ---*- 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 /// \file 11 /// \brief Defines the clang::IdentifierInfo, clang::IdentifierTable, and 12 /// clang::Selector interfaces. 13 /// 14 //===----------------------------------------------------------------------===// 15 16 #ifndef LLVM_CLANG_BASIC_IDENTIFIERTABLE_H 17 #define LLVM_CLANG_BASIC_IDENTIFIERTABLE_H 18 19 #include "clang/Basic/LLVM.h" 20 #include "clang/Basic/TokenKinds.h" 21 #include "llvm/ADT/StringMap.h" 22 #include "llvm/ADT/StringRef.h" 23 #include <cassert> 24 #include <string> 25 26 namespace llvm { 27 template <typename T> struct DenseMapInfo; 28 } 29 30 namespace clang { 31 class LangOptions; 32 class IdentifierInfo; 33 class IdentifierTable; 34 class SourceLocation; 35 class MultiKeywordSelector; // private class used by Selector 36 class DeclarationName; // AST class that stores declaration names 37 38 /// \brief A simple pair of identifier info and location. 39 typedef std::pair<IdentifierInfo*, SourceLocation> IdentifierLocPair; 40 41 42 /// One of these records is kept for each identifier that 43 /// is lexed. This contains information about whether the token was \#define'd, 44 /// is a language keyword, or if it is a front-end token of some sort (e.g. a 45 /// variable or function name). The preprocessor keeps this information in a 46 /// set, and all tok::identifier tokens have a pointer to one of these. 47 class IdentifierInfo { 48 unsigned TokenID : 9; // Front-end token ID or tok::identifier. 49 // Objective-C keyword ('protocol' in '@protocol') or builtin (__builtin_inf). 50 // First NUM_OBJC_KEYWORDS values are for Objective-C, the remaining values 51 // are for builtins. 52 unsigned ObjCOrBuiltinID :11; 53 bool HasMacro : 1; // True if there is a #define for this. 54 bool HadMacro : 1; // True if there was a #define for this. 55 bool IsExtension : 1; // True if identifier is a lang extension. 56 bool IsCXX11CompatKeyword : 1; // True if identifier is a keyword in C++11. 57 bool IsPoisoned : 1; // True if identifier is poisoned. 58 bool IsCPPOperatorKeyword : 1; // True if ident is a C++ operator keyword. 59 bool NeedsHandleIdentifier : 1; // See "RecomputeNeedsHandleIdentifier". 60 bool IsFromAST : 1; // True if identifier was loaded (at least 61 // partially) from an AST file. 62 bool ChangedAfterLoad : 1; // True if identifier has changed from the 63 // definition loaded from an AST file. 64 bool RevertedTokenID : 1; // True if RevertTokenIDToIdentifier was 65 // called. 66 bool OutOfDate : 1; // True if there may be additional 67 // information about this identifier 68 // stored externally. 69 bool IsModulesImport : 1; // True if this is the 'import' contextual 70 // keyword. 71 // 32-bit word is filled. 72 73 void *FETokenInfo; // Managed by the language front-end. 74 llvm::StringMapEntry<IdentifierInfo*> *Entry; 75 76 IdentifierInfo(const IdentifierInfo&) LLVM_DELETED_FUNCTION; 77 void operator=(const IdentifierInfo&) LLVM_DELETED_FUNCTION; 78 79 friend class IdentifierTable; 80 81 public: 82 IdentifierInfo(); 83 84 85 /// \brief Return true if this is the identifier for the specified string. 86 /// 87 /// This is intended to be used for string literals only: II->isStr("foo"). 88 template <std::size_t StrLen> isStr(const char (& Str)[StrLen])89 bool isStr(const char (&Str)[StrLen]) const { 90 return getLength() == StrLen-1 && !memcmp(getNameStart(), Str, StrLen-1); 91 } 92 93 /// \brief Return the beginning of the actual null-terminated string for this 94 /// identifier. 