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# coding: US-ASCII # frozen_string_literal: false #-- # irb/ruby-lex.rb - ruby lexcal analyzer # $Release Version: 0.9.5$ # $Revision: 17979 $ # $Date: 2008-07-09 10:17:05 -0700 (Wed, 09 Jul 2008) $ # by Keiju ISHITSUKA(keiju@ruby-lang.org) # #++ require "e2mmap" require "irb/slex" require "stringio" ## # Ruby lexer adapted from irb. # # The internals are not documented because they are scary. class RDoc::RubyLex ## # Raised upon invalid input class Error < RDoc::Error end # :stopdoc: extend Exception2MessageMapper def_exception(:AlreadyDefinedToken, "Already defined token(%s)") def_exception(:TkReading2TokenNoKey, "key nothing(key='%s')") def_exception(:TkSymbol2TokenNoKey, "key nothing(key='%s')") def_exception(:TkReading2TokenDuplicateError, "key duplicate(token_n='%s', key='%s')") def_exception(:SyntaxError, "%s") def_exception(:TerminateLineInput, "Terminate Line Input") include RDoc::RubyToken include IRB attr_accessor :continue attr_accessor :lex_state attr_reader :reader class << self attr_accessor :debug_level end def self.debug? @debug_level > 0 end self.debug_level = 0 # :startdoc: ## # Returns an Array of +ruby+ tokens. See ::new for a description of # +options+. def self.tokenize ruby, options tokens = [] scanner = RDoc::RubyLex.new ruby, options scanner.exception_on_syntax_error = true while token = scanner.token do tokens << token end tokens end ## # Creates a new lexer for +content+. +options+ is an RDoc::Options, only # +tab_width is used. def initialize(content, options) lex_init if /\t/ =~ content then tab_width = options.tab_width content = content.split(/\n/).map do |line| 1 while line.gsub!(/\t+/) { ' ' * (tab_width*$&.length - $`.length % tab_width) } && $~ line end.join("\n") end content << "\n" unless content[-1, 1] == "\n" set_input StringIO.new content @base_char_no = 0 @char_no = 0 @exp_line_no = @line_no = 1 @here_readed = [] @readed = [] @rests = [] @seek = 0 @here_header = false @indent = 0 @indent_stack = [] @lex_state = :EXPR_BEG @space_seen = false @continue = false @line = "" @skip_space = false @readed_auto_clean_up = false @exception_on_syntax_error = true @prompt = nil @prev_seek = nil @ltype = nil end # :stopdoc: def inspect # :nodoc: "#<%s:0x%x pos %d lex_state %p space_seen %p>" % [ self.class, object_id, @io.pos, @lex_state, @space_seen, ] end attr_accessor :skip_space attr_accessor :readed_auto_clean_up attr_accessor :exception_on_syntax_error attr_reader :seek attr_reader :char_no attr_reader :line_no attr_reader :indent # io functions def set_input(io, p = nil, &block) @io = io if p.respond_to?(:call) @input = p elsif block_given? @input = block else @input = Proc.new{@io.gets} end end def get_readed if idx = @readed.rindex("\n") @base_char_no = @readed.size - (idx + 1) else @base_char_no += @readed.size end readed = @readed.join("") @readed = [] readed end def getc while @rests.empty? # return nil unless buf_input @rests.push nil unless buf_input end c = @rests.shift if @here_header @here_readed.push c else @readed.push c end @seek += 1 if c == "\n" @line_no += 1 @char_no = 0 else @char_no += 1 end c end def gets l = "" while c = getc l.concat(c) break if c == "\n" end return nil if l == "" and c.nil? l end def eof? @io.eof? end def getc_of_rests if @rests.empty? nil else getc end end def ungetc(c = nil) if @here_readed.empty? c2 = @readed.pop else c2 = @here_readed.pop end c = c2 unless c @rests.unshift c #c = @seek -= 1 if c == "\n" @line_no -= 1 if idx = @readed.rindex("\n") @char_no = idx + 1 else @char_no = @base_char_no + @readed.size end else @char_no -= 1 end end def peek_equal?