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Direktori : /proc/thread-self/root/opt/alt/ruby18/lib64/ruby/1.8/rdoc/parsers/ |
Current File : //proc/thread-self/root/opt/alt/ruby18/lib64/ruby/1.8/rdoc/parsers/parse_rb.rb |
#!/usr/local/bin/ruby # Parse a Ruby source file, building a set of objects # representing the modules, classes, methods, # requires, and includes we find (these classes # are defined in code_objects.rb). # This file contains stuff stolen outright from: # # rtags.rb - # ruby-lex.rb - ruby lexcal analizer # ruby-token.rb - ruby tokens # by Keiju ISHITSUKA (Nippon Rational Inc.) # require "e2mmap" require "irb/slex" require "rdoc/code_objects" require "rdoc/tokenstream" require "rdoc/markup/simple_markup/preprocess" require "rdoc/parsers/parserfactory" $TOKEN_DEBUG = $DEBUG # Definitions of all tokens involved in the lexical analysis module RubyToken EXPR_BEG = :EXPR_BEG EXPR_MID = :EXPR_MID EXPR_END = :EXPR_END EXPR_ARG = :EXPR_ARG EXPR_FNAME = :EXPR_FNAME EXPR_DOT = :EXPR_DOT EXPR_CLASS = :EXPR_CLASS class Token NO_TEXT = "??".freeze attr :text def initialize(line_no, char_no) @line_no = line_no @char_no = char_no @text = NO_TEXT end # Because we're used in contexts that expect to return a token, # we set the text string and then return ourselves def set_text(text) @text = text self end attr_reader :line_no, :char_no, :text end class TkNode < Token attr :node end class TkId < Token def initialize(line_no, char_no, name) super(line_no, char_no) @name = name end attr :name end class TkKW < TkId end class TkVal < Token def initialize(line_no, char_no, value = nil) super(line_no, char_no) set_text(value) end end class TkOp < Token def name self.class.op_name end end class TkOPASGN < TkOp def initialize(line_no, char_no, op) super(line_no, char_no) op = TkReading2Token[op] unless op.kind_of?(Symbol) @op = op end attr :op end class TkUnknownChar < Token def initialize(line_no, char_no, id) super(line_no, char_no) @name = char_no.chr end attr :name end class TkError < Token end def set_token_position(line, char) @prev_line_no = line @prev_char_no = char end def Token(token, value = nil) tk = nil case token when String, Symbol source = token.kind_of?(String) ? TkReading2Token : TkSymbol2Token if (tk = source[token]).nil? IRB.fail TkReading2TokenNoKey, token end tk = Token(tk[0], value) else tk = if (token.ancestors & [TkId, TkVal, TkOPASGN, TkUnknownChar]).empty? token.new(@prev_line_no, @prev_char_no) else token.new(@prev_line_no, @prev_char_no, value) end end tk end TokenDefinitions = [ [:TkCLASS, TkKW, "class", EXPR_CLASS], [:TkMODULE, TkKW, "module", EXPR_BEG], [:TkDEF, TkKW, "def", EXPR_FNAME], [:TkUNDEF, TkKW, "undef", EXPR_FNAME], [:TkBEGIN, TkKW, "begin", EXPR_BEG], [:TkRESCUE, TkKW, "rescue", EXPR_MID], [:TkENSURE, TkKW, "ensure", EXPR_BEG], [:TkEND, TkKW, "end", EXPR_END], [:TkIF, TkKW, "if", EXPR_BEG, :TkIF_MOD], [:TkUNLESS, TkKW, "unless", EXPR_BEG, :TkUNLESS_MOD], [:TkTHEN, TkKW, "then", EXPR_BEG], [:TkELSIF, TkKW, "elsif", EXPR_BEG], [:TkELSE, TkKW, "else", EXPR_BEG], [:TkCASE, TkKW, "case", EXPR_BEG], [:TkWHEN, TkKW, "when", EXPR_BEG], [:TkWHILE, TkKW, "while