95 /// getNameStart()96 const char *getNameStart() const { 97 if (Entry) return Entry->getKeyData(); 98 // FIXME: This is gross. It would be best not to embed specific details 99 // of the PTH file format here. 100 // The 'this' pointer really points to a 101 // std::pair<IdentifierInfo, const char*>, where internal pointer 102 // points to the external string data. 103 typedef std::pair<IdentifierInfo, const char*> actualtype; 104 return ((const actualtype*) this)->second; 105 } 106 107 /// \brief Efficiently return the length of this identifier info. 108 /// getLength()109 unsigned getLength() const { 110 if (Entry) return Entry->getKeyLength(); 111 // FIXME: This is gross. It would be best not to embed specific details 112 // of the PTH file format here. 113 // The 'this' pointer really points to a 114 // std::pair<IdentifierInfo, const char*>, where internal pointer 115 // points to the external string data. 116 typedef std::pair<IdentifierInfo, const char*> actualtype; 117 const char* p = ((const actualtype*) this)->second - 2; 118 return (((unsigned) p[0]) | (((unsigned) p[1]) << 8)) - 1; 119 } 120 121 /// \brief Return the actual identifier string. getName()122 StringRef getName() const { 123 return StringRef(getNameStart(), getLength()); 124 } 125 126 /// \brief Return true if this identifier is \#defined to some other value. hasMacroDefinition()127 bool hasMacroDefinition() const { 128 return HasMacro; 129 } setHasMacroDefinition(bool Val)130 void setHasMacroDefinition(bool Val) { 131 if (HasMacro == Val) return; 132 133 HasMacro = Val; 134 if (Val) { 135 NeedsHandleIdentifier = 1; 136 HadMacro = true; 137 } else { 138 RecomputeNeedsHandleIdentifier(); 139 } 140 } 141 /// \brief Returns true if this identifier was \#defined to some value at any 142 /// moment. In this case there should be an entry for the identifier in the 143 /// macro history table in Preprocessor. hadMacroDefinition()144 bool hadMacroDefinition() const { 145 return HadMacro; 146 } 147 148 /// If this is a source-language token (e.g. 'for'), this API 149 /// can be used to cause the lexer to map identifiers to source-language 150 /// tokens. getTokenID()151 tok::TokenKind getTokenID() const { return (tok::TokenKind)TokenID; } 152 153 /// \brief True if RevertTokenIDToIdentifier() was called. hasRevertedTokenIDToIdentifier()154 bool hasRevertedTokenIDToIdentifier() const { return RevertedTokenID; } 155 156 /// \brief Revert TokenID to tok::identifier; used for GNU libstdc++ 4.2 157 /// compatibility. 158 /// 159 /// TokenID is normally read-only but there are 2 instances where we revert it 160 /// to tok::identifier for libstdc++ 4.2. Keep track of when this happens 161 /// using this method so we can inform serialization about it. RevertTokenIDToIdentifier()162 void RevertTokenIDToIdentifier() { 163 assert(TokenID != tok::identifier && "Already at tok::identifier"); 164 TokenID = tok::identifier; 165 RevertedTokenID = true; 166 } 167 168 /// \brief Return the preprocessor keyword ID for this identifier. 169 /// 170 /// For example, "define" will return tok::pp_define. 171 tok::PPKeywordKind getPPKeywordID() const; 172 173 /// \brief Return the Objective-C keyword ID for the this identifier. 174 /// 175 /// For example, 'class' will return tok::objc_class if ObjC is enabled. getObjCKeywordID()176 tok::ObjCKeywordKind getObjCKeywordID() const { 177 if (ObjCOrBuiltinID < tok::NUM_OBJC_KEYWORDS) 178 return tok::ObjCKeywordKind(ObjCOrBuiltinID); 179 else 180 return tok::objc_not_keyword; 181 } setObjCKeywordID(tok::ObjCKeywordKind ID)182 void setObjCKeywordID(tok::ObjCKeywordKind ID) { ObjCOrBuiltinID = ID; } 183 184 /// \brief Return a value indicating whether this is a builtin function. 185 /// 186 /// 0 is not-built-in. 1 is builtin-for-some-nonprimary-target. 187 /// 2+ are specific builtin functions. getBuiltinID()188 unsigned getBuiltinID() const { 189 if (ObjCOrBuiltinID >= tok::NUM_OBJC_KEYWORDS) 190 return ObjCOrBuiltinID - tok::NUM_OBJC_KEYWORDS; 191 else 192 return 0; 193 } setBuiltinID(unsigned ID)194 void setBuiltinID(unsigned ID) { 195 ObjCOrBuiltinID = ID + tok::NUM_OBJC_KEYWORDS; 196 assert(ObjCOrBuiltinID - unsigned(tok::NUM_OBJC_KEYWORDS) == ID 197 && "ID too large for field!"); 198 } 199 getObjCOrBuiltinID()200 unsigned getObjCOrBuiltinID() const { return ObjCOrBuiltinID; } setObjCOrBuiltinID(unsigned ID)201 void setObjCOrBuiltinID(unsigned ID) { ObjCOrBuiltinID = ID; } 202 203 /// get/setExtension - Initialize information about whether or not this 204 /// language token is an extension. This controls extension warnings, and is 