(str) chrs = str.split(//) until @rests.size >= chrs.size return false unless buf_input end @rests[0, chrs.size] == chrs end def peek_match?(regexp) while @rests.empty? return false unless buf_input end regexp =~ @rests.join("") end def peek(i = 0) while @rests.size <= i return nil unless buf_input end @rests[i] end def buf_input prompt line = @input.call return nil unless line @rests.concat line.split(//) true end private :buf_input def set_prompt(p = nil, &block) p = block if block_given? if p.respond_to?(:call) @prompt = p else @prompt = Proc.new{print p} end end def prompt if @prompt @prompt.call(@ltype, @indent, @continue, @line_no) end end def initialize_input @ltype = nil @quoted = nil @indent = 0 @indent_stack = [] @lex_state = :EXPR_BEG @space_seen = false @here_header = false @continue = false prompt @line = "" @exp_line_no = @line_no end def each_top_level_statement initialize_input catch(:TERM_INPUT) do loop do begin @continue = false prompt unless l = lex throw :TERM_INPUT if @line == '' else #p l @line.concat l if @ltype or @continue or @indent > 0 next end end if @line != "\n" yield @line, @exp_line_no end break unless l @line = '' @exp_line_no = @line_no @indent = 0 @indent_stack = [] prompt rescue TerminateLineInput initialize_input prompt get_readed end end end end def lex until (((tk = token).kind_of?(TkNL) || tk.kind_of?(TkEND_OF_SCRIPT)) && !@continue or tk.nil?) #p tk #p @lex_state #p self end line = get_readed # print self.inspect if line == "" and tk.kind_of?(TkEND_OF_SCRIPT) || tk.nil? nil else line end end def token # require "tracer" # Tracer.on @prev_seek = @seek @prev_line_no = @line_no @prev_char_no = @char_no begin begin tk = @OP.match(self) @space_seen = tk.kind_of?(TkSPACE) rescue SyntaxError => e raise Error, "syntax error: #{e.message}" if @exception_on_syntax_error tk = TkError.new(@seek, @line_no, @char_no) end end while @skip_space and tk.kind_of?(TkSPACE) if @readed_auto_clean_up get_readed end # Tracer.off tk end ENINDENT_CLAUSE = [ "case", "class", "def", "do", "for", "if", "module", "unless", "until", "while", "begin" #, "when" ] DEINDENT_CLAUSE = ["end" #, "when" ] PERCENT_LTYPE = { "q" => "\'", "Q" => "\"", "x" => "\`", "r" => "/", "w" => "]", "W" => "]", "s" => ":" } PERCENT_PAREN = { "{" => "}", "[" => "]", "<" => ">", "(" => ")" } PERCENT_PAREN_REV = PERCENT_PAREN.invert Ltype2Token = { "\'" => TkSTRING, "\"" => TkSTRING, "\`" => TkXSTRING, "/" => TkREGEXP, "]" => TkDSTRING, ":" => TkSYMBOL } DLtype2Token = { "\"" => TkDSTRING, "\`" => TkDXSTRING, "/" => TkDREGEXP, } def lex_init() @OP = IRB::SLex.new @OP.def_rules("\0", "\004", "\032") do |op, io| Token(TkEND_OF_SCRIPT, '') end @OP.def_rules(" ", "\t", "\f", "\r", "\13") do |op, io| @space_seen = true str = op while (ch = getc) =~ /[ \t\f\r\13]/ do str << ch end ungetc Token TkSPACE, str end @OP.def_rule("#") do |op, io| identify_comment end @OP.def_rule("=begin", proc{|op, io| @prev_char_no == 0 && peek(0) =~ /\s/}) do |op, io| @ltype = "=" res = '' nil until getc == "\n" until ( peek_equal?("=end") && peek(4) =~ /\s/ ) do (ch = getc) res << ch end gets # consume =end @ltype = nil Token(TkRD_COMMENT, res) end @OP.def_rule("\n") do |op, io| print "\\n\n" if RDoc::RubyLex.debug? case @lex_state when :EXPR_BEG, :EXPR_FNAME, :EXPR_DOT @continue = true else @continue = false @lex_state = :EXPR_BEG until (@indent_stack.empty? || [TkLPAREN, TkLBRACK, TkLBRACE, TkfLPAREN, TkfLBRACK, TkfLBRACE].include?