", EXPR_BEG, :TkWHILE_MOD], [:TkUNTIL, TkKW, "until", EXPR_BEG, :TkUNTIL_MOD], [:TkFOR, TkKW, "for", EXPR_BEG], [:TkBREAK, TkKW, "break", EXPR_END], [:TkNEXT, TkKW, "next", EXPR_END], [:TkREDO, TkKW, "redo", EXPR_END], [:TkRETRY, TkKW, "retry", EXPR_END], [:TkIN, TkKW, "in", EXPR_BEG], [:TkDO, TkKW, "do", EXPR_BEG], [:TkRETURN, TkKW, "return", EXPR_MID], [:TkYIELD, TkKW, "yield", EXPR_END], [:TkSUPER, TkKW, "super", EXPR_END], [:TkSELF, TkKW, "self", EXPR_END], [:TkNIL, TkKW, "nil", EXPR_END], [:TkTRUE, TkKW, "true", EXPR_END], [:TkFALSE, TkKW, "false", EXPR_END], [:TkAND, TkKW, "and", EXPR_BEG], [:TkOR, TkKW, "or", EXPR_BEG], [:TkNOT, TkKW, "not", EXPR_BEG], [:TkIF_MOD, TkKW], [:TkUNLESS_MOD, TkKW], [:TkWHILE_MOD, TkKW], [:TkUNTIL_MOD, TkKW], [:TkALIAS, TkKW, "alias", EXPR_FNAME], [:TkDEFINED, TkKW, "defined?", EXPR_END], [:TklBEGIN, TkKW, "BEGIN", EXPR_END], [:TklEND, TkKW, "END", EXPR_END], [:Tk__LINE__, TkKW, "__LINE__", EXPR_END], [:Tk__FILE__, TkKW, "__FILE__", EXPR_END], [:TkIDENTIFIER, TkId], [:TkFID, TkId], [:TkGVAR, TkId], [:TkIVAR, TkId], [:TkCONSTANT, TkId], [:TkINTEGER, TkVal], [:TkFLOAT, TkVal], [:TkSTRING, TkVal], [:TkXSTRING, TkVal], [:TkREGEXP, TkVal], [:TkCOMMENT, TkVal], [:TkDSTRING, TkNode], [:TkDXSTRING, TkNode], [:TkDREGEXP, TkNode], [:TkNTH_REF, TkId], [:TkBACK_REF, TkId], [:TkUPLUS, TkOp, "+@"], [:TkUMINUS, TkOp, "-@"], [:TkPOW, TkOp, "**"], [:TkCMP, TkOp, "<=>"], [:TkEQ, TkOp, "=="], [:TkEQQ, TkOp, "==="], [:TkNEQ, TkOp, "!="], [:TkGEQ, TkOp, ">="], [:TkLEQ, TkOp, "<="], [:TkANDOP, TkOp, "&&"], [:TkOROP, TkOp, "||"], [:TkMATCH, TkOp, "=~"], [:TkNMATCH, TkOp, "!~"], [:TkDOT2, TkOp, ".."], [:TkDOT3, TkOp, "..."], [:TkAREF, TkOp, "[]"], [:TkASET, TkOp, "[]="], [:TkLSHFT, TkOp, "<<"], [:TkRSHFT, TkOp, ">>"], [:TkCOLON2, TkOp], [:TkCOLON3, TkOp], # [:OPASGN, TkOp], # +=, -= etc. # [:TkASSOC, TkOp, "=>"], [:TkQUESTION, TkOp, "?"], #? [:TkCOLON, TkOp, ":"], #: [:TkfLPAREN], # func( # [:TkfLBRACK], # func[ # [:TkfLBRACE], # func{ # [:TkSTAR], # *arg [:TkAMPER], # &arg # [:TkSYMBOL, TkId], # :SYMBOL [:TkSYMBEG, TkId], [:TkGT, TkOp, ">"], [:TkLT, TkOp, "<"], [:TkPLUS, TkOp, "+"], [:TkMINUS, TkOp, "-"], [:TkMULT, TkOp, "*"], [:TkDIV, TkOp, "/"], [:TkMOD, TkOp, "%"], [:TkBITOR, TkOp, "|"], [:TkBITXOR, TkOp, "^"], [:TkBITAND, TkOp, "&"], [:TkBITNOT, TkOp, "~"], [:TkNOTOP, TkOp, "!"], [:TkBACKQUOTE, TkOp, "`"], [:TkASSIGN, Token, "="], [:TkDOT, Token, "."], [:TkLPAREN, Token, "("], #(exp) [:TkLBRACK, Token, "["], #[arry] [:TkLBRACE, Token, "{"], #{hash} [:TkRPAREN, Token, ")"], [:TkRBRACK, Token, "]"], [:TkRBRACE, Token, "}"], [:TkCOMMA, Token, ","], [:TkSEMICOLON, Token, ";"], [:TkRD_COMMENT], [:TkSPACE], [:TkNL], [:TkEND_OF_SCRIPT], [:TkBACKSLASH, TkUnknownChar, "\\"], [:TkAT, TkUnknownChar, "@"], [:TkDOLLAR, TkUnknownChar, "\$"], #" ] # {reading => token_class} # {reading => [token_class, *opt]} TkReading2Token = {} TkSymbol2Token = {} def RubyToken.def_token(token_n, super_token = Token, reading = nil, *opts) token_n = token_n.id2name unless token_n.kind_of?(String) if RubyToken.const_defined?