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      1 //===--- Preprocessor.h - C Language Family Preprocessor --------*- 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 Preprocessor interface.
     11 //
     12 //===----------------------------------------------------------------------===//
     13 
     14 #ifndef LLVM_CLANG_LEX_PREPROCESSOR_H
     15 #define LLVM_CLANG_LEX_PREPROCESSOR_H
     16 
     17 #include "clang/Basic/Builtins.h"
     18 #include "clang/Basic/Diagnostic.h"
     19 #include "clang/Basic/IdentifierTable.h"
     20 #include "clang/Basic/SourceLocation.h"
     21 #include "clang/Lex/Lexer.h"
     22 #include "clang/Lex/MacroInfo.h"
     23 #include "clang/Lex/ModuleMap.h"
     24 #include "clang/Lex/PPCallbacks.h"
     25 #include "clang/Lex/PTHLexer.h"
     26 #include "clang/Lex/PTHManager.h"
     27 #include "clang/Lex/TokenLexer.h"
     28 #include "llvm/ADT/ArrayRef.h"
     29 #include "llvm/ADT/DenseMap.h"
     30 #include "llvm/ADT/IntrusiveRefCntPtr.h"
     31 #include "llvm/ADT/OwningPtr.h"
     32 #include "llvm/ADT/SmallPtrSet.h"
     33 #include "llvm/ADT/SmallVector.h"
     34 #include "llvm/Support/Allocator.h"
     35 #include <vector>
     36 
     37 namespace llvm {
     38   template<unsigned InternalLen> class SmallString;
     39 }
     40 
     41 namespace clang {
     42 
     43 class SourceManager;
     44 class ExternalPreprocessorSource;
     45 class FileManager;
     46 class FileEntry;
     47 class HeaderSearch;
     48 class PragmaNamespace;
     49 class PragmaHandler;
     50 class CommentHandler;
     51 class ScratchBuffer;
     52 class TargetInfo;
     53 class PPCallbacks;
     54 class CodeCompletionHandler;
     55 class DirectoryLookup;
     56 class PreprocessingRecord;
     57 class ModuleLoader;
     58 class PreprocessorOptions;
     59 
     60 /// \brief Stores token information for comparing actual tokens with
     61 /// predefined values.  Only handles simple tokens and identifiers.
     62 class TokenValue {
     63   tok::TokenKind Kind;
     64   IdentifierInfo *II;
     65 
     66 public:
     67   TokenValue(tok::TokenKind Kind) : Kind(Kind), II(0) {
     68     assert(Kind != tok::raw_identifier && "Raw identifiers are not supported.");
     69     assert(Kind != tok::identifier &&
     70            "Identifiers should be created by TokenValue(IdentifierInfo *)");
     71     assert(!tok::isLiteral(Kind) && "Literals are not supported.");
     72     assert(!tok::isAnnotation(Kind) && "Annotations are not supported.");
     73   }
     74   TokenValue(IdentifierInfo *II) : Kind(tok::identifier), II(II) {}
     75   bool operator==(const Token &Tok) const {
     76     return Tok.getKind() == Kind &&
     77         (!II || II == Tok.getIdentifierInfo());
     78   }
     79 };
     80 
     81 /// Preprocessor - This object engages in a tight little dance with the lexer to
     82 /// efficiently preprocess tokens.  Lexers know only about tokens within a
     83 /// single source file, and don't know anything about preprocessor-level issues
     84 /// like the \#include stack, token expansion, etc.
     85 ///
     86 class Preprocessor : public RefCountedBase<Preprocessor> {
     87   IntrusiveRefCntPtr<PreprocessorOptions> PPOpts;
     88   DiagnosticsEngine        *Diags;
     89   LangOptions       &LangOpts;
     90   const TargetInfo  *Target;
     91   FileManager       &FileMgr;
     92   SourceManager     &SourceMgr;
     93   ScratchBuffer     *ScratchBuf;
     94   HeaderSearch      &HeaderInfo;
     95   ModuleLoader      &TheModuleLoader;
     96 
     97   /// \brief External source of macros.
     98   ExternalPreprocessorSource *ExternalSource;
     99 
    100 
    101   /// PTH - An optional PTHManager object used for getting tokens from
    102   ///  a token cache rather than lexing the original source file.
    103   OwningPtr<PTHManager> PTH;
    104 
    105   /// BP - A BumpPtrAllocator object used to quickly allocate and release
    106   ///  objects internal to the Preprocessor.
    107   llvm::BumpPtrAllocator BP;
    108 
    109   /// Identifiers for builtin macros and other builtins.
    110   IdentifierInfo *Ident__LINE__, *Ident__FILE__;   // __LINE__, __FILE__
    111   IdentifierInfo *Ident__DATE__, *Ident__TIME__;   // __DATE__, __TIME__
    112   IdentifierInfo *Ident__INCLUDE_LEVEL__;          // __INCLUDE_LEVEL__
    113   IdentifierInfo *Ident__BASE_FILE__;              // __BASE_FILE__
    114   IdentifierInfo *Ident__TIMESTAMP__;              // __TIMESTAMP__
    115   IdentifierInfo *Ident__COUNTER__;                // __COUNTER__
    116   IdentifierInfo *Ident_Pragma, *Ident__pragma;    // _Pragma, __pragma
    117   IdentifierInfo *Ident__VA_ARGS__;                // __VA_ARGS__
    118   IdentifierInfo *Ident__has_feature;              // __has_feature
    119   IdentifierInfo *Ident__has_extension;            // __has_extension
    120   IdentifierInfo *Ident__has_builtin;              // __has_builtin
    121   IdentifierInfo *Ident__has_attribute;            // __has_attribute
    122   IdentifierInfo *Ident__has_include;              // __has_include
    123   IdentifierInfo *Ident__has_include_next;         // __has_include_next
    124   IdentifierInfo *Ident__has_warning;              // __has_warning
    125   IdentifierInfo *Ident__building_module;          // __building_module
    126   IdentifierInfo *Ident__MODULE__;                 // __MODULE__
    127 
    128   SourceLocation DATELoc, TIMELoc;
    129   unsigned CounterValue;  // Next __COUNTER__ value.
    130 
    131   enum {
    132     /// MaxIncludeStackDepth - Maximum depth of \#includes.
    133     MaxAllowedIncludeStackDepth = 200
    134   };
    135 
    136   // State that is set before the preprocessor begins.
    137   bool KeepComments : 1;
    138   bool KeepMacroComments : 1;
    139   bool SuppressIncludeNotFoundError : 1;
    140 
    141   // State that changes while the preprocessor runs:
    142   bool InMacroArgs : 1;            // True if parsing fn macro invocation args.
    143 
    144   /// Whether the preprocessor owns the header search object.
    145   bool OwnsHeaderSearch : 1;
    146 
    147   /// DisableMacroExpansion - True if macro expansion is disabled.
    148   bool DisableMacroExpansion : 1;
    149 
    150   /// MacroExpansionInDirectivesOverride - Temporarily disables
    151   /// DisableMacroExpansion (i.e. enables expansion) when parsing preprocessor
    152   /// directives.
    153   bool MacroExpansionInDirectivesOverride : 1;
    154 
    155   class ResetMacroExpansionHelper;
    156 
    157   /// \brief Whether we have already loaded macros from the external source.
    158   mutable bool ReadMacrosFromExternalSource : 1;
    159 
    160   /// \brief True if pragmas are enabled.
    161   bool PragmasEnabled : 1;
    162 
    163   /// \brief True if the current build action is a preprocessing action.
    164   bool PreprocessedOutput : 1;
    165 
    166   /// \brief True if we are currently preprocessing a #if or #elif directive
    167   bool ParsingIfOrElifDirective;
    168 
    169   /// \brief True if we are pre-expanding macro arguments.
    170   bool InMacroArgPreExpansion;
    171 
    172   /// Identifiers - This is mapping/lookup information for all identifiers in
    173   /// the program, including program keywords.
    174   mutable IdentifierTable Identifiers;
    175 
    176   /// Selectors - This table contains all the selectors in the program. Unlike
    177   /// IdentifierTable above, this table *isn't* populated by the preprocessor.
    178   /// It is declared/expanded here because it's role/lifetime is
    179   /// conceptually similar the IdentifierTable. In addition, the current control
    180   /// flow (in clang::ParseAST()), make it convenient to put here.
    181   /// FIXME: Make sure the lifetime of Identifiers/Selectors *isn't* tied to
    182   /// the lifetime of the preprocessor.
    183   SelectorTable Selectors;
    184 
    185   /// BuiltinInfo - Information about builtins.
    186   Builtin::Context BuiltinInfo;
    187 
    188   /// PragmaHandlers - This tracks all of the pragmas that the client registered
    189   /// with this preprocessor.
    190   PragmaNamespace *PragmaHandlers;
    191 
    192   /// \brief Tracks all of the comment handlers that the client registered
    193   /// with this preprocessor.
    194   std::vector<CommentHandler *> CommentHandlers;
    195 
    196   /// \brief True if we want to ignore EOF token and continue later on (thus
    197   /// avoid tearing the Lexer and etc. down).
    198   bool IncrementalProcessing;
    199 
    200   /// \brief The code-completion handler.
    201   CodeCompletionHandler *CodeComplete;
    202 
    203   /// \brief The file that we're performing code-completion for, if any.