(@indent_stack.last)) @indent_stack.pop end end @here_header = false @here_readed = [] Token(TkNL) end @OP.def_rules("*", "**", "=", "==", "===", "=~", "<=>", "<", "<=", ">", ">=", ">>") do |op, io| case @lex_state when :EXPR_FNAME, :EXPR_DOT @lex_state = :EXPR_ARG else @lex_state = :EXPR_BEG end Token(op) end @OP.def_rules("!", "!=", "!~") do |op, io| @lex_state = :EXPR_BEG Token(op) end @OP.def_rules("<<") do |op, io| tk = nil if @lex_state != :EXPR_END && @lex_state != :EXPR_CLASS && (@lex_state != :EXPR_ARG || @space_seen) c = peek(0) if /\S/ =~ c && (/["'`]/ =~ c || /\w/ =~ c || c == "-") tk = identify_here_document end end unless tk tk = Token(op) case @lex_state when :EXPR_FNAME, :EXPR_DOT @lex_state = :EXPR_ARG else @lex_state = :EXPR_BEG end end tk end @OP.def_rules("'", '"') do |op, io| identify_string(op) end @OP.def_rules("`") do |op, io| if @lex_state == :EXPR_FNAME @lex_state = :EXPR_END Token(op) else identify_string(op) end end @OP.def_rules('?') do |op, io| if @lex_state == :EXPR_END @lex_state = :EXPR_BEG Token(TkQUESTION) else ch = getc if @lex_state == :EXPR_ARG && ch =~ /\s/ ungetc @lex_state = :EXPR_BEG; Token(TkQUESTION) else @lex_state = :EXPR_END Token(TkCHAR, "?#{ch}") end end end @OP.def_rules("&", "&&", "|", "||") do |op, io| @lex_state = :EXPR_BEG Token(op) end @OP.def_rules("+=", "-=", "*=", "**=", "&=", "|=", "^=", "<<=", ">>=", "||=", "&&=") do |op, io| @lex_state = :EXPR_BEG op =~ /^(.*)=$/ Token(TkOPASGN, $1) end @OP.def_rule("+@", proc{|op, io| @lex_state == :EXPR_FNAME}) do |op, io| @lex_state = :EXPR_ARG Token(op) end @OP.def_rule("-@", proc{|op, io| @lex_state == :EXPR_FNAME}) do |op, io| @lex_state = :EXPR_ARG Token(op) end @OP.def_rules("+", "-") do |op, io| catch(:RET) do if @lex_state == :EXPR_ARG if @space_seen and peek(0) =~ /[0-9]/ throw :RET, identify_number(op) else @lex_state = :EXPR_BEG end elsif @lex_state != :EXPR_END and peek(0) =~ /[0-9]/ throw :RET, identify_number(op) else @lex_state = :EXPR_BEG end Token(op) end end @OP.def_rule(".") do |op, io| @lex_state = :EXPR_BEG if peek(0) =~ /[0-9]/ ungetc identify_number else # for "obj.if" etc. @lex_state = :EXPR_DOT Token(TkDOT) end end @OP.def_rules("..", "...") do |op, io| @lex_state = :EXPR_BEG Token(op) end lex_int2 end def lex_int2 @OP.def_rules("]", "}", ")") do |op, io| @lex_state = :EXPR_END @indent -= 1 @indent_stack.pop Token(op) end @OP.def_rule(":") do |op, io| if @lex_state == :EXPR_END || peek(0) =~ /\s/ @lex_state = :EXPR_BEG Token(TkCOLON) else @lex_state = :EXPR_FNAME; Token(TkSYMBEG) end end @OP.def_rule("::") do |op, io| # p @lex_state.id2name, @space_seen if @lex_state == :EXPR_BEG or @lex_state == :EXPR_ARG && @space_seen @lex_state = :EXPR_BEG Token(TkCOLON3) else @lex_state = :EXPR_DOT Token(TkCOLON2) end end @OP.def_rule("/") do |op, io| if @lex_state == :EXPR_BEG || @lex_state == :EXPR_MID identify_string(op) elsif peek(0) == '=' getc @lex_state = :EXPR_BEG Token(TkOPASGN, "/") #/) elsif @lex_state == :EXPR_ARG and @space_seen and peek(0) !~ /\s/ identify_string(op) else @lex_state = :EXPR_BEG Token("/") #/) end end @OP.def_rules("^") do |op, io| @lex_state = :EXPR_BEG Token("^") end # @OP.def_rules("^=") do # @lex_state = :EXPR_BEG # Token(OP_ASGN, :^) # end @OP.def_rules(",") do |op, io| @lex_state = :EXPR_BEG Token(op) end @OP.def_rules(";") do |op, io| @lex_state = :EXPR_BEG until (@indent_stack.empty? || [TkLPAREN, TkLBRACK, TkLBRACE, TkfLPAREN, TkfLBRACK, TkfLBRACE].include?