//===- Lexer.h - C Language Family Lexer ------------------------*- C++ -*-===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// // // This file defines the Lexer interface. // //===----------------------------------------------------------------------===// #ifndef LLVM_CLANG_LEX_LEXER_H #define LLVM_CLANG_LEX_LEXER_H #include "clang/Basic/LangOptions.h" #include "clang/Basic/SourceLocation.h" #include "clang/Basic/TokenKinds.h" #include "clang/Lex/DependencyDirectivesScanner.h" #include "clang/Lex/PreprocessorLexer.h" #include "clang/Lex/Token.h" #include "llvm/ADT/SmallVector.h" #include "llvm/ADT/StringRef.h" #include #include #include #include namespace llvm { class MemoryBufferRef; } // namespace llvm namespace clang { class DiagnosticBuilder; class Preprocessor; class SourceManager; class LangOptions; /// ConflictMarkerKind - Kinds of conflict marker which the lexer might be /// recovering from. enum ConflictMarkerKind { /// Not within a conflict marker. CMK_None, /// A normal or diff3 conflict marker, initiated by at least 7 "<"s, /// separated by at least 7 "="s or "|"s, and terminated by at least 7 ">"s. CMK_Normal, /// A Perforce-style conflict marker, initiated by 4 ">"s, /// separated by 4 "="s, and terminated by 4 "<"s. CMK_Perforce }; /// Describes the bounds (start, size) of the preamble and a flag required by /// PreprocessorOptions::PrecompiledPreambleBytes. /// The preamble includes the BOM, if any. struct PreambleBounds { /// Size of the preamble in bytes. unsigned Size; /// Whether the preamble ends at the start of a new line. /// /// Used to inform the lexer as to whether it's starting at the beginning of /// a line after skipping the preamble. bool PreambleEndsAtStartOfLine; PreambleBounds(unsigned Size, bool PreambleEndsAtStartOfLine) : Size(Size), PreambleEndsAtStartOfLine(PreambleEndsAtStartOfLine) {} }; /// Lexer - This provides a simple interface that turns a text buffer into a /// stream of tokens. This provides no support for file reading or buffering, /// or buffering/seeking of tokens, only forward lexing is supported. It relies /// on the specified Preprocessor object to handle preprocessor directives, etc. class Lexer : public PreprocessorLexer { friend class Preprocessor; void anchor() override; //===--------------------------------------------------------------------===// // Constant configuration values for this lexer. // Start of the buffer. const char *BufferStart; // End of the buffer. const char *BufferEnd; // Location for start of file. SourceLocation FileLoc; // LangOpts enabled by this language. // Storing LangOptions as reference here is important from performance point // of view. Lack of reference means that LangOptions copy constructor would be // called by Lexer(..., const LangOptions &LangOpts,...). Given that local // Lexer objects are created thousands times (in Lexer::getRawToken, // Preprocessor::EnterSourceFile and other places) during single module // processing in frontend it would make std::vector copy // constructors surprisingly hot. const LangOptions &LangOpts; // True if '//' line comments are enabled. bool LineComment; // True if lexer for _Pragma handling. bool Is_PragmaLexer; //===--------------------------------------------------------------------===// // Context-specific lexing flags set by the preprocessor. // /// ExtendedTokenMode - The lexer can optionally keep comments and whitespace /// and return them as tokens. This is used for -C and -CC modes, and /// whitespace preservation can be useful for some clients that want to lex /// the file in raw mode and get every character from the file. /// /// When this is set to 2 it returns comments and whitespace. When set to 1 /// it returns comments, when it is set to 0 it returns normal tokens only. unsigned char ExtendedTokenMode; //===--------------------------------------------------------------------===// // Context that changes as the file is lexed. // NOTE: any state that mutates when in raw mode must have save/restore code // in Lexer::isNextPPTokenLParen. // BufferPtr - Current pointer into the buffer. This is the next character // to be lexed. const char *BufferPtr; // IsAtStartOfLine - True if the next lexed token should get the "start of // line" flag set on it. bool IsAtStartOfLine; bool IsAtPhysicalStartOfLine; bool HasLeadingSpace; bool HasLeadingEmptyMacro; /// True if this is the first time we're lexing the input file. bool IsFirstTimeLexingFile; // NewLinePtr - A pointer to new line character '\n' being lexed. For '\r\n', // it also points to '\n.' const char *NewLinePtr; // CurrentConflictMarkerState - The kind of conflict marker we are handling. ConflictMarkerKind CurrentConflictMarkerState; /// Non-empty if this \p Lexer is \p isDependencyDirectivesLexer(). ArrayRef DepDirectives; /// If this \p Lexer is \p isDependencyDirectivesLexer(), it represents the /// next token to use from the current dependency directive. unsigned NextDepDirectiveTokenIndex = 0; void InitLexer(const char *BufStart, const char *BufPtr, const char *BufEnd); public: /// Lexer constructor - Create a new lexer object for the specified buffer /// with the specified preprocessor managing the lexing process. This lexer /// assumes that the associated file buffer and Preprocessor objects will /// outlive it, so it doesn't take ownership of either of them. Lexer(FileID FID, const llvm::MemoryBufferRef &InputFile, Preprocessor &PP, bool IsFirstIncludeOfFile = true); /// Lexer constructor - Create a new raw lexer object. This object is only /// suitable for calls to 'LexFromRawLexer'. This lexer assumes that the /// text range will outlive it, so it doesn't take ownership of it. Lexer(SourceLocation FileLoc, const LangOptions &LangOpts, const char *BufStart, const char *BufPtr, const char *BufEnd, bool IsFirstIncludeOfFile = true); /// Lexer constructor - Create a new raw lexer object. This object is only /// suitable for calls to 'LexFromRawLexer'. This lexer assumes that the /// text range will outlive it, so it doesn't take ownership of it. Lexer(FileID FID, const llvm::MemoryBufferRef &FromFile, const SourceManager &SM, const LangOptions &LangOpts, bool IsFirstIncludeOfFile = true); Lexer(const Lexer &) = delete; Lexer &operator=(const Lexer &) = delete; /// Create_PragmaLexer: Lexer constructor - Create a new lexer object for /// _Pragma expansion. This has a variety of magic semantics that this method /// sets up. It returns a new'd Lexer that must be delete'd when done. static Lexer *Create_PragmaLexer(SourceLocation SpellingLoc, SourceLocation ExpansionLocStart, SourceLocation ExpansionLocEnd, unsigned TokLen, Preprocessor &PP); /// getFileLoc - Return the File Location for the file we are lexing out of. /// The physical location encodes the location where the characters come from, /// the virtual location encodes where we should *claim* the characters came /// from. Currently this is only used by _Pragma handling. SourceLocation getFileLoc() const { return FileLoc; } /// Lex - Return the next token in the file. If this is the end of file, it /// return the tok::eof token. This implicitly involves the preprocessor. bool Lex(Token &Result); private: /// Called when the preprocessor is in 'dependency scanning lexing mode'. bool LexDependencyDirectiveToken(Token &Result); /// Called when the preprocessor is in 'dependency scanning lexing mode' and /// is skipping a conditional block. bool LexDependencyDirectiveTokenWhileSkipping(Token &Result); /// True when the preprocessor is in 'dependency scanning lexing mode' and /// created this \p Lexer for lexing a set of dependency directive tokens. bool isDependencyDirectivesLexer() const { return !DepDirectives.empty(); } /// Initializes \p Result with data from \p DDTok and advances \p BufferPtr to /// the position just after the token. /// \returns the buffer pointer at the beginning of the token. const char *convertDependencyDirectiveToken( const dependency_directives_scan::Token &DDTok, Token &Result); public: /// isPragmaLexer - Returns true if this Lexer is being used to lex a pragma. bool isPragmaLexer() const { return Is_PragmaLexer; } private: /// IndirectLex - An indirect call to 'Lex' that can be invoked via /// the PreprocessorLexer interface. void IndirectLex(Token &Result) override { Lex(Result); } public: /// LexFromRawLexer - Lex a token from a designated raw lexer (one with no /// associated preprocessor object. Return true if the 'next character to /// read' pointer points at the end of the lexer buffer, false otherwise. bool LexFromRawLexer(Token &Result) { assert(LexingRawMode && "Not already in raw mode!"); Lex(Result); // Note that lexing to the end of the buffer doesn't implicitly delete the // lexer when in raw mode. return BufferPtr == BufferEnd; } /// isKeepWhitespaceMode - Return true if the lexer should return tokens for /// every character in the file, including whitespace and comments. This /// should only be used in raw mode, as the preprocessor is not prepared to /// deal with the excess tokens. bool isKeepWhitespaceMode() const { return ExtendedTokenMode > 1; } /// SetKeepWhitespaceMode - This method lets clients enable or disable /// whitespace retention mode. void SetKeepWhitespaceMode(bool Val) { assert((!Val || LexingRawMode || LangOpts.TraditionalCPP) && "Can only retain whitespace in raw mode or -traditional-cpp"); ExtendedTokenMode = Val ? 