(token_n) IRB.fail AlreadyDefinedToken, token_n end token_c = Class.new super_token RubyToken.const_set token_n, token_c # token_c.inspect if reading if TkReading2Token[reading] IRB.fail TkReading2TokenDuplicateError, token_n, reading end if opts.empty? TkReading2Token[reading] = [token_c] else TkReading2Token[reading] = [token_c].concat(opts) end end TkSymbol2Token[token_n.intern] = token_c if token_c <= TkOp token_c.class_eval %{ def self.op_name; "#{reading}"; end } end end for defs in TokenDefinitions def_token(*defs) end NEWLINE_TOKEN = TkNL.new(0,0) NEWLINE_TOKEN.set_text("\n") end # Lexical analyzer for Ruby source class RubyLex ###################################################################### # # Read an input stream character by character. We allow for unlimited # ungetting of characters just read. # # We simplify the implementation greatly by reading the entire input # into a buffer initially, and then simply traversing it using # pointers. # # We also have to allow for the <i>here document diversion</i>. This # little gem comes about when the lexer encounters a here # document. At this point we effectively need to split the input # stream into two parts: one to read the body of the here document, # the other to read the rest of the input line where the here # document was initially encountered. For example, we might have # # do_something(<<-A, <<-B) # stuff # for # A # stuff # for # B # # When the lexer encounters the <<A, it reads until the end of the # line, and keeps it around for later. It then reads the body of the # here document. Once complete, it needs to read the rest of the # original line, but then skip the here document body. # class BufferedReader attr_reader :line_num def initialize(content) if /\t/ =~ content tab_width = Options.instance.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 = content @content << "\n" unless @content[-1,1] == "\n" @size = @content.size @offset = 0 @hwm = 0 @line_num = 1 @read_back_offset = 0 @last_newline = 0 @newline_pending = false end def column @offset - @last_newline end def getc return nil if @offset >= @size ch = @content[@offset, 1] @offset += 1 @hwm = @offset if @hwm < @offset if @newline_pending @line_num += 1 @last_newline = @offset - 1 @newline_pending = false end if ch == "\n" @newline_pending = true end ch end def getc_already_read getc end def ungetc(ch) raise "unget past beginning of file" if @offset <= 0 @offset -= 1 if @content[@offset] == ?\n @newline_pending = false end end def get_read res = @content[@read_back_offset...@offset] @read_back_offset = @offset res end def peek(at) pos = @offset + at if pos >= @size nil else @content[pos, 1] end end def peek_equal(str) @content[@offset, str.length] == str end def divert_read_from(reserve) @content[@offset, 0] = reserve @size = @content.size end end # end of nested class BufferedReader 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") include RubyToken include IRB attr_reader :continue attr_reader :lex_state def RubyLex.debug? false end def initialize(content) lex_init @reader = BufferedReader.new(content) @exp_line_no = @line_no = 1 @base_char_no = 0 @indent = 0 @ltype = nil @quoted = nil @lex_state = EXPR_BEG @space_seen = false @continue = false @line = "" @skip_space = false @read_auto_clean_up = false @exception_on_syntax_error = true end attr :skip_space, true attr :read_auto_clean_up, true attr :exception_on_syntax_error, true attr :indent # io functions def line_no @reader.line_num end def char_no @reader.column end def get_read @reader.get_read end def getc @reader.getc end def getc_of_rests @reader.getc_already_read end def gets c = getc or return l = "" begin l.concat c unless c == "\r" break if c == "\n" end while c = getc l end def ungetc(c = nil) @reader.ungetc(c) end def peek_equal?(str) @reader.peek_equal(str) end def peek(i = 0) @reader.peek(i) end def lex until (((tk = token).kind_of?(TkNL) || tk.kind_of?(TkEND_OF_SCRIPT)) && !@continue or tk.nil?) end line = get_read if line == "" and tk.kind_of?(TkEND_OF_SCRIPT) || tk.nil? nil else line end end def token set_token_position(line_no, char_no) begin begin tk = @OP.match(self) @space_seen = tk.kind_of?(TkSPACE) rescue SyntaxError abort if @exception_on_syntax_error tk = TkError.new(line_no, char_no) end end while @skip_space and tk.kind_of?(TkSPACE) if @read_auto_clean_up get_read end # throw :eof unless tk p tk if $DEBUG 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" => "]" } PERCENT_PAREN = { "{" => "}", "[" => "]", "<" => ">", "(" => ")" } Ltype2Token = { "\'" => TkSTRING, "\"" => TkSTRING, "\`" => TkXSTRING, "/" => TkREGEXP, "]" => TkDSTRING } Ltype2Token.default = TkSTRING DLtype2Token = { "\"" => TkDSTRING, "\`" => TkDXSTRING, "/" => TkDREGEXP, } def lex_init() @OP = SLex.new @OP.def_rules("\0", "\004", "\032") do |chars, io| Token(TkEND_OF_SCRIPT).set_text(chars) end @OP.def_rules(" ", "\t", "\f", "\r", "\13") do |chars, io| @space_seen = TRUE while (ch = getc) =~ /[ \t\f\r\13]/ chars << ch end ungetc Token(TkSPACE).set_text(chars) end @OP.def_rule("#") do |op, io| identify_comment end @OP.def_rule("=begin", proc{@prev_char_no == 0 && peek(0) =~ /\s/}) do |op, io| str = op @ltype = "=" begin line = "" begin ch = getc line << ch end until ch == "\n" str << line end until line =~ /^=end/ ungetc @ltype = nil if str =~ /\A=begin\s+rdoc/i str.sub!(/\A=begin.*\n/, '') str.sub!(/^=end.*/m, '') Token(TkCOMMENT).set_text(str) else Token(TkRD_COMMENT)#.set_text(str) end end @OP.def_rule("\n") do print "\\n\n" if RubyLex.debug? case @lex_state when EXPR_BEG, EXPR_FNAME, EXPR_DOT @continue = TRUE else @continue = FALSE @lex_state = EXPR_BEG end Token(TkNL).set_text("\n") end @OP.def_rules("*", "**", "!", "!=", "!~", "=", "==", "===", "=~", "<=>", "<", "<=", ">", ">=", ">>") do |op, io| @lex_state = EXPR_BEG Token(op).set_text(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 /[-\w_\"\'\`]/ =~ c tk = identify_here_document end end if !tk @lex_state = EXPR_BEG tk = Token(op).set_text(op) end tk end @OP.def_rules("'", '"') do |op, io| identify_string(op) end @OP.def_rules("`") do |op, io| if @lex_state == EXPR_FNAME Token(op).set_text(op) else identify_string(op) end end @OP.def_rules('?') do |op, io| if @lex_state == EXPR_END @lex_state = EXPR_BEG Token(TkQUESTION).set_text(op) else ch = getc if @lex_state == EXPR_ARG && ch !