    204   const FileEntry *CodeCompletionFile;
    205 
    206   /// \brief The offset in file for the code-completion point.
    207   unsigned CodeCompletionOffset;
    208 
    209   /// \brief The location for the code-completion point. This gets instantiated
    210   /// when the CodeCompletionFile gets \#include'ed for preprocessing.
    211   SourceLocation CodeCompletionLoc;
    212 
    213   /// \brief The start location for the file of the code-completion point.
    214   ///
    215   /// This gets instantiated when the CodeCompletionFile gets \#include'ed
    216   /// for preprocessing.
    217   SourceLocation CodeCompletionFileLoc;
    218 
    219   /// \brief The source location of the 'import' contextual keyword we just
    220   /// lexed, if any.
    221   SourceLocation ModuleImportLoc;
    222 
    223   /// \brief The module import path that we're currently processing.
    224   SmallVector<std::pair<IdentifierInfo *, SourceLocation>, 2> ModuleImportPath;
    225 
    226   /// \brief Whether the module import expectes an identifier next. Otherwise,
    227   /// it expects a '.' or ';'.
    228   bool ModuleImportExpectsIdentifier;
    229 
    230   /// \brief The source location of the currently-active
    231   /// #pragma clang arc_cf_code_audited begin.
    232   SourceLocation PragmaARCCFCodeAuditedLoc;
    233 
    234   /// \brief True if we hit the code-completion point.
    235   bool CodeCompletionReached;
    236 
    237   /// \brief The number of bytes that we will initially skip when entering the
    238   /// main file, which is used when loading a precompiled preamble, along
    239   /// with a flag that indicates whether skipping this number of bytes will
    240   /// place the lexer at the start of a line.
    241   std::pair<unsigned, bool> SkipMainFilePreamble;
    242 
    243   /// CurLexer - This is the current top of the stack that we're lexing from if
    244   /// not expanding a macro and we are lexing directly from source code.
    245   ///  Only one of CurLexer, CurPTHLexer, or CurTokenLexer will be non-null.
    246   OwningPtr<Lexer> CurLexer;
    247 
    248   /// CurPTHLexer - This is the current top of stack that we're lexing from if
    249   ///  not expanding from a macro and we are lexing from a PTH cache.
    250   ///  Only one of CurLexer, CurPTHLexer, or CurTokenLexer will be non-null.
    251   OwningPtr<PTHLexer> CurPTHLexer;
    252 
    253   /// CurPPLexer - This is the current top of the stack what we're lexing from
    254   ///  if not expanding a macro.  This is an alias for either CurLexer or
    255   ///  CurPTHLexer.
    256   PreprocessorLexer *CurPPLexer;
    257 
    258   /// CurLookup - The DirectoryLookup structure used to find the current
    259   /// FileEntry, if CurLexer is non-null and if applicable.  This allows us to
    260   /// implement \#include_next and find directory-specific properties.
    261   const DirectoryLookup *CurDirLookup;
    262 
    263   /// CurTokenLexer - This is the current macro we are expanding, if we are
    264   /// expanding a macro.  One of CurLexer and CurTokenLexer must be null.
    265   OwningPtr<TokenLexer> CurTokenLexer;
    266 
    267   /// \brief The kind of lexer we're currently working with.
    268   enum CurLexerKind {
    269     CLK_Lexer,
    270     CLK_PTHLexer,
    271     CLK_TokenLexer,
    272     CLK_CachingLexer,
    273     CLK_LexAfterModuleImport
    274   } CurLexerKind;
    275 
    276   /// IncludeMacroStack - This keeps track of the stack of files currently
    277   /// \#included, and macros currently being expanded from, not counting
    278   /// CurLexer/CurTokenLexer.
    279   struct IncludeStackInfo {
    280     enum CurLexerKind     CurLexerKind;
    281     Lexer                 *TheLexer;
    282     PTHLexer              *ThePTHLexer;
    283     PreprocessorLexer     *ThePPLexer;
    284     TokenLexer            *TheTokenLexer;
    285     const DirectoryLookup *TheDirLookup;
    286 
    287     IncludeStackInfo(enum CurLexerKind K, Lexer *L, PTHLexer* P,
    288                      PreprocessorLexer* PPL,
    289                      TokenLexer* TL, const DirectoryLookup *D)
    290       : CurLexerKind(K), TheLexer(L), ThePTHLexer(P), ThePPLexer(PPL),
    291         TheTokenLexer(TL), TheDirLookup(D) {}
    292   };
    293   std::vector<IncludeStackInfo> IncludeMacroStack;
    294 
    295   /// Callbacks - These are actions invoked when some preprocessor activity is
    296   /// encountered (e.g. a file is \#included, etc).
    297   PPCallbacks *Callbacks;
    298 
    299   struct MacroExpandsInfo {
    300     Token Tok;
    301     MacroDirective *MD;
    302     SourceRange Range;
    303     MacroExpandsInfo(Token Tok, MacroDirective *MD, SourceRange Range)
    304       : Tok(Tok), MD(MD), Range(Range) { }
    305   };
    306   SmallVector<MacroExpandsInfo, 2> DelayedMacroExpandsCallbacks;
    307 
    308   /// Macros - For each IdentifierInfo that was associated with a macro, we
    309   /// keep a mapping to the history of all macro definitions and #undefs in
    310   /// the reverse order (the latest one is in the head of the list).
    311   llvm::DenseMap<const IdentifierInfo*, MacroDirective*> Macros;
    312   friend class ASTReader;
    313 
    314   /// \brief Macros that we want to warn because they are not used at the end
    315   /// of the translation unit; we store just their SourceLocations instead
    316   /// something like MacroInfo*. The benefit of this is that when we are
    317   /// deserializing from PCH, we don't need to deserialize identifier & macros
    318   /// just so that we can report that they are unused, we just warn using
    319   /// the SourceLocations of this set (that will be filled by the ASTReader).
    320   /// We are using SmallPtrSet instead of a vector for faster removal.
    321   typedef llvm::SmallPtrSet<SourceLocation, 32> WarnUnusedMacroLocsTy;
    322   WarnUnusedMacroLocsTy WarnUnusedMacroLocs;
    323 
    324   /// MacroArgCache - This is a "freelist" of MacroArg objects that can be
    325   /// reused for quick allocation.
    326   MacroArgs *MacroArgCache;
    327   friend class MacroArgs;
    328 
    329   /// PragmaPushMacroInfo - For each IdentifierInfo used in a #pragma
    330   /// push_macro directive, we keep a MacroInfo stack used to restore
    331   /// previous macro value.
    332   llvm::DenseMap<IdentifierInfo*, std::vector<MacroInfo*> > PragmaPushMacroInfo;
    333 
    334   // Various statistics we track for performance analysis.
    335   unsigned NumDirectives, NumIncluded, NumDefined, NumUndefined, NumPragma;
    336   unsigned NumIf, NumElse, NumEndif;
    337   unsigned NumEnteredSourceFiles, MaxIncludeStackDepth;
    338   unsigned NumMacroExpanded, NumFnMacroExpanded, NumBuiltinMacroExpanded;
    339   unsigned NumFastMacroExpanded, NumTokenPaste, NumFastTokenPaste;
    340   unsigned NumSkipped;
    341 
    342   /// Predefines - This string is the predefined macros that preprocessor
    343   /// should use from the command line etc.
    344   std::string Predefines;
    345 
    346   /// \brief The file ID for the preprocessor predefines.
    347   FileID PredefinesFileID;
    348 
    349   /// TokenLexerCache - Cache macro expanders to reduce malloc traffic.
    350   enum { TokenLexerCacheSize = 8 };
    351   unsigned NumCachedTokenLexers;
    352   TokenLexer *TokenLexerCache[TokenLexerCacheSize];
    353 
    354   /// \brief Keeps macro expanded tokens for TokenLexers.
    355   //
    356   /// Works like a stack; a TokenLexer adds the macro expanded tokens that is
    357   /// going to lex in the cache and when it finishes the tokens are removed
    358   /// from the end of the cache.
    359   SmallVector<Token, 16> MacroExpandedTokens;
    360   std::vector<std::pair<TokenLexer *, size_t> > MacroExpandingLexersStack;
    361 
    362   /// \brief A record of the macro definitions and expansions that
    363   /// occurred during preprocessing.
    364   ///
    365   /// This is an optional side structure that can be enabled with
    366   /// \c createPreprocessingRecord() prior to preprocessing.
    367   PreprocessingRecord *Record;
    368 
    369 private:  // Cached tokens state.
    370   typedef SmallVector<Token, 1> CachedTokensTy;
    371 
    372   /// CachedTokens - Cached tokens are stored here when we do backtracking or
    373   /// lookahead. They are "lexed" by the CachingLex() method.
    374   CachedTokensTy CachedTokens;
    375 
    376   /// CachedLexPos - The position of the cached token that CachingLex() should
    377   /// "lex" next. If it points beyond the CachedTokens vector, it means that
    378   /// a normal Lex() should be invoked.
    379   CachedTokensTy::size_type CachedLexPos;
    380 
    381   /// BacktrackPositions - Stack of backtrack positions, allowing nested
    382   /// backtracks. The EnableBacktrackAtThisPos() method pushes a position to
    383   /// indicate where CachedLexPos should be set when the BackTrack() method is
    384   /// invoked (at which point the last position is popped).