2 : 0; } /// inKeepCommentMode - Return true if the lexer should return comments as /// tokens. bool inKeepCommentMode() const { return ExtendedTokenMode > 0; } /// SetCommentRetentionMode - Change the comment retention mode of the lexer /// to the specified mode. This is really only useful when lexing in raw /// mode, because otherwise the lexer needs to manage this. void SetCommentRetentionState(bool Mode) { assert(!isKeepWhitespaceMode() && "Can't play with comment retention state when retaining whitespace"); ExtendedTokenMode = Mode ? 1 : 0; } /// Sets the extended token mode back to its initial value, according to the /// language options and preprocessor. This controls whether the lexer /// produces comment and whitespace tokens. /// /// This requires the lexer to have an associated preprocessor. A standalone /// lexer has nothing to reset to. void resetExtendedTokenMode(); /// Gets source code buffer. StringRef getBuffer() const { return StringRef(BufferStart, BufferEnd - BufferStart); } /// ReadToEndOfLine - Read the rest of the current preprocessor line as an /// uninterpreted string. This switches the lexer out of directive mode. void ReadToEndOfLine(SmallVectorImpl *Result = nullptr); /// Diag - Forwarding function for diagnostics. This translate a source /// position in the current buffer into a SourceLocation object for rendering. DiagnosticBuilder Diag(const char *Loc, unsigned DiagID) const; /// getSourceLocation - Return a source location identifier for the specified /// offset in the current file. SourceLocation getSourceLocation(const char *Loc, unsigned TokLen = 1) const; /// getSourceLocation - Return a source location for the next character in /// the current file. SourceLocation getSourceLocation() override { return getSourceLocation(BufferPtr); } /// Return the current location in the buffer. const char *getBufferLocation() const { return BufferPtr; } /// Returns the current lexing offset. unsigned getCurrentBufferOffset() { assert(BufferPtr >= BufferStart && "Invalid buffer state"); return BufferPtr - BufferStart; } /// Set the lexer's buffer pointer to \p Offset. void seek(unsigned Offset, bool IsAtStartOfLine); /// Stringify - Convert the specified string into a C string by i) escaping /// '\\' and " characters and ii) replacing newline character(s) with "\\n". /// If Charify is true, this escapes the ' character instead of ". static std::string Stringify(StringRef Str, bool Charify = false); /// Stringify - Convert the specified string into a C string by i) escaping /// '\\' and " characters and ii) replacing newline character(s) with "\\n". static void Stringify(SmallVectorImpl &Str); /// getSpelling - This method is used to get the spelling of a token into a /// preallocated buffer, instead of as an std::string. The caller is required /// to allocate enough space for the token, which is guaranteed to be at least /// Tok.getLength() bytes long. The length of the actual result is returned. /// /// Note that this method may do two possible things: it may either fill in /// the buffer specified with characters, or it may *change the input pointer* /// to point to a constant buffer with the data already in it (avoiding a /// copy). The caller is not allowed to modify the returned buffer pointer /// if an internal buffer is returned. static unsigned getSpelling(const Token &Tok, const char *&Buffer, const SourceManager &SourceMgr, const LangOptions &LangOpts, bool *Invalid = nullptr); /// getSpelling() - Return the 'spelling' of the Tok token. The spelling of a /// token is the characters used to represent the token in the source file /// after trigraph expansion and escaped-newline folding. In particular, this /// wants to get the true, uncanonicalized, spelling of things like digraphs /// UCNs, etc. static std::string getSpelling(const Token &Tok, const SourceManager &SourceMgr, const LangOptions &LangOpts, bool *Invalid = nullptr); /// getSpelling - This method is used to get the spelling of the /// token at the given source location. If, as is usually true, it /// is not necessary to copy any data, then the returned string may /// not point into the provided buffer. /// /// This method lexes at the expansion depth of the given /// location and does not jump to the expansion or spelling /// location. static StringRef getSpelling(SourceLocation loc, SmallVectorImpl &buffer, const SourceManager &SM, const LangOptions &options, bool *invalid = nullptr); /// MeasureTokenLength - Relex the token at the specified location and return /// its length in bytes in the input file. If the token needs cleaning (e.g. /// includes a trigraph or an escaped newline) then this count includes bytes /// that are part of that. static unsigned MeasureTokenLength(SourceLocation Loc, const SourceManager &SM, const LangOptions &LangOpts); /// Relex the token at the specified location. /// \returns true if there was a failure, false on success. static bool getRawToken(SourceLocation Loc, Token &Result, const SourceManager &SM, const LangOptions &LangOpts, bool IgnoreWhiteSpace = false); /// Given a location any where in a source buffer, find the location /// that corresponds to the beginning of the token in which the original /// source location lands. static SourceLocation GetBeginningOfToken(SourceLocation Loc, const SourceManager &SM, const LangOptions &LangOpts); /// Get the physical length (including trigraphs and escaped newlines) of the /// first \p Characters characters of the token starting at TokStart. static unsigned getTokenPrefixLength(SourceLocation TokStart, unsigned CharNo, const SourceManager &SM, const LangOptions &LangOpts); /// AdvanceToTokenCharacter - If the current SourceLocation specifies a /// location at the start of a token, return a new location that specifies a /// character within the token. This handles trigraphs and escaped newlines. static SourceLocation AdvanceToTokenCharacter(SourceLocation TokStart, unsigned Characters, const SourceManager &SM, const LangOptions &LangOpts) { return TokStart.getLocWithOffset( getTokenPrefixLength(TokStart, Characters, SM, LangOpts)); } /// Computes the source location just past the end of the /// token at this source location. /// /// This routine can be used to produce a source location that /// points just past the end of the token referenced by \p Loc, and /// is generally used when a diagnostic needs to point just after a /// token where it expected something different that it received. If /// the returned source location would not be meaningful (e.g., if /// it points into a macro), this routine returns an invalid /// source location. /// /// \param Offset an offset from the end of the token, where the source /// location should refer to. The default offset (0) produces a source /// location pointing just past the end of the token; an offset of 1 produces /// a source location pointing to the last character in the token, etc. static SourceLocation getLocForEndOfToken(SourceLocation Loc, unsigned Offset, const SourceManager &SM, const LangOptions &LangOpts); /// Given a token range, produce a corresponding CharSourceRange that /// is not a token range. This allows the source range to be used by /// components that don't have access to the lexer and thus can't find the /// end of the range for themselves. static CharSourceRange getAsCharRange(SourceRange Range, const SourceManager &SM, const LangOptions &LangOpts) { SourceLocation End = getLocForEndOfToken(Range.getEnd(), 0, SM, LangOpts); return End.isInvalid() ? CharSourceRange() : CharSourceRange::getCharRange( Range.getBegin(), End); } static CharSourceRange getAsCharRange(CharSourceRange Range, const SourceManager &SM, const LangOptions &LangOpts) { return Range.isTokenRange() ? getAsCharRange(Range.getAsRange(), SM, LangOpts) : Range; } /// Returns true if the given MacroID location points at the first /// token of the macro expansion. /// /// \param MacroBegin If non-null and function returns true, it is set to /// begin location of the macro. static bool isAtStartOfMacroExpansion(SourceLocation loc, const SourceManager &SM, const LangOptions &LangOpts, SourceLocation *MacroBegin = nullptr); /// Returns true if the given MacroID location points at the last /// token of the macro expansion. /// /// \param MacroEnd If non-null and function returns true, it is set to /// end location of the macro. static bool isAtEndOfMacroExpansion(SourceLocation loc, const SourceManager &SM, const LangOptions &LangOpts, SourceLocation *MacroEnd = nullptr); /// Accepts a range and returns a character range with file locations. /// /// Returns a null range if a part of the range resides inside a macro /// expansion or the range does not reside on the same FileID. /// /// This function is trying to deal with macros and return a range based on /// file locations. The cases where it can successfully handle macros are: /// /// -begin or end range lies at the start or end of a macro expansion, in /// which case the location will be set to the expansion point, e.g: /// \#define M 1 2 /// a