205 /// only valid if a custom token ID is set. isExtensionToken()206 bool isExtensionToken() const { return IsExtension; } setIsExtensionToken(bool Val)207 void setIsExtensionToken(bool Val) { 208 IsExtension = Val; 209 if (Val) 210 NeedsHandleIdentifier = 1; 211 else 212 RecomputeNeedsHandleIdentifier(); 213 } 214 215 /// is/setIsCXX11CompatKeyword - Initialize information about whether or not 216 /// this language token is a keyword in C++11. This controls compatibility 217 /// warnings, and is only true when not parsing C++11. Once a compatibility 218 /// problem has been diagnosed with this keyword, the flag will be cleared. isCXX11CompatKeyword()219 bool isCXX11CompatKeyword() const { return IsCXX11CompatKeyword; } setIsCXX11CompatKeyword(bool Val)220 void setIsCXX11CompatKeyword(bool Val) { 221 IsCXX11CompatKeyword = Val; 222 if (Val) 223 NeedsHandleIdentifier = 1; 224 else 225 RecomputeNeedsHandleIdentifier(); 226 } 227 228 /// setIsPoisoned - Mark this identifier as poisoned. After poisoning, the 229 /// Preprocessor will emit an error every time this token is used. 230 void setIsPoisoned(bool Value = true) { 231 IsPoisoned = Value; 232 if (Value) 233 NeedsHandleIdentifier = 1; 234 else 235 RecomputeNeedsHandleIdentifier(); 236 } 237 238 /// \brief Return true if this token has been poisoned. isPoisoned()239 bool isPoisoned() const { return IsPoisoned; } 240 241 /// isCPlusPlusOperatorKeyword/setIsCPlusPlusOperatorKeyword controls whether 242 /// this identifier is a C++ alternate representation of an operator. 243 void setIsCPlusPlusOperatorKeyword(bool Val = true) { 244 IsCPPOperatorKeyword = Val; 245 if (Val) 246 NeedsHandleIdentifier = 1; 247 else 248 RecomputeNeedsHandleIdentifier(); 249 } isCPlusPlusOperatorKeyword()250 bool isCPlusPlusOperatorKeyword() const { return IsCPPOperatorKeyword; } 251 252 /// getFETokenInfo/setFETokenInfo - The language front-end is allowed to 253 /// associate arbitrary metadata with this token. 254 template<typename T> getFETokenInfo()255 T *getFETokenInfo() const { return static_cast<T*>(FETokenInfo); } setFETokenInfo(void * T)256 void setFETokenInfo(void *T) { FETokenInfo = T; } 257 258 /// \brief Return true if the Preprocessor::HandleIdentifier must be called 259 /// on a token of this identifier. 260 /// 261 /// If this returns false, we know that HandleIdentifier will not affect 262 /// the token. isHandleIdentifierCase()263 bool isHandleIdentifierCase() const { return NeedsHandleIdentifier; } 264 265 /// \brief Return true if the identifier in its current state was loaded 266 /// from an AST file. isFromAST()267 bool isFromAST() const { return IsFromAST; } 268 setIsFromAST()269 void setIsFromAST() { IsFromAST = true; } 270 271 /// \brief Determine whether this identifier has changed since it was loaded 272 /// from an AST file. hasChangedSinceDeserialization()273 bool hasChangedSinceDeserialization() const { 274 return ChangedAfterLoad; 275 } 276 277 /// \brief Note that this identifier has changed since it was loaded from 278 /// an AST file. setChangedSinceDeserialization()279 void setChangedSinceDeserialization() { 280 ChangedAfterLoad = true; 281 } 282 283 /// \brief Determine whether the information for this identifier is out of 284 /// date with respect to the external source. isOutOfDate()285 bool isOutOfDate() const { return OutOfDate; } 286 287 /// \brief Set whether the information for this identifier is out of 288 /// date with respect to the external source. setOutOfDate(bool OOD)289 void setOutOfDate(bool OOD) { 290 OutOfDate = OOD; 291 if (OOD) 292 NeedsHandleIdentifier = true; 293 else 294 RecomputeNeedsHandleIdentifier(); 295 } 296 297 /// \brief Determine whether this is the contextual keyword \c import. isModulesImport()298 bool isModulesImport() const { return IsModulesImport; } 299 300 /// \brief Set whether this identifier is the contextual keyword \c import. setModulesImport(bool I)301 void setModulesImport(bool I) { 302 IsModulesImport = I; 303 if (I) 304 NeedsHandleIdentifier = true; 305 else 306 RecomputeNeedsHandleIdentifier(); 