~ /\s/ ungetc @lex_state = EXPR_BEG; Token(TkQUESTION).set_text(op) else str = op str << ch if (ch == '\\') #' str << read_escape end @lex_state = EXPR_END Token(TkINTEGER).set_text(str) end end end @OP.def_rules("&", "&&", "|", "||") do |op, io| @lex_state = EXPR_BEG Token(op).set_text(op) end @OP.def_rules("+=", "-=", "*=", "**=", "&=", "|=", "^=", "<<=", ">>=", "||=", "&&=") do |op, io| @lex_state = EXPR_BEG op =~ /^(.*)=$/ Token(TkOPASGN, $1).set_text(op) end @OP.def_rule("+@", proc{@lex_state == EXPR_FNAME}) do |op, io| Token(TkUPLUS).set_text(op) end @OP.def_rule("-@", proc{@lex_state == EXPR_FNAME}) do |op, io| Token(TkUMINUS).set_text(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).set_text(op) end end @OP.def_rule(".") do @lex_state = EXPR_BEG if peek(0) =~ /[0-9]/ ungetc identify_number("") else # for obj.if @lex_state = EXPR_DOT Token(TkDOT).set_text(".") end end @OP.def_rules("..", "...") do |op, io| @lex_state = EXPR_BEG Token(op).set_text(op) end lex_int2 end def lex_int2 @OP.def_rules("]", "}", ")") do |op, io| @lex_state = EXPR_END @indent -= 1 Token(op).set_text(op) end @OP.def_rule(":") do if @lex_state == EXPR_END || peek(0) =~ /\s/ @lex_state = EXPR_BEG tk = Token(TkCOLON) else @lex_state = EXPR_FNAME; tk = Token(TkSYMBEG) end tk.set_text(":") end @OP.def_rule("::") do # p @lex_state.id2name, @space_seen if @lex_state == EXPR_BEG or @lex_state == EXPR_ARG && @space_seen @lex_state = EXPR_BEG tk = Token(TkCOLON3) else @lex_state = EXPR_DOT tk = Token(TkCOLON2) end tk.set_text("::") 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, :/).set_text("/=") #") elsif @lex_state == EXPR_ARG and @space_seen and peek(0) !~ /\s/ identify_string(op) else @lex_state = EXPR_BEG Token("/").set_text(op) end end @OP.def_rules("^") do @lex_state = EXPR_BEG Token("^").set_text("^") end # @OP.def_rules("^=") do # @lex_state = EXPR_BEG # Token(TkOPASGN, :^) # end @OP.def_rules(",", ";") do |op, io| @lex_state = EXPR_BEG Token(op).set_text(op) end @OP.def_rule("~") do @lex_state = EXPR_BEG Token("~").set_text("~") end @OP.def_rule("~@", proc{@lex_state = EXPR_FNAME}) do @lex_state = EXPR_BEG Token("~").set_text("~@") end @OP.def_rule("(") do @indent += 1 if @lex_state == EXPR_BEG || @lex_state == EXPR_MID @lex_state = EXPR_BEG tk = Token(TkfLPAREN) else @lex_state = EXPR_BEG tk = Token(TkLPAREN) end tk.set_text("(") end @OP.def_rule("[]", proc{@lex_state == EXPR_FNAME}) do Token("[]").set_text("[]") end @OP.def_rule("[]=", proc{@lex_state == EXPR_FNAME}) do Token("[]=").set_text("[]=") end @OP.def_rule("[") do @indent += 1 if @lex_state == EXPR_FNAME t = Token(TkfLBRACK) else if @lex_state == EXPR_BEG || @lex_state == EXPR_MID t = Token(TkLBRACK) elsif @lex_state == EXPR_ARG && @space_seen t = Token(TkLBRACK) else t = Token(TkfLBRACK) end @lex_state = EXPR_BEG end t.set_text("[") end @OP.def_rule("{") do @indent += 1 if @lex_state != EXPR_END && @lex_state != EXPR_ARG t = Token(TkLBRACE) else t = Token(TkfLBRACE) end @lex_state = EXPR_BEG t.set_text("{") end @OP.def_rule('\\') do #' if getc == "\n" @space_seen = true @continue = true Token(TkSPACE).set_text("\\\n") else ungetc Token("\\").set_text("\\") #" 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, "%").set_text("%=") elsif @lex_state == EXPR_ARG and @space_seen and peek(0) !