M /// If you have a range [a, 2] (where 2 came from the macro), the function /// will return a range for "a M" /// if you have range [a, 1], the function will fail because the range /// overlaps with only a part of the macro /// /// -The macro is a function macro and the range can be mapped to the macro /// arguments, e.g: /// \#define M 1 2 /// \#define FM(x) x /// FM(a b M) /// if you have range [b, 2], the function will return the file range "b M" /// inside the macro arguments. /// if you have range [a, 2], the function will return the file range /// "FM(a b M)" since the range includes all of the macro expansion. static CharSourceRange makeFileCharRange(CharSourceRange Range, const SourceManager &SM, const LangOptions &LangOpts); /// Returns a string for the source that the range encompasses. static StringRef getSourceText(CharSourceRange Range, const SourceManager &SM, const LangOptions &LangOpts, bool *Invalid = nullptr); /// Retrieve the name of the immediate macro expansion. /// /// This routine starts from a source location, and finds the name of the macro /// responsible for its immediate expansion. It looks through any intervening /// macro argument expansions to compute this. It returns a StringRef which /// refers to the SourceManager-owned buffer of the source where that macro /// name is spelled. Thus, the result shouldn't out-live that SourceManager. static StringRef getImmediateMacroName(SourceLocation Loc, const SourceManager &SM, const LangOptions &LangOpts); /// Retrieve the name of the immediate macro expansion. /// /// This routine starts from a source location, and finds the name of the /// macro responsible for its immediate expansion. It looks through any /// intervening macro argument expansions to compute this. It returns a /// StringRef which refers to the SourceManager-owned buffer of the source /// where that macro name is spelled. Thus, the result shouldn't out-live /// that SourceManager. /// /// This differs from Lexer::getImmediateMacroName in that any macro argument /// location will result in the topmost function macro that accepted it. /// e.g. /// \code /// MAC1( MAC2(foo) ) /// \endcode /// for location of 'foo' token, this function will return "MAC1" while /// Lexer::getImmediateMacroName will return "MAC2". static StringRef getImmediateMacroNameForDiagnostics( SourceLocation Loc, const SourceManager &SM, const LangOptions &LangOpts); /// Compute the preamble of the given file. /// /// The preamble of a file contains the initial comments, include directives, /// and other preprocessor directives that occur before the code in this /// particular file actually begins. The preamble of the main source file is /// a potential prefix header. /// /// \param Buffer The memory buffer containing the file's contents. /// /// \param MaxLines If non-zero, restrict the length of the preamble /// to fewer than this number of lines. /// /// \returns The offset into the file where the preamble ends and the rest /// of the file begins along with a boolean value indicating whether /// the preamble ends at the beginning of a new line. static PreambleBounds ComputePreamble(StringRef Buffer, const LangOptions &LangOpts, unsigned MaxLines = 0); /// Finds the token that comes right after the given location. /// /// Returns the next token, or std::nullopt if the location is inside a macro. static std::optional findNextToken(SourceLocation Loc, const SourceManager &SM, const LangOptions &LangOpts); /// Checks that the given token is the first token that occurs after /// the given location (this excludes comments and whitespace). Returns the /// location immediately after the specified token. If the token is not found /// or the location is inside a macro, the returned source location will be /// invalid. static SourceLocation findLocationAfterToken(SourceLocation loc, tok::TokenKind TKind, const SourceManager &SM, const LangOptions &LangOpts, bool SkipTrailingWhitespaceAndNewLine); /// Returns true if the given character could appear in an identifier. static bool isAsciiIdentifierContinueChar(char c, const LangOptions &LangOpts); /// Checks whether new line pointed by Str is preceded by escape /// sequence. static bool isNewLineEscaped(const char *BufferStart, const char *Str); /// Represents a char and the number of bytes parsed to produce it. struct SizedChar { char Char; unsigned Size; }; /// getCharAndSizeNoWarn - Like the getCharAndSize method, but does not ever /// emit a warning. static inline SizedChar getCharAndSizeNoWarn(const char *Ptr, const LangOptions &LangOpts) { // If this is not a trigraph and not a