307 } 308 309 private: 310 /// The Preprocessor::HandleIdentifier does several special (but rare) 311 /// things to identifiers of various sorts. For example, it changes the 312 /// \c for keyword token from tok::identifier to tok::for. 313 /// 314 /// This method is very tied to the definition of HandleIdentifier. Any 315 /// change to it should be reflected here. RecomputeNeedsHandleIdentifier()316 void RecomputeNeedsHandleIdentifier() { 317 NeedsHandleIdentifier = 318 (isPoisoned() | hasMacroDefinition() | isCPlusPlusOperatorKeyword() | 319 isExtensionToken() | isCXX11CompatKeyword() || isOutOfDate() || 320 isModulesImport()); 321 } 322 }; 323 324 /// \brief An RAII object for [un]poisoning an identifier within a scope. 325 /// 326 /// \p II is allowed to be null, in which case objects of this type have 327 /// no effect. 328 class PoisonIdentifierRAIIObject { 329 IdentifierInfo *const II; 330 const bool OldValue; 331 public: PoisonIdentifierRAIIObject(IdentifierInfo * II,bool NewValue)332 PoisonIdentifierRAIIObject(IdentifierInfo *II, bool NewValue) 333 : II(II), OldValue(II ? II->isPoisoned() : false) { 334 if(II) 335 II->setIsPoisoned(NewValue); 336 } 337 ~PoisonIdentifierRAIIObject()338 ~PoisonIdentifierRAIIObject() { 339 if(II) 340 II->setIsPoisoned(OldValue); 341 } 342 }; 343 344 /// \brief An iterator that walks over all of the known identifiers 345 /// in the lookup table. 346 /// 347 /// Since this iterator uses an abstract interface via virtual 348 /// functions, it uses an object-oriented interface rather than the 349 /// more standard C++ STL iterator interface. In this OO-style 350 /// iteration, the single function \c Next() provides dereference, 351 /// advance, and end-of-sequence checking in a single 352 /// operation. Subclasses of this iterator type will provide the 353 /// actual functionality. 354 class IdentifierIterator { 355 private: 356 IdentifierIterator(const IdentifierIterator &) LLVM_DELETED_FUNCTION; 357 void operator=(const IdentifierIterator &) LLVM_DELETED_FUNCTION; 358 359 protected: IdentifierIterator()360 IdentifierIterator() { } 361 362 public: 363 virtual ~IdentifierIterator(); 364 365 /// \brief Retrieve the next string in the identifier table and 366 /// advances the iterator for the following string. 367 /// 368 /// \returns The next string in the identifier table. If there is 369 /// no such string, returns an empty \c StringRef. 370 virtual StringRef Next() = 0; 371 }; 372 373 /// \brief Provides lookups to, and iteration over, IdentiferInfo objects. 374 class IdentifierInfoLookup { 375 public: 376 virtual ~IdentifierInfoLookup(); 377 378 /// \brief Return the IdentifierInfo for the specified named identifier. 379 /// 380 /// Unlike the version in IdentifierTable, this returns a pointer instead 381 /// of a reference. If the pointer is null then the IdentifierInfo cannot 382 /// be found. 383 virtual IdentifierInfo* get(StringRef Name) = 0; 384 385 /// \brief Retrieve an iterator into the set of all identifiers 386 /// known to this identifier lookup source. 387 /// 388 /// This routine provides access to all of the identifiers known to 389 /// the identifier lookup, allowing access to the contents of the 390 /// identifiers without introducing the overhead of constructing 391 /// IdentifierInfo objects for each. 392 /// 393 /// \returns A new iterator into the set of known identifiers. The 394 /// caller is responsible for deleting this iterator. 395 virtual IdentifierIterator *getIdentifiers(); 396 }; 397 398 /// \brief An abstract class used to resolve numerical identifier 399 /// references (meaningful only to some external source) into 400 /// IdentifierInfo pointers. 401 class ExternalIdentifierLookup { 402 public: 403 virtual ~ExternalIdentifierLookup(); 404 405 /// \brief Return the identifier associated with the given ID number. 406 /// 407 /// The ID 0 is associated with the NULL identifier. 408 virtual IdentifierInfo *GetIdentifier(unsigned ID) = 0; 409 }; 410 411 /// \brief Implements an efficient mapping from strings to IdentifierInfo nodes. 