(@indent_stack.last)) @indent_stack.pop end Token(op) end @OP.def_rule("~") do |op, io| @lex_state = :EXPR_BEG Token("~") end @OP.def_rule("~@", proc{|op, io| @lex_state == :EXPR_FNAME}) do |op, io| @lex_state = :EXPR_BEG Token("~") end @OP.def_rule("(") do |op, io| @indent += 1 if @lex_state == :EXPR_BEG || @lex_state == :EXPR_MID @lex_state = :EXPR_BEG tk_c = TkfLPAREN else @lex_state = :EXPR_BEG tk_c = TkLPAREN end @indent_stack.push tk_c Token tk_c end @OP.def_rule("[]", proc{|op, io| @lex_state == :EXPR_FNAME}) do |op, io| @lex_state = :EXPR_ARG Token("[]") end @OP.def_rule("[]=", proc{|op, io| @lex_state == :EXPR_FNAME}) do |op, io| @lex_state = :EXPR_ARG Token("[]=") end @OP.def_rule("[") do |op, io| @indent += 1 if @lex_state == :EXPR_FNAME tk_c = TkfLBRACK else if @lex_state == :EXPR_BEG || @lex_state == :EXPR_MID tk_c = TkLBRACK elsif @lex_state == :EXPR_ARG && @space_seen tk_c = TkLBRACK else tk_c = TkfLBRACK end @lex_state = :EXPR_BEG end @indent_stack.push tk_c Token(tk_c) end @OP.def_rule("{") do |op, io| @indent += 1 if @lex_state != :EXPR_END && @lex_state != :EXPR_ARG tk_c = TkLBRACE else tk_c = TkfLBRACE end @lex_state = :EXPR_BEG @indent_stack.push tk_c Token(tk_c) end @OP.def_rule('\\') do |op, io| if getc == "\n" @space_seen = true @continue = true Token(TkSPACE) else ungetc Token("\\") end end @OP.def_rule('%') do |op, io| if @lex_state == :EXPR_BEG || @lex_state == :EXPR_MID identify_quotation elsif peek(0) == '=' getc Token(TkOPASGN, :%) elsif @lex_state == :EXPR_ARG and @space_seen and peek(0) !~ /\s/ identify_quotation else @lex_state = :EXPR_BEG Token("%") #)) end end @OP.def_rule('$') do |op, io| identify_gvar end @OP.def_rule('@') do |op, io| if peek(0) =~ /[\w@]/ ungetc identify_identifier else Token("@") end end # @OP.def_rule("def", proc{|op, io| /\s/ =~ io.peek(0)}) do # |op, io| # @indent += 1 # @lex_state = :EXPR_FNAME # # @lex_state = :EXPR_END # # until @rests[0] == "\n" or @rests[0] == ";" # # rests.shift # # end # end @OP.def_rule("_") do if peek_match?(/_END__/) and @lex_state == :EXPR_BEG then 6.times { getc } Token(TkEND_OF_SCRIPT, '__END__') else ungetc identify_identifier end end @OP.def_rule("") do |op, io| printf "MATCH: start %s: %s\n", op, io.inspect if RDoc::RubyLex.debug? if peek(0) =~ /[0-9]/ t = identify_number else t = identify_identifier end printf "MATCH: end %s: %s\n", op, io.inspect if RDoc::RubyLex.debug? t end p @OP if RDoc::RubyLex.debug? end def identify_gvar @lex_state = :EXPR_END case ch = getc when /[~_*$?!@\/\\;,=:<>".]/ #" Token(TkGVAR, "$" + ch) when "-" Token(TkGVAR, "$-" + getc) when "&", "`", "'", "+" Token(TkBACK_REF, "$"+ch) when /[1-9]/ ref = ch while (ch = getc) =~ /[0-9]/ do ref << ch end ungetc Token(TkNTH_REF, "$#{ref}") when /\w/ ungetc ungetc identify_identifier else ungetc Token("$") end end IDENT_RE = if defined? Encoding then eval '/[\w\u{0080}-\u{FFFFF}]/u' # 1.8 can't parse \u{} else /[\w\x80-\xFF]/ end def identify_identifier token = "" if peek(0) =~ /[$@]/ token.concat(c = getc) if c == "@" and peek(0) == "@" token.concat getc end end while (ch = getc) =~ IDENT_RE do print " :#{ch}: " if RDoc::RubyLex.debug? token.concat ch end ungetc if (ch == "!" || ch == "?") && token[0,1] =~ /\w/ && peek(0) != "=" token.concat getc end # almost fix token case token when /^\$/ return Token(TkGVAR, token) when /^\@\@/ @lex_state = :EXPR_END # p Token(TkCVAR, token) return Token(TkCVAR, token) when /^\@/ @lex_state = :EXPR_END return Token(TkIVAR, token) end if @lex_state != :EXPR_DOT print token, "\n" if RDoc::RubyLex.debug? token_c, *trans = TkReading2Token[token] if token_c # reserved word? if (@lex_state != :EXPR_BEG && @lex_state != :EXPR_FNAME && trans[1]) # modifiers token_c = TkSymbol2Token[trans[1]] @lex_state = trans[0] else if @lex_state != :EXPR_FNAME if ENINDENT_CLAUSE.include?