~ /\s/ identify_quotation('%') else @lex_state = EXPR_BEG Token("%").set_text("%") end end @OP.def_rule('$') do #' identify_gvar end @OP.def_rule('@') do if peek(0) =~ /[@\w_]/ ungetc identify_identifier else Token("@").set_text("@") 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("__END__", proc{@prev_char_no == 0 && peek(0) =~ /[\r\n]/}) do throw :eof end @OP.def_rule("") do |op, io| printf "MATCH: start %s: %s\n", op, io.inspect if RubyLex.debug? if peek(0) =~ /[0-9]/ t = identify_number("") elsif peek(0) =~ /[\w_]/ t = identify_identifier end printf "MATCH: end %s: %s\n", op, io.inspect if RubyLex.debug? t end p @OP if RubyLex.debug? end def identify_gvar @lex_state = EXPR_END str = "$" tk = case ch = getc when /[~_*$?!@\/\\;,=:<>".]/ #" str << ch Token(TkGVAR, str) when "-" str << "-" << getc Token(TkGVAR, str) when "&", "`", "'", "+" str << ch Token(TkBACK_REF, str) when /[1-9]/ str << ch while (ch = getc) =~ /[0-9]/ str << ch end ungetc Token(TkNTH_REF) when /\w/ ungetc ungetc return identify_identifier else ungetc Token("$") end tk.set_text(str) end def identify_identifier token = "" token.concat getc if peek(0) =~ /[$@]/ token.concat getc if peek(0) == "@" while (ch = getc) =~ /\w|_/ print ":", ch, ":" if RubyLex.debug? token.concat ch end ungetc if ch == "!" or ch == "?" token.concat getc end # fix token # $stderr.puts "identifier - #{token}, state = #@lex_state" case token when /^\$/ return Token(TkGVAR, token).set_text(token) when /^\@/ @lex_state = EXPR_END return Token(TkIVAR, token).set_text(token) end if @lex_state != EXPR_DOT print token, "\n" if 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) @indent += 1 elsif DEINDENT_CLAUSE.include?(token) @indent -= 1 end @lex_state = trans[0] else @lex_state = EXPR_END end end return Token(token_c, token).set_text(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 else @lex_state = EXPR_END end if token[0, 1] =~ /[A-Z]/ return Token(TkCONSTANT, token).set_text(token) elsif token[token.size - 1, 1] =~ /[!?]/ return Token(TkFID, token).set_text(token) else return Token(TkIDENTIFIER, token).set_text(token) end end def identify_here_document ch = getc if ch == "-" ch = getc indent = true end if /['"`]/ =~ ch # ' lt = ch quoted = "" while (c = getc) && c != lt quoted.concat c end else lt = '"' quoted = ch.dup while (c = getc) && c =~ /\w/ quoted.concat c end ungetc end ltback, @ltype = @ltype, lt reserve = "" while ch = getc reserve << ch if ch == "\\" #" ch = getc reserve << ch elsif ch == "\n" break end end str = "" while (l = gets) l.chomp! l.strip! if indent break if l == quoted str << l.chomp << "\n" end @reader.divert_read_from(reserve) @ltype = ltback @lex_state = EXPR_END Token(Ltype2Token[lt], str).set_text(str.dump) end def identify_quotation(initial_char) ch = getc if lt = PERCENT_LTYPE[ch] initial_char += ch ch = getc elsif ch =~ /\W/ lt = "\"" else RubyLex.fail SyntaxError, "unknown type of %string ('#{ch}')" end # if ch !