#ifndef cwLex_H #define cwLex_H //( { file_desc:"User configurable lexer for tokenizing text files." kw:[text]} namespace cw { namespace lex { // Predefined Lexer Id's enum { kErrorLexTId, // 0 the lexer was unable to identify the current token kUnknownLexTId, // 1 the token is of an unknown type (only used when kReturnUnknownLexFl is set) kEofLexTId, // 2 the lexer reached the end of input kSpaceLexTId, // 3 white space kRealLexTId, // 4 real number (contains a decimal point or is in scientific notation) kIntLexTId, // 5 decimal integer kHexLexTId, // 6 hexidecimal integer kIdentLexTId, // 7 identifier kQStrLexTId, // 8 quoted string kQCharLexTId, // 9 quoted char kBlockCmtLexTId, // 10 block comment kLineCmtLexTId, // 11 line comment kUserLexTId // 12 user registered token (See lexRegisterToken().) }; // Lexer control flags used with lexInit(). enum { kReturnSpaceLexFl = 0x01, //< Return space tokens kReturnCommentsLexFl = 0x02, //< Return comment tokens kReturnUnknownLexFl = 0x04, //< Return unknown tokens kReturnQCharLexFl = 0x08, //< Return quoted characters kUserDefPriorityLexFl= 0x10 //< User defined tokens take priority even if a kIdentLexTId token has a longer match }; typedef handle handle_t; // Iniitalize the lexer and receive a lexer handle in return. // Set cp to nullptr if the buffer will be later via lexSetTextBuffer(); // See the kXXXLexFl enum's above for possible flag values. rc_t create( handle_t& hRef, const char* cp, unsigned cn, unsigned flags ); // Finalize a lexer created by an earlier call to lexInit() rc_t destroy( handle_t& hRef ); // Rewind the lexer to the begining of the buffer (the same as post initialize state) rc_t reset( handle_t h ); // Verify that a lexer handle is valid bool isValid( handle_t h ); // Set a new text buffer and reset the lexer to the post initialize state. rc_t setTextBuffer( handle_t h, const char* cp, unsigned cn ); rc_t setFile( handle_t h, const char* fn ); // Register a user defined token. The id of the first user defined token should be // kUserLexTId+1. Neither the id or token text can be used by a previously registered // or built-in token. rc_t registerToken( handle_t h, unsigned id, const char* token ); // Register a user defined token recognition function. This function should return the count // of initial, consecutive, characters in 'cp[cn]' which match its token pattern. typedef unsigned (*lexUserMatcherPtr_t)( const char* cp, unsigned cn ); rc_t registerMatcher( handle_t h, unsigned id, lexUserMatcherPtr_t funcPtr ); // Enable or disable the specified token type. rc_t enableToken( handle_t h, unsigned id, bool enableFl ); // Get and set the lexer filter flags kReturnXXXLexFl. // These flags can be safely enabled and disabled between // calls to lexGetNextToken(). unsigned filterFlags( handle_t h ); void setFilterFlags( handle_t h, unsigned flags ); // Return the type id of the current token and advances to the next token unsigned getNextToken( handle_t h ); // Return the type id associated with the current token. This is the same value // returned by the previous call to lexGetNextToken(). unsigned tokenId( handle_t h ); // Return a pointer to the first character of text associated with the // current token. The returned pointer directly references the text contained // in the buffer given to the lexer in the call to lexInit(). The string // is therefore not zero terminated. Use lexTokenCharCount() to get the // length of the token string. const char* tokenText( handle_t h ); // Return the count of characters in the text associated with the current token. // This is the only way to get this count since the string returned by // lexTokenText() is not zero terminated. unsigned tokenCharCount( handle_t h ); // Return the value of the current token as an integer. int tokenInt( handle_t h ); // Return the value of the current token as an unsigned integer. unsigned tokenUInt( handle_t h ); // Return the value of the current token as a float. float tokenFloat( handle_t h ); // Return the value of the current token as a double. double tokenDouble( handle_t h ); // Return true if the current token is an int and it was suffixed // with 'u' to indicate that it is unsigned. bool tokenIsUnsigned( handle_t h ); // Return true if the current token is a real and it was suffexed // with 'f' to indicate that it is a single precision float. bool tokenIsSinglePrecision( handle_t h ); // Return the line number associated with the current token unsigned currentLineNumber( handle_t h ); // Return the starting column of the current token unsigned currentColumnNumber( handle_t h ); // Return the RC code associated with the last error unsigned errorRC( handle_t h ); // Return the label associated with a token id const char* idToLabel( handle_t h, unsigned typeId ); // Lexer testing stub. rc_t test( const test::test_args_t& args ); } } //) #endif