(token) valid = peek(0) != ':' # check for ``class = val'' etc. case token when "class" valid = false unless peek_match?(/^\s*(<<|\w|::)/) when "def" valid = false if peek_match?(/^\s*(([+-\/*&\|^]|<<|>>|\|\||\&\&)=|\&\&|\|\|)/) when "do" valid = false if peek_match?(/^\s*([+-\/*]?=|\*|<|>|\&)/) when *ENINDENT_CLAUSE valid = false if peek_match?(/^\s*([+-\/*]?=|\*|<|>|\&|\|)/) else # no nothing end if valid if valid if token == "do" if ![TkFOR, TkWHILE, TkUNTIL].include?(@indent_stack.last) @indent += 1 @indent_stack.push token_c end else @indent += 1 @indent_stack.push token_c end else token_c = TkIDENTIFIER end elsif DEINDENT_CLAUSE.include?(token) @indent -= 1 @indent_stack.pop end @lex_state = trans[0] else @lex_state = :EXPR_END end end return Token(token_c, token) end end if @lex_state == :EXPR_FNAME @lex_state = :EXPR_END if peek(0) == '=' token.concat getc end elsif @lex_state == :EXPR_BEG || @lex_state == :EXPR_DOT || @lex_state == :EXPR_ARG @lex_state = :EXPR_ARG else @lex_state = :EXPR_END end if token[0, 1] =~ /[A-Z]/ return Token(TkCONSTANT, token) elsif token[token.size - 1, 1] =~ /[!?]/ return Token(TkFID, token) else return Token(TkIDENTIFIER, token) end end def identify_here_document ch = getc # if lt = PERCENT_LTYPE[ch] if ch == "-" ch = getc indent = true end if /['"`]/ =~ ch user_quote = lt = ch quoted = "" while (c = getc) && c != lt quoted.concat c end else user_quote = nil lt = '"' quoted = ch.dup while (c = getc) && c =~ /\w/ quoted.concat c end ungetc end ltback, @ltype = @ltype, lt reserve = [] while ch = getc reserve.push ch if ch == "\\" reserve.push ch = getc elsif ch == "\n" break end end output_heredoc = reserve.join =~ /\A\r?\n\z/ if output_heredoc then doc = '<<' doc << '-' if indent doc << "#{user_quote}#{quoted}#{user_quote}\n" else doc = '"' end @here_header = false while l = gets l = l.sub(/(:?\r)?\n\z/, "\n") if (indent ? l.strip : l.chomp) == quoted break end doc << l end if output_heredoc then raise Error, "Missing terminating #{quoted} for string" unless l doc << l.chomp else doc << '"' end @here_header = true @here_readed.concat reserve while ch = reserve.pop ungetc ch end token_class = output_heredoc ? RDoc::RubyLex::TkHEREDOC : Ltype2Token[lt] @ltype = ltback @lex_state = :EXPR_END Token(token_class, doc) end def identify_quotation type = ch = getc if lt = PERCENT_LTYPE[type] ch = getc elsif type =~ /\W/ type = nil lt = "\"" else return Token(TkMOD, '%') end # if ch !~ /\W/ # ungetc # next # end #@ltype = lt @quoted = ch unless @quoted = PERCENT_PAREN[ch] identify_string(lt, @quoted, type) end def identify_number(op = "") @lex_state = :EXPR_END num = op if peek(0) == "0" && peek(1) !