    385   std::vector<CachedTokensTy::size_type> BacktrackPositions;
    386 
    387   struct MacroInfoChain {
    388     MacroInfo MI;
    389     MacroInfoChain *Next;
    390     MacroInfoChain *Prev;
    391   };
    392 
    393   /// MacroInfos are managed as a chain for easy disposal.  This is the head
    394   /// of that list.
    395   MacroInfoChain *MIChainHead;
    396 
    397   /// MICache - A "freelist" of MacroInfo objects that can be reused for quick
    398   /// allocation.
    399   MacroInfoChain *MICache;
    400 
    401   struct DeserializedMacroInfoChain {
    402     MacroInfo MI;
    403     unsigned OwningModuleID; // MUST be immediately after the MacroInfo object
    404                      // so it can be accessed by MacroInfo::getOwningModuleID().
    405     DeserializedMacroInfoChain *Next;
    406   };
    407   DeserializedMacroInfoChain *DeserialMIChainHead;
    408 
    409 public:
    410   Preprocessor(IntrusiveRefCntPtr<PreprocessorOptions> PPOpts,
    411                DiagnosticsEngine &diags, LangOptions &opts,
    412                const TargetInfo *target,
    413                SourceManager &SM, HeaderSearch &Headers,
    414                ModuleLoader &TheModuleLoader,
    415                IdentifierInfoLookup *IILookup = 0,
    416                bool OwnsHeaderSearch = false,
    417                bool DelayInitialization = false,
    418                bool IncrProcessing = false);
    419 
    420   ~Preprocessor();
    421 
    422   /// \brief Initialize the preprocessor, if the constructor did not already
    423   /// perform the initialization.
    424   ///
    425   /// \param Target Information about the target.
    426   void Initialize(const TargetInfo &Target);
    427 
    428   /// \brief Retrieve the preprocessor options used to initialize this
    429   /// preprocessor.
    430   PreprocessorOptions &getPreprocessorOpts() const { return *PPOpts; }
    431 
    432   DiagnosticsEngine &getDiagnostics() const { return *Diags; }
    433   void setDiagnostics(DiagnosticsEngine &D) { Diags = &D; }
    434 
    435   const LangOptions &getLangOpts() const { return LangOpts; }
    436   const TargetInfo &getTargetInfo() const { return *Target; }
    437   FileManager &getFileManager() const { return FileMgr; }
    438   SourceManager &getSourceManager() const { return SourceMgr; }
    439   HeaderSearch &getHeaderSearchInfo() const { return HeaderInfo; }
    440 
    441   IdentifierTable &getIdentifierTable() { return Identifiers; }
    442   SelectorTable &getSelectorTable() { return Selectors; }
    443   Builtin::Context &getBuiltinInfo() { return BuiltinInfo; }
    444   llvm::BumpPtrAllocator &getPreprocessorAllocator() { return BP; }
    445 
    446   void setPTHManager(PTHManager* pm);
    447 
    448   PTHManager *getPTHManager() { return PTH.get(); }
    449 
    450   void setExternalSource(ExternalPreprocessorSource *Source) {
    451     ExternalSource = Source;
    452   }
    453 
    454   ExternalPreprocessorSource *getExternalSource() const {
    455     return ExternalSource;
    456   }
    457 
    458   /// \brief Retrieve the module loader associated with this preprocessor.
    459   ModuleLoader &getModuleLoader() const { return TheModuleLoader; }
    460 
    461   bool hadModuleLoaderFatalFailure() const {
    462     return TheModuleLoader.HadFatalFailure;
    463   }
    464 
    465   /// \brief True if we are currently preprocessing a #if or #elif directive
    466   bool isParsingIfOrElifDirective() const {
    467     return ParsingIfOrElifDirective;
    468   }
    469 
    470   /// SetCommentRetentionState - Control whether or not the preprocessor retains
    471   /// comments in output.
    472   void SetCommentRetentionState(bool KeepComments, bool KeepMacroComments) {
    473     this->KeepComments = KeepComments | KeepMacroComments;
    474     this->KeepMacroComments = KeepMacroComments;
    475   }
    476 
    477   bool getCommentRetentionState() const { return KeepComments; }
    478 
    479   void setPragmasEnabled(bool Enabled) { PragmasEnabled = Enabled; }
    480   bool getPragmasEnabled() const { return PragmasEnabled; }
    481 
    482   void SetSuppressIncludeNotFoundError(bool Suppress) {
    483     SuppressIncludeNotFoundError = Suppress;
    484   }
    485 
    486   bool GetSuppressIncludeNotFoundError() {
    487     return SuppressIncludeNotFoundError;
    488   }
    489 
    490   /// Sets whether the preprocessor is responsible for producing output or if
    491   /// it is producing tokens to be consumed by Parse and Sema.
    492   void setPreprocessedOutput(bool IsPreprocessedOutput) {
    493     PreprocessedOutput = IsPreprocessedOutput;
    494   }
    495 
    496   /// Returns true if the preprocessor is responsible for generating output,
    497   /// false if it is producing tokens to be consumed by Parse and Sema.
    498   bool isPreprocessedOutput() const { return PreprocessedOutput; }
    499 
    500   /// isCurrentLexer - Return true if we are lexing directly from the specified
    501   /// lexer.
    502   bool isCurrentLexer(const PreprocessorLexer *L) const {
    503     return CurPPLexer == L;
    504   }
    505 
    506   /// getCurrentLexer - Return the current lexer being lexed from.  Note
    507   /// that this ignores any potentially active macro expansions and _Pragma
    508   /// expansions going on at the time.
    509   PreprocessorLexer *getCurrentLexer() const { return CurPPLexer; }
    510 
    511   /// getCurrentFileLexer - Return the current file lexer being lexed from.
    512   /// Note that this ignores any potentially active macro expansions and _Pragma
    513   /// expansions going on at the time.
    514   PreprocessorLexer *getCurrentFileLexer() const;
    515 
    516   /// \brief Returns the file ID for the preprocessor predefines.
    517   FileID getPredefinesFileID() const { return PredefinesFileID; }
    518 
    519   /// getPPCallbacks/addPPCallbacks - Accessors for preprocessor callbacks.
    520   /// Note that this class takes ownership of any PPCallbacks object given to
    521   /// it.
    522   PPCallbacks *getPPCallbacks() const { return Callbacks; }
    523   void addPPCallbacks(PPCallbacks *C) {
    524     if (Callbacks)
    525       C = new PPChainedCallbacks(C, Callbacks);
    526     Callbacks = C;
    527   }
    528 
    529   /// \brief Given an identifier, return its latest MacroDirective if it is
    530   // \#defined or null if it isn't \#define'd.
    531   MacroDirective *getMacroDirective(IdentifierInfo *II) const {
    532     if (!II->hasMacroDefinition())
    533       return 0;
    534 
    535     MacroDirective *MD = getMacroDirectiveHistory(II);
    536     assert(MD->isDefined() && "Macro is undefined!");
    537     return MD;
    538   }
    539 
    540   const MacroInfo *getMacroInfo(IdentifierInfo *II) const {
    541     return const_cast<Preprocessor*>(this)->getMacroInfo(II);
    542   }
    543 
    544   MacroInfo *getMacroInfo(IdentifierInfo *II) {
    545     if (MacroDirective *MD = getMacroDirective(II))
    546       return MD->getMacroInfo();
    547     return 0;
    548   }
    549 
    550   /// \brief Given an identifier, return the (probably #undef'd) MacroInfo
    551   /// representing the most recent macro definition. One can iterate over all
    552   /// previous macro definitions from it. This method should only be called for
    553   /// identifiers that hadMacroDefinition().
    554   MacroDirective *getMacroDirectiveHistory(const IdentifierInfo *II) const;
    555 
    556   /// \brief Add a directive to the macro directive history for this identifier.
    557   void appendMacroDirective(IdentifierInfo *II, MacroDirective *MD);
    558   DefMacroDirective *appendDefMacroDirective(IdentifierInfo *II, MacroInfo *MI,
    559                                              SourceLocation Loc,
    560                                              bool isImported) {
    561     DefMacroDirective *MD = AllocateDefMacroDirective(MI, Loc, isImported);
    562     appendMacroDirective(II, MD);
    563     return MD;
    564   }
    565   DefMacroDirective *appendDefMacroDirective(IdentifierInfo *II, MacroInfo *MI){
    566     return appendDefMacroDirective(II, MI, MI->getDefinitionLoc(), false);
    567   }
    568   /// \brief Set a MacroDirective that was loaded from a PCH file.
    569   void setLoadedMacroDirective(IdentifierInfo *II, MacroDirective *MD);
    570 
    571   /// macro_iterator/macro_begin/macro_end - This allows you to walk the macro
    572   /// history table. Currently defined macros have
    573   /// IdentifierInfo::hasMacroDefinition() set and an empty
    574   /// MacroInfo::getUndefLoc() at the head of the list.
    575   typedef llvm::DenseMap<const IdentifierInfo *,
    576                          MacroDirective*>::const_iterator macro_iterator;
    577   macro_iterator macro_begin(bool IncludeExternalMacros = true) const;
    578   macro_iterator macro_end(bool IncludeExternalMacros = true) const;
    579 
    580   /// \brief Return the name of the macro defined before \p Loc that has
    581   /// spelling \p Tokens.  If there are multiple macros with same spelling,
    582   /// return the last one defined.