412 /// 413 /// This has no other purpose, but this is an extremely performance-critical 414 /// piece of the code, as each occurrence of every identifier goes through 415 /// here when lexed. 416 class IdentifierTable { 417 // Shark shows that using MallocAllocator is *much* slower than using this 418 // BumpPtrAllocator! 419 typedef llvm::StringMap<IdentifierInfo*, llvm::BumpPtrAllocator> HashTableTy; 420 HashTableTy HashTable; 421 422 IdentifierInfoLookup* ExternalLookup; 423 424 public: 425 /// \brief Create the identifier table, populating it with info about the 426 /// language keywords for the language specified by \p LangOpts. 427 IdentifierTable(const LangOptions &LangOpts, 428 IdentifierInfoLookup* externalLookup = nullptr); 429 430 /// \brief Set the external identifier lookup mechanism. setExternalIdentifierLookup(IdentifierInfoLookup * IILookup)431 void setExternalIdentifierLookup(IdentifierInfoLookup *IILookup) { 432 ExternalLookup = IILookup; 433 } 434 435 /// \brief Retrieve the external identifier lookup object, if any. getExternalIdentifierLookup()436 IdentifierInfoLookup *getExternalIdentifierLookup() const { 437 return ExternalLookup; 438 } 439 getAllocator()440 llvm::BumpPtrAllocator& getAllocator() { 441 return HashTable.getAllocator(); 442 } 443 444 /// \brief Return the identifier token info for the specified named 445 /// identifier. get(StringRef Name)446 IdentifierInfo &get(StringRef Name) { 447 llvm::StringMapEntry<IdentifierInfo*> &Entry = 448 HashTable.GetOrCreateValue(Name); 449 450 IdentifierInfo *II = Entry.getValue(); 451 if (II) return *II; 452 453 // No entry; if we have an external lookup, look there first. 454 if (ExternalLookup) { 455 II = ExternalLookup->get(Name); 456 if (II) { 457 // Cache in the StringMap for subsequent lookups. 458 Entry.setValue(II); 459 return *II; 460 } 461 } 462 463 // Lookups failed, make a new IdentifierInfo. 464 void *Mem = getAllocator().Allocate<IdentifierInfo>(); 465 II = new (Mem) IdentifierInfo(); 466 Entry.setValue(II); 467 468 // Make sure getName() knows how to find the IdentifierInfo 469 // contents. 470 II->Entry = &Entry; 471 472 return *II; 473 } 474 get(StringRef Name,tok::TokenKind TokenCode)475 IdentifierInfo &get(StringRef Name, tok::TokenKind TokenCode) { 476 IdentifierInfo &II = get(Name); 477 II.TokenID = TokenCode; 478 assert(II.TokenID == (unsigned) TokenCode && "TokenCode too large"); 479 return II; 480 } 481 482 /// \brief Gets an IdentifierInfo for the given name without consulting 483 /// external sources. 484 /// 485 /// This is a version of get() meant for external sources that want to 486 /// introduce or modify an identifier. If they called get(), they would 487 /// likely end up in a recursion. getOwn(StringRef Name)488 IdentifierInfo &getOwn(StringRef Name) { 489 llvm::StringMapEntry<IdentifierInfo*> &Entry = 490 HashTable.GetOrCreateValue(Name); 491 492 IdentifierInfo *II = Entry.getValue(); 493 if (!II) { 494 495 // Lookups failed, make a new IdentifierInfo. 496 void *Mem = getAllocator().Allocate<IdentifierInfo>(); 497 II = new (Mem) IdentifierInfo(); 498 Entry.setValue(II); 499 500 // Make sure getName() knows how to find the IdentifierInfo 501 // contents. 502 II->Entry = &Entry; 503 504 // If this is the 'import' contextual keyword, mark it as such. 505 if (Name.equals("import")) 506 II->setModulesImport(true); 507 } 508 509 return *II; 510 } 511 512 typedef HashTableTy::const_iterator iterator; 513 typedef HashTableTy::const_iterator const_iterator; 514 begin()515 iterator begin() const { return HashTable.begin(); } end()516 iterator end() const { return HashTable.end(); } size()517 unsigned size() const { return HashTable.size(); } 518 519 /// \brief Print some statistics to stderr that indicate how well the 520 /// hashing is doing. 521 void PrintStats() const; 522 523 void AddKeywords(const LangOptions &LangOpts); 524 }; 525 526 /// \brief A family of Objective-C methods. 