~ /[.eE]/ num << getc case peek(0) when /[xX]/ ch = getc match = /[0-9a-fA-F_]/ when /[bB]/ ch = getc match = /[01_]/ when /[oO]/ ch = getc match = /[0-7_]/ when /[dD]/ ch = getc match = /[0-9_]/ when /[0-7]/ match = /[0-7_]/ when /[89]/ raise Error, "Illegal octal digit" else return Token(TkINTEGER, num) end num << ch if ch len0 = true non_digit = false while ch = getc num << ch if match =~ ch if ch == "_" if non_digit raise Error, "trailing `#{ch}' in number" else non_digit = ch end else non_digit = false len0 = false end else ungetc num[-1, 1] = '' if len0 raise Error, "numeric literal without digits" end if non_digit raise Error, "trailing `#{non_digit}' in number" end break end end return Token(TkINTEGER, num) end type = TkINTEGER allow_point = true allow_e = true non_digit = false while ch = getc num << ch case ch when /[0-9]/ non_digit = false when "_" non_digit = ch when allow_point && "." if non_digit raise Error, "trailing `#{non_digit}' in number" end type = TkFLOAT if peek(0) !~ /[0-9]/ type = TkINTEGER ungetc num[-1, 1] = '' break end allow_point = false when allow_e && "e", allow_e && "E" if non_digit raise Error, "trailing `#{non_digit}' in number" end type = TkFLOAT if peek(0) =~ /[+-]/ num << getc end allow_e = false allow_point = false non_digit = ch else if non_digit raise Error, "trailing `#{non_digit}' in number" end ungetc num[-1, 1] = '' break end end Token(type, num) end def identify_string(ltype, quoted = ltype, type = nil) close = PERCENT_PAREN.values.include?(quoted) @ltype = ltype @quoted = quoted str = if ltype == quoted and %w[" ' /].include? ltype then ltype.dup elsif RUBY_VERSION > '1.9' then "%#{type or PERCENT_LTYPE.key ltype}#{PERCENT_PAREN_REV[quoted]||quoted}" else "%#{type or PERCENT_LTYPE.index ltype}#{PERCENT_PAREN_REV[quoted]||quoted}" end subtype = nil begin nest = 0 while ch = getc str << ch if @quoted == ch and nest <= 0 break elsif @ltype != "'" && @ltype != "]" && @ltype != ":" and ch == "#" ch = getc subtype = true if ch == "{" then str << ch << skip_inner_expression next else ungetc end elsif ch == '\\' if %w[' /].include? @ltype then case ch = getc when "\\", "\n", "'" when @ltype str << ch else ungetc end else str << read_escape end end if close then if PERCENT_PAREN[ch] == @quoted nest += 1 elsif ch == @quoted nest -= 1 end end end if @ltype == "/" while peek(0) =~ /i|m|x|o|e|s|u|n/ str << getc end end if subtype Token(DLtype2Token[ltype], str) else Token(Ltype2Token[ltype], str) end ensure @ltype = nil @quoted = nil @lex_state = :EXPR_END end end def skip_inner_expression res = "" nest = 0 while ch = getc res << ch if ch == '}' break if nest.zero? nest -= 1 elsif ch == '{' nest += 1 end end res end def identify_comment @ltype = "#" comment = '#' while ch = getc # if ch == "\\" #" # read_escape # end if ch == "\n" @ltype = nil ungetc break end comment << ch end return Token(TkCOMMENT, comment) end def read_escape escape = '' ch = getc case ch when "\n", "\r", "\f" escape << ch when "\\", "n", "t", "r", "f", "v", "a", "e", "b", "s" #" escape << ch when /[0-7]/ ungetc ch 3.times do ch = getc case ch when /[0-7]/ escape << ch when nil break else ungetc break end end when "x" escape << ch 2.times do ch = getc case ch when /[0-9a-fA-F]/ escape << ch when nil break else ungetc break end end when "M" escape << ch ch = getc if ch != '-' ungetc else escape << ch ch = getc if ch == "\\" #" ungetc escape << read_escape else escape << ch end end when "C", "c" #, "^" escape << ch if ch == "C" ch = getc if ch == "-" escape << ch ch = getc escape << ch escape << read_escape if ch == "\\" else ungetc end elsif (ch = getc) == "\\" #" escape << ch << read_escape end else escape << ch # other characters end escape end # :startdoc: end #RDoc::RubyLex.debug_level = 1