UCN or escaped newline, return // quickly. if (isObviouslySimpleCharacter(Ptr[0])) { return {*Ptr, 1u}; } return getCharAndSizeSlowNoWarn(Ptr, LangOpts); } /// Returns the leading whitespace for line that corresponds to the given /// location \p Loc. static StringRef getIndentationForLine(SourceLocation Loc, const SourceManager &SM); /// Check if this is the first time we're lexing the input file. bool isFirstTimeLexingFile() const { return IsFirstTimeLexingFile; } private: //===--------------------------------------------------------------------===// // Internal implementation interfaces. /// LexTokenInternal - Internal interface to lex a preprocessing token. Called /// by Lex. /// bool LexTokenInternal(Token &Result, bool TokAtPhysicalStartOfLine); bool CheckUnicodeWhitespace(Token &Result, uint32_t C, const char *CurPtr); bool LexUnicodeIdentifierStart(Token &Result, uint32_t C, const char *CurPtr); /// FormTokenWithChars - When we lex a token, we have identified a span /// starting at BufferPtr, going to TokEnd that forms the token. This method /// takes that range and assigns it to the token as its location and size. In /// addition, since tokens cannot overlap, this also updates BufferPtr to be /// TokEnd. void FormTokenWithChars(Token &Result, const char *TokEnd, tok::TokenKind Kind) { unsigned TokLen = TokEnd-BufferPtr; Result.setLength(TokLen); Result.setLocation(getSourceLocation(BufferPtr, TokLen)); Result.setKind(Kind); BufferPtr = TokEnd; } /// isNextPPTokenLParen - Return 1 if the next unexpanded token will return a /// tok::l_paren token, 0 if it is something else and 2 if there are no more /// tokens in the buffer controlled by this lexer. unsigned isNextPPTokenLParen(); //===--------------------------------------------------------------------===// // Lexer character reading interfaces. // This lexer is built on two interfaces for reading characters, both of which // automatically provide phase 1/2 translation. getAndAdvanceChar is used // when we know that we will be reading a character from the input buffer and // that this character will be part of the result token. This occurs in (f.e.) // string processing, because we know we need to read until we find the // closing '"' character. // // The second interface is the combination of getCharAndSize with // ConsumeChar. getCharAndSize reads a phase 1/2 translated character, // returning it and its size. If the lexer decides that this character is // part of the current token, it calls ConsumeChar on it. This two stage // approach allows us to emit diagnostics for characters (e.g. warnings about // trigraphs), knowing that they only are emitted if the character is // consumed. /// isObviouslySimpleCharacter - Return true if the specified character is /// obviously the same in translation phase 1 and translation phase 3. This /// can return false for characters that end up being the same, but it will /// never return true for something that needs to be mapped. static bool isObviouslySimpleCharacter(char C) { return C != '?' && C != '\\'; } /// getAndAdvanceChar - Read a single 'character' from the specified buffer, /// advance over it, and return it. This is tricky in several cases. Here we /// just handle the trivial case and fall-back to the non-inlined /// getCharAndSizeSlow method to handle the hard case. inline char getAndAdvanceChar(const char *&Ptr, Token &Tok) { // If this is not a trigraph and not a UCN or escaped newline, return // quickly. if (isObviouslySimpleCharacter(Ptr[0])) return *Ptr++; auto [C, Size] = getCharAndSizeSlow(Ptr, &Tok); Ptr += Size; return C; } /// ConsumeChar - When a character (identified by getCharAndSize) is consumed /// and added to a given token, check to see if there are diagnostics that /// need to be emitted or flags that need to be set on the token. If so, do /// it. const char *ConsumeChar(const char *Ptr, unsigned Size, Token &Tok) { // Normal case, we consumed exactly one token. Just return it. if (Size == 1) return Ptr+Size; // Otherwise, re-lex the character with a current token, allowing // diagnostics to be emitted and flags to be set. return Ptr + getCharAndSizeSlow(Ptr, &Tok).Size; } /// getCharAndSize - Peek a single 'character' from the specified buffer, /// get its size, and return it. This is tricky in several cases. Here we /// just handle the trivial case and fall-back to the non-inlined /// getCharAndSizeSlow method to handle the hard case. inline char getCharAndSize(const char *Ptr, unsigned &Size) { // If this is not a trigraph and not a UCN or escaped newline, return // quickly. if (isObviouslySimpleCharacter(Ptr[0])) { Size = 1; return *Ptr; } auto CharAndSize = getCharAndSizeSlow(Ptr); Size = CharAndSize.Size; return CharAndSize.Char; } /// getCharAndSizeSlow - Handle the slow/uncommon case of the getCharAndSize /// method. SizedChar getCharAndSizeSlow(const char *Ptr, Token *Tok = nullptr); /// getEscapedNewLineSize - Return the size of the specified escaped newline, /// or 0 if it is not an escaped newline. P[-1] is known to be a "\" on entry /// to this function. static unsigned getEscapedNewLineSize(const char *P); /// SkipEscapedNewLines - If P points to an escaped newline (or a series of /// them), skip over them and return the first non-escaped-newline found, /// otherwise return P. static const char *SkipEscapedNewLines(const char *P); /// getCharAndSizeSlowNoWarn - Same as getCharAndSizeSlow, but never emits a /// diagnostic. static SizedChar getCharAndSizeSlowNoWarn(const char *Ptr, const LangOptions &LangOpts); //===--------------------------------------------------------------------===// // Other lexer functions. void SetByteOffset(unsigned Offset, bool StartOfLine); void PropagateLineStartLeadingSpaceInfo(Token &Result); const char *LexUDSuffix(Token &Result, const char *CurPtr, bool IsStringLiteral); // Helper functions to lex the remainder of a token of the specific type. // This function handles both ASCII and Unicode identifiers after // the first codepoint of the identifyier has been parsed. bool LexIdentifierContinue(Token &Result, const char *CurPtr); bool LexNumericConstant (Token &Result, const char *CurPtr); bool LexStringLiteral (Token &Result, const char *CurPtr, tok::TokenKind Kind); bool LexRawStringLiteral (Token &Result, const char *CurPtr, tok::TokenKind Kind); bool LexAngledStringLiteral(Token &Result, const char *CurPtr); bool LexCharConstant (Token &Result, const char *CurPtr, tok::TokenKind Kind); bool LexEndOfFile (Token &Result, const char *CurPtr); bool SkipWhitespace (Token &Result, const char *CurPtr, bool &TokAtPhysicalStartOfLine); bool SkipLineComment (Token &Result, const char *CurPtr, bool &TokAtPhysicalStartOfLine); bool SkipBlockComment (Token &Result, const char *CurPtr, bool &TokAtPhysicalStartOfLine); bool SaveLineComment (Token &Result, const char *CurPtr); bool IsStartOfConflictMarker(const char *CurPtr); bool HandleEndOfConflictMarker(const char *CurPtr); bool lexEditorPlaceholder(Token &Result, const char *CurPtr); bool isCodeCompletionPoint(const char *CurPtr) const; void cutOffLexing() { BufferPtr = BufferEnd; } bool isHexaLiteral(const char *Start, const LangOptions &LangOpts); void codeCompleteIncludedFile(const char *PathStart, const char *CompletionPoint, bool IsAngled); std::optional tryReadNumericUCN(const char *&StartPtr, const char *SlashLoc, Token *Result); std::optional tryReadNamedUCN(const char *&StartPtr, const char *SlashLoc, Token *Result); /// Read a universal character name. /// /// \param StartPtr The position in the source buffer after the initial '\'. /// If the UCN is syntactically well-formed (but not /// necessarily valid), this parameter will be updated to /// point to the character after the UCN. /// \param SlashLoc The position in the source buffer of the '\'. /// \param Result The token being formed. Pass \c nullptr to suppress /// diagnostics and handle token formation in the caller. /// /// \return The Unicode codepoint specified by the UCN, or 0 if the UCN is /// invalid. uint32_t tryReadUCN(const char *&StartPtr, const char *SlashLoc, Token *Result); /// Try to consume a UCN as part of an identifier at the current /// location. /// \param CurPtr Initially points to the range of characters in the source /// buffer containing the '\'. Updated to point past the end of /// the UCN on success. /// \param Size The number of characters occupied by the '\' (including /// trigraphs and escaped newlines). /// \param Result The token being produced. Marked as containing a UCN on /// success. /// \return \c true if a UCN was lexed and it produced an acceptable /// identifier character, \c false otherwise. bool tryConsumeIdentifierUCN(const char *&CurPtr, unsigned Size, Token &Result); /// Try to consume an identifier character encoded in UTF-8. /// \param CurPtr Points to the start of the (potential) UTF-8 code unit /// sequence. On success, updated to point past the end of it. /// \param Result The token being formed. /// \return \c true if a UTF-8 sequence mapping to an acceptable identifier /// character was lexed, \c false otherwise. bool tryConsumeIdentifierUTF8Char(const char *&CurPtr, Token &Result); }; } // namespace clang #endif // LLVM_CLANG_LEX_LEXER_H