527 /// 528 /// These families have no inherent meaning in the language, but are 529 /// nonetheless central enough in the existing implementations to 530 /// merit direct AST support. While, in theory, arbitrary methods can 531 /// be considered to form families, we focus here on the methods 532 /// involving allocation and retain-count management, as these are the 533 /// most "core" and the most likely to be useful to diverse clients 534 /// without extra information. 535 /// 536 /// Both selectors and actual method declarations may be classified 537 /// into families. Method families may impose additional restrictions 538 /// beyond their selector name; for example, a method called '_init' 539 /// that returns void is not considered to be in the 'init' family 540 /// (but would be if it returned 'id'). It is also possible to 541 /// explicitly change or remove a method's family. Therefore the 542 /// method's family should be considered the single source of truth. 543 enum ObjCMethodFamily { 544 /// \brief No particular method family. 545 OMF_None, 546 547 // Selectors in these families may have arbitrary arity, may be 548 // written with arbitrary leading underscores, and may have 549 // additional CamelCase "words" in their first selector chunk 550 // following the family name. 551 OMF_alloc, 552 OMF_copy, 553 OMF_init, 554 OMF_mutableCopy, 555 OMF_new, 556 557 // These families are singletons consisting only of the nullary 558 // selector with the given name. 559 OMF_autorelease, 560 OMF_dealloc, 561 OMF_finalize, 562 OMF_release, 563 OMF_retain, 564 OMF_retainCount, 565 OMF_self, 566 567 // performSelector families 568 OMF_performSelector 569 }; 570 571 /// Enough bits to store any enumerator in ObjCMethodFamily or 572 /// InvalidObjCMethodFamily. 573 enum { ObjCMethodFamilyBitWidth = 4 }; 574 575 /// \brief An invalid value of ObjCMethodFamily. 576 enum { InvalidObjCMethodFamily = (1 << ObjCMethodFamilyBitWidth) - 1 }; 577 578 /// \brief A family of Objective-C methods. 579 /// 580 /// These are family of methods whose result type is initially 'id', but 581 /// but are candidate for the result type to be changed to 'instancetype'. 582 enum ObjCInstanceTypeFamily { 583 OIT_None, 584 OIT_Array, 585 OIT_Dictionary, 586 OIT_Singleton, 587 OIT_Init, 588 OIT_ReturnsSelf 589 }; 590 591 /// \brief Smart pointer class that efficiently represents Objective-C method 592 /// names. 593 /// 594 /// This class will either point to an IdentifierInfo or a 595 /// MultiKeywordSelector (which is private). This enables us to optimize 596 /// selectors that take no arguments and selectors that take 1 argument, which 597 /// accounts for 78% of all selectors in Cocoa.h. 598 class Selector { 599 friend class Diagnostic; 600 601 enum IdentifierInfoFlag { 602 // Empty selector = 0. 603 ZeroArg = 0x1, 604 OneArg = 0x2, 605 MultiArg = 0x3, 606 ArgFlags = ZeroArg|OneArg 607 }; 608 uintptr_t InfoPtr; // a pointer to the MultiKeywordSelector or IdentifierInfo. 609 Selector(IdentifierInfo * II,unsigned nArgs)610 Selector(IdentifierInfo *II, unsigned nArgs) { 611 InfoPtr = reinterpret_cast<uintptr_t>(II); 612 assert((InfoPtr & ArgFlags) == 0 &&"Insufficiently aligned IdentifierInfo"); 613 assert(nArgs < 2 && "nArgs not equal to 0/1"); 614 InfoPtr |= nArgs+1; 615 } Selector(MultiKeywordSelector * SI)616 Selector(MultiKeywordSelector *SI) { 617 InfoPtr = reinterpret_cast<uintptr_t>(SI); 618 assert((InfoPtr & ArgFlags) == 0 &&"Insufficiently aligned IdentifierInfo"); 619 InfoPtr |= MultiArg; 620 } 621 getAsIdentifierInfo()622 IdentifierInfo *getAsIdentifierInfo() const { 623 if (getIdentifierInfoFlag() < MultiArg) 624 return reinterpret_cast<IdentifierInfo *>(InfoPtr & ~ArgFlags); 625 return nullptr; 626 } getMultiKeywordSelector()627 MultiKeywordSelector *getMultiKeywordSelector() const { 628 return reinterpret_cast<MultiKeywordSelector *>(InfoPtr & ~ArgFlags); 629 } 630 getIdentifierInfoFlag()631 unsigned getIdentifierInfoFlag() const { 632 return InfoPtr & ArgFlags; 633 } 634 635 static ObjCMethodFamily getMethodFamilyImpl(Selector sel); 636 637 public: 638 friend class SelectorTable; // only the SelectorTable can create these 639 friend class DeclarationName; // and the AST's DeclarationName. 