    583   StringRef getLastMacroWithSpelling(SourceLocation Loc,
    584                                      ArrayRef<TokenValue> Tokens) const;
    585 
    586   const std::string &getPredefines() const { return Predefines; }
    587   /// setPredefines - Set the predefines for this Preprocessor.  These
    588   /// predefines are automatically injected when parsing the main file.
    589   void setPredefines(const char *P) { Predefines = P; }
    590   void setPredefines(const std::string &P) { Predefines = P; }
    591 
    592   /// Return information about the specified preprocessor
    593   /// identifier token.
    594   IdentifierInfo *getIdentifierInfo(StringRef Name) const {
    595     return &Identifiers.get(Name);
    596   }
    597 
    598   /// AddPragmaHandler - Add the specified pragma handler to the preprocessor.
    599   /// If 'Namespace' is non-null, then it is a token required to exist on the
    600   /// pragma line before the pragma string starts, e.g. "STDC" or "GCC".
    601   void AddPragmaHandler(StringRef Namespace, PragmaHandler *Handler);
    602   void AddPragmaHandler(PragmaHandler *Handler) {
    603     AddPragmaHandler(StringRef(), Handler);
    604   }
    605 
    606   /// RemovePragmaHandler - Remove the specific pragma handler from
    607   /// the preprocessor. If \p Namespace is non-null, then it should
    608   /// be the namespace that \p Handler was added to. It is an error
    609   /// to remove a handler that has not been registered.
    610   void RemovePragmaHandler(StringRef Namespace, PragmaHandler *Handler);
    611   void RemovePragmaHandler(PragmaHandler *Handler) {
    612     RemovePragmaHandler(StringRef(), Handler);
    613   }
    614 
    615   /// \brief Add the specified comment handler to the preprocessor.
    616   void addCommentHandler(CommentHandler *Handler);
    617 
    618   /// \brief Remove the specified comment handler.
    619   ///
    620   /// It is an error to remove a handler that has not been registered.
    621   void removeCommentHandler(CommentHandler *Handler);
    622 
    623   /// \brief Set the code completion handler to the given object.
    624   void setCodeCompletionHandler(CodeCompletionHandler &Handler) {
    625     CodeComplete = &Handler;
    626   }
    627 
    628   /// \brief Retrieve the current code-completion handler.
    629   CodeCompletionHandler *getCodeCompletionHandler() const {
    630     return CodeComplete;
    631   }
    632 
    633   /// \brief Clear out the code completion handler.
    634   void clearCodeCompletionHandler() {
    635     CodeComplete = 0;
    636   }
    637 
    638   /// \brief Hook used by the lexer to invoke the "natural language" code
    639   /// completion point.
    640   void CodeCompleteNaturalLanguage();
    641 
    642   /// \brief Retrieve the preprocessing record, or NULL if there is no
    643   /// preprocessing record.
    644   PreprocessingRecord *getPreprocessingRecord() const { return Record; }
    645 
    646   /// \brief Create a new preprocessing record, which will keep track of
    647   /// all macro expansions, macro definitions, etc.
    648   void createPreprocessingRecord();
    649 
    650   /// EnterMainSourceFile - Enter the specified FileID as the main source file,
    651   /// which implicitly adds the builtin defines etc.
    652   void EnterMainSourceFile();
    653 
    654   /// EndSourceFile - Inform the preprocessor callbacks that processing is
    655   /// complete.
    656   void EndSourceFile();
    657 
    658   /// EnterSourceFile - Add a source file to the top of the include stack and
    659   /// start lexing tokens from it instead of the current buffer.  Emit an error
    660   /// and don't enter the file on error.
    661   void EnterSourceFile(FileID CurFileID, const DirectoryLookup *Dir,
    662                        SourceLocation Loc);
    663 
    664   /// EnterMacro - Add a Macro to the top of the include stack and start lexing
    665   /// tokens from it instead of the current buffer.  Args specifies the
    666   /// tokens input to a function-like macro.
    667   ///
    668   /// ILEnd specifies the location of the ')' for a function-like macro or the
    669   /// identifier for an object-like macro.
    670   void EnterMacro(Token &Identifier, SourceLocation ILEnd, MacroInfo *Macro,
    671                   MacroArgs *Args);
    672 
    673   /// EnterTokenStream - Add a "macro" context to the top of the include stack,
    674   /// which will cause the lexer to start returning the specified tokens.
    675   ///
    676   /// If DisableMacroExpansion is true, tokens lexed from the token stream will
    677   /// not be subject to further macro expansion.  Otherwise, these tokens will
    678   /// be re-macro-expanded when/if expansion is enabled.
    679   ///
    680   /// If OwnsTokens is false, this method assumes that the specified stream of
    681   /// tokens has a permanent owner somewhere, so they do not need to be copied.
    682   /// If it is true, it assumes the array of tokens is allocated with new[] and
    683   /// must be freed.
    684   ///
    685   void EnterTokenStream(const Token *Toks, unsigned NumToks,
    686                         bool DisableMacroExpansion, bool OwnsTokens);
    687 
    688   /// RemoveTopOfLexerStack - Pop the current lexer/macro exp off the top of the
    689   /// lexer stack.  This should only be used in situations where the current
    690   /// state of the top-of-stack lexer is known.
    691   void RemoveTopOfLexerStack();
    692 
    693   /// EnableBacktrackAtThisPos - From the point that this method is called, and
    694   /// until CommitBacktrackedTokens() or Backtrack() is called, the Preprocessor
    695   /// keeps track of the lexed tokens so that a subsequent Backtrack() call will
    696   /// make the Preprocessor re-lex the same tokens.
    697   ///
    698   /// Nested backtracks are allowed, meaning that EnableBacktrackAtThisPos can
    699   /// be called multiple times and CommitBacktrackedTokens/Backtrack calls will
    700   /// be combined with the EnableBacktrackAtThisPos calls in reverse order.
    701   ///
    702   /// NOTE: *DO NOT* forget to call either CommitBacktrackedTokens or Backtrack
    703   /// at some point after EnableBacktrackAtThisPos. If you don't, caching of
    704   /// tokens will continue indefinitely.
    705   ///
    706   void EnableBacktrackAtThisPos();
    707 
    708   /// CommitBacktrackedTokens - Disable the last EnableBacktrackAtThisPos call.
    709   void CommitBacktrackedTokens();
    710 
    711   /// Backtrack - Make Preprocessor re-lex the tokens that were lexed since
    712   /// EnableBacktrackAtThisPos() was previously called.
    713   void Backtrack();
    714 
    715   /// isBacktrackEnabled - True if EnableBacktrackAtThisPos() was called and
    716   /// caching of tokens is on.
    717   bool isBacktrackEnabled() const { return !BacktrackPositions.empty(); }
    718 
    719   /// Lex - To lex a token from the preprocessor, just pull a token from the
    720   /// current lexer or macro object.
    721   void Lex(Token &Result) {
    722     switch (CurLexerKind) {
    723     case CLK_Lexer: CurLexer->Lex(Result); break;
    724     case CLK_PTHLexer: CurPTHLexer->Lex(Result); break;
    725     case CLK_TokenLexer: CurTokenLexer->Lex(Result); break;
    726     case CLK_CachingLexer: CachingLex(Result); break;
    727     case CLK_LexAfterModuleImport: LexAfterModuleImport(Result); break;
    728     }
    729   }
    730 
    731   void LexAfterModuleImport(Token &Result);
    732 
    733   /// \brief Lex a string literal, which may be the concatenation of multiple
    734   /// string literals and may even come from macro expansion.
    735   /// \returns true on success, false if a error diagnostic has been generated.
    736   bool LexStringLiteral(Token &Result, std::string &String,
    737                         const char *DiagnosticTag, bool AllowMacroExpansion) {
    738     if (AllowMacroExpansion)
    739       Lex(Result);
    740     else
    741       LexUnexpandedToken(Result);
    742     return FinishLexStringLiteral(Result, String, DiagnosticTag,
    743                                   AllowMacroExpansion);
    744   }
    745 
    746   /// \brief Complete the lexing of a string literal where the first token has
    747   /// already been lexed (see LexStringLiteral).
    748   bool FinishLexStringLiteral(Token &Result, std::string &String,
    749                               const char *DiagnosticTag,
    750                               bool AllowMacroExpansion);
    751 
    752   /// LexNonComment - Lex a token.  If it's a comment, keep lexing until we get
    753   /// something not a comment.  This is useful in -E -C mode where comments
    754   /// would foul up preprocessor directive handling.
    755   void LexNonComment(Token &Result) {
    756     do
    757       Lex(Result);
    758     while (Result.getKind() == tok::comment);
    759   }
    760 
    761   /// LexUnexpandedToken - This is just like Lex, but this disables macro
    762   /// expansion of identifier tokens.
    763   void LexUnexpandedToken(Token &Result) {
    764     // Disable macro expansion.
    765     bool OldVal = DisableMacroExpansion;
    766     DisableMacroExpansion = true;
    767     // Lex the token.
    768     Lex(Result);
    769 
    770     // Reenable it.
