//===--- PreprocessorLexer.h - C Language Family Lexer ----------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file defines the PreprocessorLexer interface. // //===----------------------------------------------------------------------===// #ifndef LLVM_CLANG_PreprocessorLexer_H #define LLVM_CLANG_PreprocessorLexer_H #include "clang/Lex/MultipleIncludeOpt.h" #include "clang/Lex/Token.h" #include "llvm/ADT/SmallVector.h" namespace clang { class FileEntry; class Preprocessor; class PreprocessorLexer { virtual void anchor(); protected: Preprocessor *PP; // Preprocessor object controlling lexing. /// The SourceManager FileID corresponding to the file being lexed. const FileID FID; /// \brief Number of SLocEntries before lexing the file. unsigned InitialNumSLocEntries; //===--------------------------------------------------------------------===// // Context-specific lexing flags set by the preprocessor. //===--------------------------------------------------------------------===// /// ParsingPreprocessorDirective - This is true when parsing #XXX. This turns /// '\n' into a tok::eod token. bool ParsingPreprocessorDirective; /// ParsingFilename - True after #include: this turns into a /// tok::angle_string_literal token. bool ParsingFilename; /// LexingRawMode - True if in raw mode: This flag disables interpretation of /// tokens and is a far faster mode to lex in than non-raw-mode. This flag: /// 1. If EOF of the current lexer is found, the include stack isn't popped. /// 2. Identifier information is not looked up for identifier tokens. As an /// effect of this, implicit macro expansion is naturally disabled. /// 3. "#" tokens at the start of a line are treated as normal tokens, not /// implicitly transformed by the lexer. /// 4. All diagnostic messages are disabled. /// 5. No callbacks are made into the preprocessor. /// /// Note that in raw mode that the PP pointer may be null. bool LexingRawMode; /// MIOpt - This is a state machine that detects the #ifndef-wrapping a file /// idiom for the multiple-include optimization. MultipleIncludeOpt MIOpt; /// ConditionalStack - Information about the set of #if/#ifdef/#ifndef blocks /// we are currently in. SmallVector ConditionalStack; PreprocessorLexer(const PreprocessorLexer&); // DO NOT IMPLEMENT void operator=(const PreprocessorLexer&); // DO NOT IMPLEMENT friend class Preprocessor; PreprocessorLexer(Preprocessor *pp, FileID fid); PreprocessorLexer() : PP(0), InitialNumSLocEntries(0), ParsingPreprocessorDirective(false), ParsingFilename(false), LexingRawMode(false) {} virtual ~PreprocessorLexer() {} virtual void IndirectLex(Token& Result) = 0; /// getSourceLocation - Return the source location for the next observable /// location. virtual SourceLocation getSourceLocation() = 0; //===--------------------------------------------------------------------===// // #if directive handling. /// pushConditionalLevel - When we enter a #if directive, this keeps track of /// what we are currently in for diagnostic emission (e.g. #if with missing /// #endif). void pushConditionalLevel(SourceLocation DirectiveStart, bool WasSkipping, bool FoundNonSkip, bool FoundElse) { PPConditionalInfo CI; CI.IfLoc = DirectiveStart; CI.WasSkipping = WasSkipping; CI.FoundNonSkip = FoundNonSkip; CI.FoundElse = FoundElse; ConditionalStack.push_back(CI); } void pushConditionalLevel(const PPConditionalInfo &CI) { ConditionalStack.push_back(CI); } /// popConditionalLevel - Remove an entry off the top of the conditional /// stack, returning information about it. If the conditional stack is empty, /// this returns true and does not fill in the arguments. bool popConditionalLevel(PPConditionalInfo &CI) { if (ConditionalStack.empty()) return true; CI = ConditionalStack.back(); ConditionalStack.pop_back(); return false; } /// peekConditionalLevel - Return the top of the conditional stack. This /// requires that there be a conditional active. PPConditionalInfo &peekConditionalLevel() { assert(!ConditionalStack.empty() && "No conditionals active!"); return ConditionalStack.back(); } unsigned getConditionalStackDepth() const { return ConditionalStack.size(); } public: //===--------------------------------------------------------------------===// // Misc. lexing methods. /// LexIncludeFilename - After the preprocessor has parsed a #include, lex and /// (potentially) macro expand the filename. If the sequence parsed is not /// lexically legal, emit a diagnostic and return a result EOD token. void LexIncludeFilename(Token &Result); /// setParsingPreprocessorDirective - Inform the lexer whether or not /// we are currently lexing a preprocessor directive. void setParsingPreprocessorDirective(bool f) { ParsingPreprocessorDirective = f; } /// isLexingRawMode - Return true if this lexer is in raw mode or not. bool isLexingRawMode() const { return LexingRawMode; } /// getPP - Return the preprocessor object for this lexer. Preprocessor *getPP() const { return PP; } FileID getFileID() const { assert(PP && "PreprocessorLexer::getFileID() should only be used with a Preprocessor"); return FID; } /// \brief Number of SLocEntries before lexing the file. unsigned getInitialNumSLocEntries() const { return InitialNumSLocEntries; } /// getFileEntry - Return the FileEntry corresponding to this FileID. Like /// getFileID(), this only works for lexers with attached preprocessors. const FileEntry *getFileEntry() const; /// \brief Iterator that traverses the current stack of preprocessor /// conditional directives (#if/#ifdef/#ifndef). typedef SmallVectorImpl::const_iterator conditional_iterator; conditional_iterator conditional_begin() const { return ConditionalStack.begin(); } conditional_iterator conditional_end() const { return ConditionalStack.end(); } }; } // end namespace clang #endif