640 641 /// The default ctor should only be used when creating data structures that 642 /// will contain selectors. Selector()643 Selector() : InfoPtr(0) {} Selector(uintptr_t V)644 Selector(uintptr_t V) : InfoPtr(V) {} 645 646 /// operator==/!= - Indicate whether the specified selectors are identical. 647 bool operator==(Selector RHS) const { 648 return InfoPtr == RHS.InfoPtr; 649 } 650 bool operator!=(Selector RHS) const { 651 return InfoPtr != RHS.InfoPtr; 652 } getAsOpaquePtr()653 void *getAsOpaquePtr() const { 654 return reinterpret_cast<void*>(InfoPtr); 655 } 656 657 /// \brief Determine whether this is the empty selector. isNull()658 bool isNull() const { return InfoPtr == 0; } 659 660 // Predicates to identify the selector type. isKeywordSelector()661 bool isKeywordSelector() const { 662 return getIdentifierInfoFlag() != ZeroArg; 663 } isUnarySelector()664 bool isUnarySelector() const { 665 return getIdentifierInfoFlag() == ZeroArg; 666 } 667 unsigned getNumArgs() const; 668 669 670 /// \brief Retrieve the identifier at a given position in the selector. 671 /// 672 /// Note that the identifier pointer returned may be NULL. Clients that only 673 /// care about the text of the identifier string, and not the specific, 674 /// uniqued identifier pointer, should use \c getNameForSlot(), which returns 675 /// an empty string when the identifier pointer would be NULL. 676 /// 677 /// \param argIndex The index for which we want to retrieve the identifier. 678 /// This index shall be less than \c getNumArgs() unless this is a keyword 679 /// selector, in which case 0 is the only permissible value. 680 /// 681 /// \returns the uniqued identifier for this slot, or NULL if this slot has 682 /// no corresponding identifier. 683 IdentifierInfo *getIdentifierInfoForSlot(unsigned argIndex) const; 684 685 /// \brief Retrieve the name at a given position in the selector. 686 /// 687 /// \param argIndex The index for which we want to retrieve the name. 688 /// This index shall be less than \c getNumArgs() unless this is a keyword 689 /// selector, in which case 0 is the only permissible value. 690 /// 691 /// \returns the name for this slot, which may be the empty string if no 692 /// name was supplied. 693 StringRef getNameForSlot(unsigned argIndex) const; 694 695 /// \brief Derive the full selector name (e.g. "foo:bar:") and return 696 /// it as an std::string. 697 std::string getAsString() const; 698 699 /// \brief Prints the full selector name (e.g. "foo:bar:"). 700 void print(llvm::raw_ostream &OS) const; 701 702 /// \brief Derive the conventional family of this method. getMethodFamily()703 ObjCMethodFamily getMethodFamily() const { 704 return getMethodFamilyImpl(*this); 705 } 706 getEmptyMarker()707 static Selector getEmptyMarker() { 708 return Selector(uintptr_t(-1)); 709 } getTombstoneMarker()710 static Selector getTombstoneMarker() { 711 return Selector(uintptr_t(-2)); 712 } 713 714 static ObjCInstanceTypeFamily getInstTypeMethodFamily(Selector sel); 715 }; 716 717 /// \brief This table allows us to fully hide how we implement 718 /// multi-keyword caching. 719 class SelectorTable { 720 void *Impl; // Actually a SelectorTableImpl 721 SelectorTable(const SelectorTable &) LLVM_DELETED_FUNCTION; 722 void operator=(const SelectorTable &) LLVM_DELETED_FUNCTION; 723 public: 724 SelectorTable(); 725 ~SelectorTable(); 726 727 /// \brief Can create any sort of selector. 728 /// 729 /// \p NumArgs indicates whether this is a no argument selector "foo", a 730 /// single argument selector "foo:" or multi-argument "foo:bar:". 731 Selector getSelector(unsigned NumArgs, IdentifierInfo **IIV); 732 getUnarySelector(IdentifierInfo * ID)733 Selector getUnarySelector(IdentifierInfo *ID) { 734 return Selector(ID, 1); 735 } getNullarySelector(IdentifierInfo * ID)736 Selector getNullarySelector(IdentifierInfo *ID) { 737 return Selector(ID, 0); 738 } 739 740 /// \brief Return the total amount of memory allocated for managing selectors. 