    771     DisableMacroExpansion = OldVal;
    772   }
    773 
    774   /// LexUnexpandedNonComment - Like LexNonComment, but this disables macro
    775   /// expansion of identifier tokens.
    776   void LexUnexpandedNonComment(Token &Result) {
    777     do
    778       LexUnexpandedToken(Result);
    779     while (Result.getKind() == tok::comment);
    780   }
    781 
    782   /// Disables macro expansion everywhere except for preprocessor directives.
    783   void SetMacroExpansionOnlyInDirectives() {
    784     DisableMacroExpansion = true;
    785     MacroExpansionInDirectivesOverride = true;
    786   }
    787 
    788   /// LookAhead - This peeks ahead N tokens and returns that token without
    789   /// consuming any tokens.  LookAhead(0) returns the next token that would be
    790   /// returned by Lex(), LookAhead(1) returns the token after it, etc.  This
    791   /// returns normal tokens after phase 5.  As such, it is equivalent to using
    792   /// 'Lex', not 'LexUnexpandedToken'.
    793   const Token &LookAhead(unsigned N) {
    794     if (CachedLexPos + N < CachedTokens.size())
    795       return CachedTokens[CachedLexPos+N];
    796     else
    797       return PeekAhead(N+1);
    798   }
    799 
    800   /// RevertCachedTokens - When backtracking is enabled and tokens are cached,
    801   /// this allows to revert a specific number of tokens.
    802   /// Note that the number of tokens being reverted should be up to the last
    803   /// backtrack position, not more.
    804   void RevertCachedTokens(unsigned N) {
    805     assert(isBacktrackEnabled() &&
    806            "Should only be called when tokens are cached for backtracking");
    807     assert(signed(CachedLexPos) - signed(N) >= signed(BacktrackPositions.back())
    808          && "Should revert tokens up to the last backtrack position, not more");
    809     assert(signed(CachedLexPos) - signed(N) >= 0 &&
    810            "Corrupted backtrack positions ?");
    811     CachedLexPos -= N;
    812   }
    813 
    814   /// EnterToken - Enters a token in the token stream to be lexed next. If
    815   /// BackTrack() is called afterwards, the token will remain at the insertion
    816   /// point.
    817   void EnterToken(const Token &Tok) {
    818     EnterCachingLexMode();
    819     CachedTokens.insert(CachedTokens.begin()+CachedLexPos, Tok);
    820   }
    821 
    822   /// AnnotateCachedTokens - We notify the Preprocessor that if it is caching
    823   /// tokens (because backtrack is enabled) it should replace the most recent
    824   /// cached tokens with the given annotation token. This function has no effect
    825   /// if backtracking is not enabled.
    826   ///
    827   /// Note that the use of this function is just for optimization; so that the
    828   /// cached tokens doesn't get re-parsed and re-resolved after a backtrack is
    829   /// invoked.
    830   void AnnotateCachedTokens(const Token &Tok) {
    831     assert(Tok.isAnnotation() && "Expected annotation token");
    832     if (CachedLexPos != 0 && isBacktrackEnabled())
    833       AnnotatePreviousCachedTokens(Tok);
    834   }
    835 
    836   /// Get the location of the last cached token, suitable for setting the end
    837   /// location of an annotation token.
    838   SourceLocation getLastCachedTokenLocation() const {
    839     assert(CachedLexPos != 0);
    840     return CachedTokens[CachedLexPos-1].getLocation();
    841   }
    842 
    843   /// \brief Replace the last token with an annotation token.
    844   ///
    845   /// Like AnnotateCachedTokens(), this routine replaces an
    846   /// already-parsed (and resolved) token with an annotation
    847   /// token. However, this routine only replaces the last token with
    848   /// the annotation token; it does not affect any other cached
    849   /// tokens. This function has no effect if backtracking is not
    850   /// enabled.
    851   void ReplaceLastTokenWithAnnotation(const Token &Tok) {
    852     assert(Tok.isAnnotation() && "Expected annotation token");
    853     if (CachedLexPos != 0 && isBacktrackEnabled())
    854       CachedTokens[CachedLexPos-1] = Tok;
    855   }
    856 
    857   /// TypoCorrectToken - Update the current token to represent the provided
    858   /// identifier, in order to cache an action performed by typo correction.
    859   void TypoCorrectToken(const Token &Tok) {
    860     assert(Tok.getIdentifierInfo() && "Expected identifier token");
    861     if (CachedLexPos != 0 && isBacktrackEnabled())
    862       CachedTokens[CachedLexPos-1] = Tok;
    863   }
    864 
    865   /// \brief Recompute the current lexer kind based on the CurLexer/CurPTHLexer/
    866   /// CurTokenLexer pointers.
    867   void recomputeCurLexerKind();
    868 
    869   /// \brief Returns true if incremental processing is enabled
    870   bool isIncrementalProcessingEnabled() const { return IncrementalProcessing; }
    871 
    872   /// \brief Enables the incremental processing
    873   void enableIncrementalProcessing(bool value = true) {
    874     IncrementalProcessing = value;
    875   }
    876 
    877   /// \brief Specify the point at which code-completion will be performed.
    878   ///
    879   /// \param File the file in which code completion should occur. If
    880   /// this file is included multiple times, code-completion will
    881   /// perform completion the first time it is included. If NULL, this
    882   /// function clears out the code-completion point.
    883   ///
    884   /// \param Line the line at which code completion should occur
    885   /// (1-based).
    886   ///
    887   /// \param Column the column at which code completion should occur
    888   /// (1-based).
    889   ///
    890   /// \returns true if an error occurred, false otherwise.
    891   bool SetCodeCompletionPoint(const FileEntry *File,
    892                               unsigned Line, unsigned Column);
    893 
    894   /// \brief Determine if we are performing code completion.
    895   bool isCodeCompletionEnabled() const { return CodeCompletionFile != 0; }
    896 
    897   /// \brief Returns the location of the code-completion point.
    898   /// Returns an invalid location if code-completion is not enabled or the file
    899   /// containing the code-completion point has not been lexed yet.
    900   SourceLocation getCodeCompletionLoc() const { return CodeCompletionLoc; }
    901 
    902   /// \brief Returns the start location of the file of code-completion point.
    903   /// Returns an invalid location if code-completion is not enabled or the file
    904   /// containing the code-completion point has not been lexed yet.
    905   SourceLocation getCodeCompletionFileLoc() const {
    906     return CodeCompletionFileLoc;
    907   }
    908 
    909   /// \brief Returns true if code-completion is enabled and we have hit the
    910   /// code-completion point.
    911   bool isCodeCompletionReached() const { return CodeCompletionReached; }
    912 
    913   /// \brief Note that we hit the code-completion point.
    914   void setCodeCompletionReached() {
    915     assert(isCodeCompletionEnabled() && "Code-completion not enabled!");
    916     CodeCompletionReached = true;
    917     // Silence any diagnostics that occur after we hit the code-completion.
    918     getDiagnostics().setSuppressAllDiagnostics(true);
    919   }
    920 
    921   /// \brief The location of the currently-active \#pragma clang
    922   /// arc_cf_code_audited begin.  Returns an invalid location if there
    923   /// is no such pragma active.
    924   SourceLocation getPragmaARCCFCodeAuditedLoc() const {
    925     return PragmaARCCFCodeAuditedLoc;
    926   }
    927 
    928   /// \brief Set the location of the currently-active \#pragma clang
    929   /// arc_cf_code_audited begin.  An invalid location ends the pragma.
    930   void setPragmaARCCFCodeAuditedLoc(SourceLocation Loc) {
    931     PragmaARCCFCodeAuditedLoc = Loc;
    932   }
    933 
    934   /// \brief Instruct the preprocessor to skip part of the main source file.
    935   ///
    936   /// \param Bytes The number of bytes in the preamble to skip.
    937   ///
    938   /// \param StartOfLine Whether skipping these bytes puts the lexer at the
    939   /// start of a line.
    940   void setSkipMainFilePreamble(unsigned Bytes, bool StartOfLine) {
    941     SkipMainFilePreamble.first = Bytes;
    942     SkipMainFilePreamble.second = StartOfLine;
    943   }
    944 
    945   /// Diag - Forwarding function for diagnostics.  This emits a diagnostic at
    946   /// the specified Token's location, translating the token's start
    947   /// position in the current buffer into a SourcePosition object for rendering.
    948   DiagnosticBuilder Diag(SourceLocation Loc, unsigned DiagID) const {
    949     return Diags->Report(Loc, DiagID);
    950   }
    951 
    952   DiagnosticBuilder Diag(const Token &Tok, unsigned DiagID) const {
    953     return Diags->Report(Tok.getLocation(), DiagID);
    954   }
    955 
    956   /// getSpelling() - Return the 'spelling' of the token at the given
    957   /// location; does not go up to the spelling location or down to the
    958   /// expansion location.
    959   ///
    960   /// \param buffer A buffer which will be used only if the token requires
    961   ///   "cleaning", e.g. if it contains trigraphs or escaped newlines
    962   /// \param invalid If non-null, will be set \c true if an error occurs.
    963   StringRef getSpelling(SourceLocation loc,
    964                         SmallVectorImpl<char> &buffer,
    965                         bool *invalid = 0) const {
    966     return Lexer::getSpelling(loc, buffer, SourceMgr, LangOpts, invalid);
    967   }
    968 
    969   /// getSpelling() - Return the 'spelling' of the Tok token.  The spelling of a
    970   /// token is the characters used to represent the token in the source file
    971   /// after trigraph expansion and escaped-newline folding.  In particular, this
    972   /// wants to get the true, uncanonicalized, spelling of things like digraphs
    973   /// UCNs, etc.
    974   ///
    975   /// \param Invalid If non-null, will be set \c true if an error occurs.
    976   std::string getSpelling(const Token &Tok, bool *Invalid = 0) const {
    977     return Lexer::getSpelling(Tok, SourceMgr, LangOpts, Invalid);
    978   }
    979 
    980   /// getSpelling - This method is used to get the spelling of a token into a
    981   /// preallocated buffer, instead of as an std::string.  The caller is required
    982   /// to allocate enough space for the token, which is guaranteed to be at least
    983   /// Tok.getLength() bytes long.  The length of the actual result is returned.
    984   ///
    985   /// Note that this method may do two possible things: it may either fill in
    986   /// the buffer specified with characters, or it may *change the input pointer*
    987   /// to point to a constant buffer with the data already in it (avoiding a
    988   /// copy).  The caller is not allowed to modify the returned buffer pointer
    989   /// if an internal buffer is returned.
    990   unsigned getSpelling(const Token &Tok, const char *&Buffer,
    991                        bool *Invalid = 0) const {
    992     return Lexer::getSpelling(Tok, Buffer, SourceMgr, LangOpts, Invalid);
    993   }
    994 
    995   /// getSpelling - This method is used to get the spelling of a token into a
    996   /// SmallVector. Note that the returned StringRef may not point to the
    997   /// supplied buffer if a copy can be avoided.
    998   StringRef getSpelling(const Token &Tok,
    999                         SmallVectorImpl<char> &Buffer,
   1000                         bool *Invalid = 0) const;
   1001 
   1002   /// \brief Relex the token at the specified location.
   1003   /// \returns true if there was a failure, false on success.
   1004   bool getRawToken(SourceLocation Loc, Token &Result) {
   1005     return Lexer::getRawToken(Loc, Result, SourceMgr, LangOpts);
   1006   }
   1007 
   1008   /// getSpellingOfSingleCharacterNumericConstant - Tok is a numeric constant
   1009   /// with length 1, return the character.
   1010   char getSpellingOfSingleCharacterNumericConstant(const Token &Tok,
   1011                                                    bool *Invalid = 0) const {
   1012     assert(Tok.is(tok::numeric_constant) &&
   1013            Tok.getLength() == 1 && "Called on unsupported token");
   1014     assert(!Tok.needsCleaning() && "Token can't need cleaning with length 1");
   1015 
   1016     // If the token is carrying a literal data pointer, just use it.
   1017     if (const char *D = Tok.getLiteralData())
   1018       return *D;
   1019 
   1020     // Otherwise, fall back on getCharacterData, which is slower, but always
   1021     // works.
   1022     return *SourceMgr.getCharacterData(Tok.getLocation(), Invalid);
   1023   }
   1024 
   1025   /// \brief Retrieve the name of the immediate macro expansion.
   1026   ///
   1027   /// This routine starts from a source location, and finds the name of the macro
   1028   /// responsible for its immediate expansion. It looks through any intervening
   1029   /// macro argument expansions to compute this. It returns a StringRef which
   1030   /// refers to the SourceManager-owned buffer of the source where that macro
   1031   /// name is spelled. Thus, the result shouldn't out-live the SourceManager.
   1032   StringRef getImmediateMacroName(SourceLocation Loc) {
   1033     return Lexer::getImmediateMacroName(Loc, SourceMgr, getLangOpts());
   1034   }
   1035 
   1036   /// CreateString - Plop the specified string into a scratch buffer and set the
   1037   /// specified token's location and length to it.  If specified, the source
   1038   /// location provides a location of the expansion point of the token.
   1039   void CreateString(StringRef Str, Token &Tok,
   1040                     SourceLocation ExpansionLocStart = SourceLocation(),
   1041                     SourceLocation ExpansionLocEnd = SourceLocation());
   1042 
   1043   /// \brief Computes the source location just past the end of the
   1044   /// token at this source location.
   1045   ///
   1046   /// This routine can be used to produce a source location that
   1047   /// points just past the end of the token referenced by \p Loc, and
   1048   /// is generally used when a diagnostic needs to point just after a
   1049   /// token where it expected something different that it received. If
   1050   /// the returned source location would not be meaningful (e.g., if
   1051   /// it points into a macro), this routine returns an invalid
   1052   /// source location.
   1053   ///
   1054   /// \param Offset an offset from the end of the token, where the source
   1055   /// location should refer to. The default offset (0) produces a source
   1056   /// location pointing just past the end of the token; an offset of 1 produces
   1057   /// a source location pointing to the last character in the token, etc.
   1058   SourceLocation getLocForEndOfToken(SourceLocation Loc, unsigned Offset = 0) {
   1059     return Lexer::getLocForEndOfToken(Loc, Offset, SourceMgr, LangOpts);
   1060   }
   1061 
   1062   /// \brief Returns true if the given MacroID location points at the first
   1063   /// token of the macro expansion.
   1064   ///
   1065   /// \param MacroBegin If non-null and function returns true, it is set to
   1066   /// begin location of the macro.
   1067   bool isAtStartOfMacroExpansion(SourceLocation loc,
   1068                                  SourceLocation *MacroBegin = 0) const {
   1069     return Lexer::isAtStartOfMacroExpansion(loc, SourceMgr, LangOpts,
   1070                                             MacroBegin);
   1071   }
   1072 
   1073   /// \brief Returns true if the given MacroID location points at the last
   1074   /// token of the macro expansion.
   1075   ///
   1076   /// \param MacroEnd If non-null and function returns true, it is set to
   1077   /// end location of the macro.
   1078   bool isAtEndOfMacroExpansion(SourceLocation loc,
   1079                                SourceLocation *MacroEnd = 0) const {
   1080     return Lexer::isAtEndOfMacroExpansion(loc, SourceMgr, LangOpts, MacroEnd);
   1081   }
   1082 
   1083   /// DumpToken - Print the token to stderr, used for debugging.
   1084   ///
   1085   void DumpToken(const Token &Tok, bool DumpFlags = false) const;
   1086   void DumpLocation(SourceLocation Loc) const;
   1087   void DumpMacro(const MacroInfo &MI) const;
   1088 
   1089   /// AdvanceToTokenCharacter - Given a location that specifies the start of a
   1090   /// token, return a new location that specifies a character within the token.
   1091   SourceLocation AdvanceToTokenCharacter(SourceLocation TokStart,
   1092                                          unsigned Char) const {
   1093     return Lexer::AdvanceToTokenCharacter(TokStart, Char, SourceMgr, LangOpts);
   1094   }
   1095 
   1096   /// IncrementPasteCounter - Increment the counters for the number of token
   1097   /// paste operations performed.  If fast was specified, this is a 'fast paste'
   1098   /// case we handled.
   1099   ///
   1100   void IncrementPasteCounter(bool isFast) {
   1101     if (isFast)
   1102       ++NumFastTokenPaste;
   1103     else
   1104       ++NumTokenPaste;
   1105   }
   1106 
   1107   void PrintStats();
   1108 
   1109   size_t getTotalMemory() const;
   1110 
   1111   /// HandleMicrosoftCommentPaste - When the macro expander pastes together a
   1112   /// comment (/##/) in microsoft mode, this method handles updating the current
   1113   /// state, returning the token on the next source line.
   1114   void HandleMicrosoftCommentPaste(Token &Tok);
   1115 
   1116   //===--------------------------------------------------------------------===//
   1117   // Preprocessor callback methods.  These are invoked by a lexer as various
   1118   // directives and events are found.
   1119 
   1120   /// LookUpIdentifierInfo - Given a tok::raw_identifier token, look up the
   1121   /// identifier information for the token and install it into the token,
   1122   /// updating the token kind accordingly.
   1123   IdentifierInfo *LookUpIdentifierInfo(Token &Identifier) const;
   1124 
   1125 private:
   1126   llvm::DenseMap<IdentifierInfo*,unsigned> PoisonReasons;
   1127 
   1128 public:
   1129 
   1130   // SetPoisonReason - Call this function to indicate the reason for
   1131   // poisoning an identifier. If that identifier is accessed while
   1132   // poisoned, then this reason will be used instead of the default
   1133   // "poisoned" diagnostic.
   1134   void SetPoisonReason(IdentifierInfo *II, unsigned DiagID);
   1135 
   1136   // HandlePoisonedIdentifier - Display reason for poisoned
   1137   // identifier.