741 size_t getTotalMemory() const; 742 743 /// \brief Return the default setter name for the given identifier. 744 /// 745 /// This is "set" + \p Name where the initial character of \p Name 746 /// has been capitalized. 747 static SmallString<64> constructSetterName(StringRef Name); 748 749 /// \brief Return the default setter selector for the given identifier. 750 /// 751 /// This is "set" + \p Name where the initial character of \p Name 752 /// has been capitalized. 753 static Selector constructSetterSelector(IdentifierTable &Idents, 754 SelectorTable &SelTable, 755 const IdentifierInfo *Name); 756 }; 757 758 /// DeclarationNameExtra - Common base of the MultiKeywordSelector, 759 /// CXXSpecialName, and CXXOperatorIdName classes, all of which are 760 /// private classes that describe different kinds of names. 761 class DeclarationNameExtra { 762 public: 763 /// ExtraKind - The kind of "extra" information stored in the 764 /// DeclarationName. See @c ExtraKindOrNumArgs for an explanation of 765 /// how these enumerator values are used. 766 enum ExtraKind { 767 CXXConstructor = 0, 768 CXXDestructor, 769 CXXConversionFunction, 770 #define OVERLOADED_OPERATOR(Name,Spelling,Token,Unary,Binary,MemberOnly) \ 771 CXXOperator##Name, 772 #include "clang/Basic/OperatorKinds.def" 773 CXXLiteralOperator, 774 CXXUsingDirective, 775 NUM_EXTRA_KINDS 776 }; 777 778 /// ExtraKindOrNumArgs - Either the kind of C++ special name or 779 /// operator-id (if the value is one of the CXX* enumerators of 780 /// ExtraKind), in which case the DeclarationNameExtra is also a 781 /// CXXSpecialName, (for CXXConstructor, CXXDestructor, or 782 /// CXXConversionFunction) CXXOperatorIdName, or CXXLiteralOperatorName, 783 /// it may be also name common to C++ using-directives (CXXUsingDirective), 784 /// otherwise it is NUM_EXTRA_KINDS+NumArgs, where NumArgs is the number of 785 /// arguments in the Objective-C selector, in which case the 786 /// DeclarationNameExtra is also a MultiKeywordSelector. 787 unsigned ExtraKindOrNumArgs; 788 }; 789 790 } // end namespace clang 791 792 namespace llvm { 793 /// Define DenseMapInfo so that Selectors can be used as keys in DenseMap and 794 /// DenseSets. 795 template <> 796 struct DenseMapInfo<clang::Selector> { 797 static inline clang::Selector getEmptyKey() { 798 return clang::Selector::getEmptyMarker(); 799 } 800 static inline clang::Selector getTombstoneKey() { 801 return clang::Selector::getTombstoneMarker(); 802 } 803 804 static unsigned getHashValue(clang::Selector S); 805 806 static bool isEqual(clang::Selector LHS, clang::Selector RHS) { 807 return LHS == RHS; 808 } 809 }; 810 811 template <> 812 struct isPodLike<clang::Selector> { static const bool value = true; }; 813 814 template <typename T> class PointerLikeTypeTraits; 815 816 template<> 817 class PointerLikeTypeTraits<clang::Selector> { 818 public: 819 static inline const void *getAsVoidPointer(clang::Selector P) { 820 return P.getAsOpaquePtr(); 821 } 822 static inline clang::Selector getFromVoidPointer(const void *P) { 823 return clang::Selector(reinterpret_cast<uintptr_t>(P)); 824 } 825 enum { NumLowBitsAvailable = 0 }; 826 }; 827 828 // Provide PointerLikeTypeTraits for IdentifierInfo pointers, which 829 // are not guaranteed to be 8-byte aligned. 830 template<> 831 class PointerLikeTypeTraits<clang::IdentifierInfo*> { 832 public: 833 static inline void *getAsVoidPointer(clang::IdentifierInfo* P) { 834 return P; 835 } 836 static inline clang::IdentifierInfo *getFromVoidPointer(void *P) { 837 return static_cast<clang::IdentifierInfo*>(P); 838 } 839 enum { NumLowBitsAvailable = 1 }; 840 }; 841 842 template<> 843 class PointerLikeTypeTraits<const clang::IdentifierInfo*> { 844 public: 845 static inline const void *getAsVoidPointer(const clang::IdentifierInfo* P) { 846 return P; 847 } 848 static inline const clang::IdentifierInfo *getFromVoidPointer(const void *P) { 849 return static_cast<const clang::IdentifierInfo*>(P); 850 } 851 enum { NumLowBitsAvailable = 1 }; 852 }; 853 854 } // end namespace llvm 855 #endif 856