   1138   void HandlePoisonedIdentifier(Token & Tok);
   1139 
   1140   void MaybeHandlePoisonedIdentifier(Token & Identifier) {
   1141     if(IdentifierInfo * II = Identifier.getIdentifierInfo()) {
   1142       if(II->isPoisoned()) {
   1143         HandlePoisonedIdentifier(Identifier);
   1144       }
   1145     }
   1146   }
   1147 
   1148 private:
   1149   /// Identifiers used for SEH handling in Borland. These are only
   1150   /// allowed in particular circumstances
   1151   // __except block
   1152   IdentifierInfo *Ident__exception_code,
   1153                  *Ident___exception_code,
   1154                  *Ident_GetExceptionCode;
   1155   // __except filter expression
   1156   IdentifierInfo *Ident__exception_info,
   1157                  *Ident___exception_info,
   1158                  *Ident_GetExceptionInfo;
   1159   // __finally
   1160   IdentifierInfo *Ident__abnormal_termination,
   1161                  *Ident___abnormal_termination,
   1162                  *Ident_AbnormalTermination;
   1163 public:
   1164   void PoisonSEHIdentifiers(bool Poison = true); // Borland
   1165 
   1166   /// HandleIdentifier - This callback is invoked when the lexer reads an
   1167   /// identifier and has filled in the tokens IdentifierInfo member.  This
   1168   /// callback potentially macro expands it or turns it into a named token (like
   1169   /// 'for').
   1170   void HandleIdentifier(Token &Identifier);
   1171 
   1172 
   1173   /// HandleEndOfFile - This callback is invoked when the lexer hits the end of
   1174   /// the current file.  This either returns the EOF token and returns true, or
   1175   /// pops a level off the include stack and returns false, at which point the
   1176   /// client should call lex again.
   1177   bool HandleEndOfFile(Token &Result, bool isEndOfMacro = false);
   1178 
   1179   /// HandleEndOfTokenLexer - This callback is invoked when the current
   1180   /// TokenLexer hits the end of its token stream.
   1181   bool HandleEndOfTokenLexer(Token &Result);
   1182 
   1183   /// HandleDirective - This callback is invoked when the lexer sees a # token
   1184   /// at the start of a line.  This consumes the directive, modifies the
   1185   /// lexer/preprocessor state, and advances the lexer(s) so that the next token
   1186   /// read is the correct one.
   1187   void HandleDirective(Token &Result);
   1188 
   1189   /// CheckEndOfDirective - Ensure that the next token is a tok::eod token.  If
   1190   /// not, emit a diagnostic and consume up until the eod.  If EnableMacros is
   1191   /// true, then we consider macros that expand to zero tokens as being ok.
   1192   void CheckEndOfDirective(const char *Directive, bool EnableMacros = false);
   1193 
   1194   /// DiscardUntilEndOfDirective - Read and discard all tokens remaining on the
   1195   /// current line until the tok::eod token is found.
   1196   void DiscardUntilEndOfDirective();
   1197 
   1198   /// SawDateOrTime - This returns true if the preprocessor has seen a use of
   1199   /// __DATE__ or __TIME__ in the file so far.
   1200   bool SawDateOrTime() const {
   1201     return DATELoc != SourceLocation() || TIMELoc != SourceLocation();
   1202   }
   1203   unsigned getCounterValue() const { return CounterValue; }
   1204   void setCounterValue(unsigned V) { CounterValue = V; }
   1205 
   1206   /// \brief Retrieves the module that we're currently building, if any.
   1207   Module *getCurrentModule();
   1208 
   1209   /// \brief Allocate a new MacroInfo object with the provided SourceLocation.
   1210   MacroInfo *AllocateMacroInfo(SourceLocation L);
   1211 
   1212   /// \brief Allocate a new MacroInfo object loaded from an AST file.
   1213   MacroInfo *AllocateDeserializedMacroInfo(SourceLocation L,
   1214                                            unsigned SubModuleID);
   1215 
   1216   /// \brief Turn the specified lexer token into a fully checked and spelled
   1217   /// filename, e.g. as an operand of \#include.
   1218   ///
   1219   /// The caller is expected to provide a buffer that is large enough to hold
   1220   /// the spelling of the filename, but is also expected to handle the case
   1221   /// when this method decides to use a different buffer.
   1222   ///
   1223   /// \returns true if the input filename was in <>'s or false if it was
   1224   /// in ""'s.
   1225   bool GetIncludeFilenameSpelling(SourceLocation Loc,StringRef &Filename);
   1226 
   1227   /// \brief Given a "foo" or \<foo> reference, look up the indicated file.
   1228   ///
   1229   /// Returns null on failure.  \p isAngled indicates whether the file
   1230   /// reference is for system \#include's or not (i.e. using <> instead of "").
   1231   const FileEntry *LookupFile(SourceLocation FilenameLoc, StringRef Filename,
   1232                               bool isAngled, const DirectoryLookup *FromDir,
   1233                               const DirectoryLookup *&CurDir,
   1234                               SmallVectorImpl<char> *SearchPath,
   1235                               SmallVectorImpl<char> *RelativePath,
   1236                               ModuleMap::KnownHeader *SuggestedModule,
   1237                               bool SkipCache = false);
   1238 
   1239   /// GetCurLookup - The DirectoryLookup structure used to find the current
   1240   /// FileEntry, if CurLexer is non-null and if applicable.  This allows us to
   1241   /// implement \#include_next and find directory-specific properties.
   1242   const DirectoryLookup *GetCurDirLookup() { return CurDirLookup; }
   1243 
   1244   /// \brief Return true if we're in the top-level file, not in a \#include.
   1245   bool isInPrimaryFile() const;
   1246 
   1247   /// ConcatenateIncludeName - Handle cases where the \#include name is expanded
   1248   /// from a macro as multiple tokens, which need to be glued together.  This
   1249   /// occurs for code like:
   1250   /// \code
   1251   ///    \#define FOO <x/y.h>
   1252   ///    \#include FOO
   1253   /// \endcode
   1254   /// because in this case, "<x/y.h>" is returned as 7 tokens, not one.
   1255   ///
   1256   /// This code concatenates and consumes tokens up to the '>' token.  It
   1257   /// returns false if the > was found, otherwise it returns true if it finds
   1258   /// and consumes the EOD marker.
   1259   bool ConcatenateIncludeName(SmallString<128> &FilenameBuffer,
   1260                               SourceLocation &End);
   1261 
   1262   /// LexOnOffSwitch - Lex an on-off-switch (C99 6.10.6p2) and verify that it is
   1263   /// followed by EOD.  Return true if the token is not a valid on-off-switch.
   1264   bool LexOnOffSwitch(tok::OnOffSwitch &OOS);
   1265 
   1266 private:
   1267 
   1268   void PushIncludeMacroStack() {
   1269     IncludeMacroStack.push_back(IncludeStackInfo(CurLexerKind,
   1270                                                  CurLexer.take(),
   1271                                                  CurPTHLexer.take(),
   1272                                                  CurPPLexer,
   1273                                                  CurTokenLexer.take(),
   1274                                                  CurDirLookup));
   1275     CurPPLexer = 0;
   1276   }
   1277 
   1278   void PopIncludeMacroStack() {
   1279     CurLexer.reset(IncludeMacroStack.back().TheLexer);
   1280     CurPTHLexer.reset(IncludeMacroStack.back().ThePTHLexer);
   1281     CurPPLexer = IncludeMacroStack.back().ThePPLexer;
   1282     CurTokenLexer.reset(IncludeMacroStack.back().TheTokenLexer);
   1283     CurDirLookup  = IncludeMacroStack.back().TheDirLookup;
   1284     CurLexerKind = IncludeMacroStack.back().CurLexerKind;
   1285     IncludeMacroStack.pop_back();
   1286   }
   1287 
   1288   /// \brief Allocate a new MacroInfo object.
   1289   MacroInfo *AllocateMacroInfo();
   1290 
   1291   DefMacroDirective *AllocateDefMacroDirective(MacroInfo *MI,
   1292                                                SourceLocation Loc,
   1293                                                bool isImported);
   1294   UndefMacroDirective *AllocateUndefMacroDirective(SourceLocation UndefLoc);
   1295   VisibilityMacroDirective *AllocateVisibilityMacroDirective(SourceLocation Loc,
   1296                                                              bool isPublic);
   1297 
   1298   /// \brief Release the specified MacroInfo for re-use.
   1299   ///
   1300   /// This memory will  be reused for allocating new MacroInfo objects.
   1301   void ReleaseMacroInfo(MacroInfo* MI);
   1302 
   1303   /// ReadMacroName - Lex and validate a macro name, which occurs after a
   1304   /// \#define or \#undef.  This emits a diagnostic, sets the token kind to eod,
   1305   /// and discards the rest of the macro line if the macro name is invalid.
   1306   void ReadMacroName(Token &MacroNameTok, char isDefineUndef = 0);
   1307 
   1308   /// ReadMacroDefinitionArgList - The ( starting an argument list of a macro
   1309   /// definition has just been read.  Lex the rest of the arguments and the
   1310   /// closing ), updating MI with what we learn and saving in LastTok the
   1311   /// last token read.
   1312   /// Return true if an error occurs parsing the arg list.
   1313   bool ReadMacroDefinitionArgList(MacroInfo *MI, Token& LastTok);
   1314 
   1315   /// We just read a \#if or related directive and decided that the
   1316   /// subsequent tokens are in the \#if'd out portion of the
   1317   /// file.  Lex the rest of the file, until we see an \#endif.  If \p
   1318   /// FoundNonSkipPortion is true, then we have already emitted code for part of
   1319   /// this \#if directive, so \#else/\#elif blocks should never be entered. If
   1320   /// \p FoundElse is false, then \#else directives are ok, if not, then we have
   1321   /// already seen one so a \#else directive is a duplicate.  When this returns,
   1322   /// the caller can lex the first valid token.
   1323   void SkipExcludedConditionalBlock(SourceLocation IfTokenLoc,
   1324                                     bool FoundNonSkipPortion, bool FoundElse,
   1325                                     SourceLocation ElseLoc = SourceLocation());
   1326 
   1327   /// \brief A fast PTH version of SkipExcludedConditionalBlock.
   1328   void PTHSkipExcludedConditionalBlock();
   1329 
   1330   /// EvaluateDirectiveExpression - Evaluate an integer constant expression that
   1331   /// may occur after a #if or #elif directive and return it as a bool.  If the
   1332   /// expression is equivalent to "!defined(X)" return X in IfNDefMacro.
   1333   bool EvaluateDirectiveExpression(IdentifierInfo *&IfNDefMacro);
   1334 
   1335   /// RegisterBuiltinPragmas - Install the standard preprocessor pragmas:
   1336   /// \#pragma GCC poison/system_header/dependency and \#pragma once.
   1337   void RegisterBuiltinPragmas();
   1338 
   1339   /// \brief Register builtin macros such as __LINE__ with the identifier table.
   1340   void RegisterBuiltinMacros();
   1341 
   1342   /// HandleMacroExpandedIdentifier - If an identifier token is read that is to
   1343   /// be expanded as a macro, handle it and return the next token as 'Tok'.  If
   1344   /// the macro should not be expanded return true, otherwise return false.
   1345   bool HandleMacroExpandedIdentifier(Token &Tok, MacroDirective *MD);
   1346 
   1347   /// \brief Cache macro expanded tokens for TokenLexers.
   1348   //
   1349   /// Works like a stack; a TokenLexer adds the macro expanded tokens that is
   1350   /// going to lex in the cache and when it finishes the tokens are removed
   1351   /// from the end of the cache.
   1352   Token *cacheMacroExpandedTokens(TokenLexer *tokLexer,
   1353                                   ArrayRef<Token> tokens);
   1354   void removeCachedMacroExpandedTokensOfLastLexer();
   1355   friend void TokenLexer::ExpandFunctionArguments();
   1356 
   1357   /// isNextPPTokenLParen - Determine whether the next preprocessor token to be
   1358   /// lexed is a '('.  If so, consume the token and return true, if not, this
   1359   /// method should have no observable side-effect on the lexed tokens.
   1360   bool isNextPPTokenLParen();
   1361 
   1362   /// ReadFunctionLikeMacroArgs - After reading "MACRO(", this method is
   1363   /// invoked to read all of the formal arguments specified for the macro
   1364   /// invocation.  This returns null on error.
   1365   MacroArgs *ReadFunctionLikeMacroArgs(Token &MacroName, MacroInfo *MI,
   1366                                        SourceLocation &ExpansionEnd);
   1367 
   1368   /// ExpandBuiltinMacro - If an identifier token is read that is to be expanded
   1369   /// as a builtin macro, handle it and return the next token as 'Tok'.
   1370   void ExpandBuiltinMacro(Token &Tok);
   1371 
   1372   /// Handle_Pragma - Read a _Pragma directive, slice it up, process it, then
   1373   /// return the first token after the directive.  The _Pragma token has just
   1374   /// been read into 'Tok'.
   1375   void Handle_Pragma(Token &Tok);
   1376 
   1377   /// HandleMicrosoft__pragma - Like Handle_Pragma except the pragma text
   1378   /// is not enclosed within a string literal.
   1379   void HandleMicrosoft__pragma(Token &Tok);
   1380 
   1381   /// EnterSourceFileWithLexer - Add a lexer to the top of the include stack and
   1382   /// start lexing tokens from it instead of the current buffer.
   1383   void EnterSourceFileWithLexer(Lexer *TheLexer, const DirectoryLookup *Dir);
   1384 
   1385   /// EnterSourceFileWithPTH - Add a lexer to the top of the include stack and
   1386   /// start getting tokens from it using the PTH cache.
   1387   void EnterSourceFileWithPTH(PTHLexer *PL, const DirectoryLookup *Dir);
   1388 
   1389   /// \brief Set the file ID for the preprocessor predefines.
   1390   void setPredefinesFileID(FileID FID) {
   1391     assert(PredefinesFileID.isInvalid() && "PredefinesFileID already set!");
   1392     PredefinesFileID = FID;
   1393   }
   1394 
   1395   /// IsFileLexer - Returns true if we are lexing from a file and not a
   1396   ///  pragma or a macro.
   1397   static bool IsFileLexer(const Lexer* L, const PreprocessorLexer* P) {
   1398     return L ? !L->isPragmaLexer() : P != 0;
   1399   }
   1400 
   1401   static bool IsFileLexer(const IncludeStackInfo& I) {
   1402     return IsFileLexer(I.TheLexer, I.ThePPLexer);
   1403   }
   1404 
   1405   bool IsFileLexer() const {
   1406     return IsFileLexer(CurLexer.get(), CurPPLexer);
   1407   }
   1408 
   1409   //===--------------------------------------------------------------------===//
   1410   // Caching stuff.
   1411   void CachingLex(Token &Result);
   1412   bool InCachingLexMode() const {
   1413     // If the Lexer pointers are 0 and IncludeMacroStack is empty, it means
   1414     // that we are past EOF, not that we are in CachingLex mode.
   1415     return !CurPPLexer && !CurTokenLexer && !CurPTHLexer &&
   1416            !IncludeMacroStack.empty();
   1417   }
   1418   void EnterCachingLexMode();
   1419   void ExitCachingLexMode() {
   1420     if (InCachingLexMode())
   1421       RemoveTopOfLexerStack();
   1422   }
   1423   const Token &PeekAhead(unsigned N);
   1424   void AnnotatePreviousCachedTokens(const Token &Tok);
   1425 
   1426   //===--------------------------------------------------------------------===//
   1427   /// Handle*Directive - implement the various preprocessor directives.  These
   1428   /// should side-effect the current preprocessor object so that the next call
   1429   /// to Lex() will return the appropriate token next.
   1430   void HandleLineDirective(Token &Tok);
   1431   void HandleDigitDirective(Token &Tok);
   1432   void HandleUserDiagnosticDirective(Token &Tok, bool isWarning);
   1433   void HandleIdentSCCSDirective(Token &Tok);
   1434   void HandleMacroPublicDirective(Token &Tok);
   1435   void HandleMacroPrivateDirective(Token &Tok);
   1436 
   1437   // File inclusion.
   1438   void HandleIncludeDirective(SourceLocation HashLoc,
   1439                               Token &Tok,
   1440                               const DirectoryLookup *LookupFrom = 0,
   1441                               bool isImport = false);
   1442   void HandleIncludeNextDirective(SourceLocation HashLoc, Token &Tok);
   1443   void HandleIncludeMacrosDirective(SourceLocation HashLoc, Token &Tok);
   1444   void HandleImportDirective(SourceLocation HashLoc, Token &Tok);
   1445   void HandleMicrosoftImportDirective(Token &Tok);
   1446 
   1447   // Macro handling.
   1448   void HandleDefineDirective(Token &Tok, bool ImmediatelyAfterTopLevelIfndef);
   1449   void HandleUndefDirective(Token &Tok);
   1450 
   1451   // Conditional Inclusion.
   1452   void HandleIfdefDirective(Token &Tok, bool isIfndef,
   1453                             bool ReadAnyTokensBeforeDirective);
   1454   void HandleIfDirective(Token &Tok, bool ReadAnyTokensBeforeDirective);
   1455   void HandleEndifDirective(Token &Tok);
   1456   void HandleElseDirective(Token &Tok);
   1457   void HandleElifDirective(Token &Tok);
   1458 
   1459   // Pragmas.
   1460   void HandlePragmaDirective(SourceLocation IntroducerLoc,
   1461                              PragmaIntroducerKind Introducer);
   1462 public:
   1463   void HandlePragmaOnce(Token &OnceTok);
   1464   void HandlePragmaMark();
   1465   void HandlePragmaPoison(Token &PoisonTok);
   1466   void HandlePragmaSystemHeader(Token &SysHeaderTok);
   1467   void HandlePragmaDependency(Token &DependencyTok);
   1468   void HandlePragmaPushMacro(Token &Tok);
   1469   void HandlePragmaPopMacro(Token &Tok);
   1470   void HandlePragmaIncludeAlias(Token &Tok);
   1471   IdentifierInfo *ParsePragmaPushOrPopMacro(Token &Tok);
   1472 
   1473   // Return true and store the first token only if any CommentHandler
   1474   // has inserted some tokens and getCommentRetentionState() is false.
   1475   bool HandleComment(Token &Token, SourceRange Comment);
   1476 
   1477   /// \brief A macro is used, update information about macros that need unused
   1478   /// warnings.
   1479   void markMacroAsUsed(MacroInfo *MI);
   1480 };
   1481 
   1482 /// \brief Abstract base class that describes a handler that will receive
   1483 /// source ranges for each of the comments encountered in the source file.
   1484 class CommentHandler {
   1485 public:
   1486   virtual ~CommentHandler();
   1487 
   1488   // The handler shall return true if it has pushed any tokens
   1489   // to be read using e.g. EnterToken or EnterTokenStream.
   1490   virtual bool HandleComment(Preprocessor &PP, SourceRange Comment) = 0;
   1491 };
   1492 
   1493 }  // end namespace clang
   1494 
   1495 #endif
   1496