~ /\W/ # ungetc # next # end #@ltype = lt @quoted = ch unless @quoted = PERCENT_PAREN[ch] identify_string(lt, @quoted, ch, initial_char) end def identify_number(start) str = start.dup if start == "+" or start == "-" or start == "" start = getc str << start end @lex_state = EXPR_END if start == "0" if peek(0) == "x" ch = getc str << ch match = /[0-9a-f_]/ else match = /[0-7_]/ end while ch = getc if ch !~ match ungetc break else str << ch end end return Token(TkINTEGER).set_text(str) end type = TkINTEGER allow_point = TRUE allow_e = TRUE while ch = getc case ch when /[0-9_]/ str << ch when allow_point && "." type = TkFLOAT if peek(0) !~ /[0-9]/ ungetc break end str << ch allow_point = false when allow_e && "e", allow_e && "E" str << ch type = TkFLOAT if peek(0) =~ /[+-]/ str << getc end allow_e = false allow_point = false else ungetc break end end Token(type).set_text(str) end def identify_string(ltype, quoted = ltype, opener=nil, initial_char = nil) @ltype = ltype @quoted = quoted subtype = nil str = "" str << initial_char if initial_char str << (opener||quoted) nest = 0 begin while ch = getc str << ch if @quoted == ch if nest == 0 break else nest -= 1 end elsif opener == ch nest += 1 elsif @ltype != "'" && @ltype != "]" and ch == "#" ch = getc if ch == "{" subtype = true str << ch << skip_inner_expression else ungetc(ch) end elsif ch == '\\' #' str << read_escape end end if @ltype == "/" if peek(0) =~ /i|o|n|e|s/ str << getc end end if subtype Token(DLtype2Token[ltype], str) else Token(Ltype2Token[ltype], str) end.set_text(str) 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 == "\\" ch = getc if ch == "\n" ch = " " else comment << "\\" end else if ch == "\n" @ltype = nil ungetc break end end comment << ch end return Token(TkCOMMENT).set_text(comment) end def read_escape res = "" case ch = getc when /[0-7]/ ungetc ch 3.times do case ch = getc when /[0-7]/ when nil break else ungetc break end res << ch end when "x" res << ch 2.times do case ch = getc when /[0-9a-fA-F]/ when nil break else ungetc break end res << ch end when "M" res << ch if (ch = getc) != '-' ungetc else res << ch if (ch = getc) == "\\" #" res << ch res << read_escape else res << ch end end when "C", "c" #, "^" res << ch if ch == "C" and (ch = getc) != "-" ungetc else res << ch if (ch = getc) == "\\" #" res << ch res << read_escape else res << ch end end else res << ch end res end end # Extract code elements from a source file, returning a TopLevel # object containing the constituent file elements. # # This file is based on rtags module RDoc GENERAL_MODIFIERS = [ 'nodoc' ].freeze CLASS_MODIFIERS = GENERAL_MODIFIERS ATTR_MODIFIERS = GENERAL_MODIFIERS CONSTANT_MODIFIERS = GENERAL_MODIFIERS METHOD_MODIFIERS = GENERAL_MODIFIERS + [ 'arg', 'args', 'yield', 'yields', 'notnew', 'not-new', 'not_new', 'doc' ] class RubyParser include RubyToken include TokenStream extend ParserFactory parse_files_matching(/\.rbw?$/) def initialize(top_level, file_name, content, options, stats) @options = options @stats = stats @size = 0 @token_listeners = nil @input_file_name = file_name @scanner = RubyLex.new(content) @scanner.exception_on_syntax_error = false @top_level = top_level @progress = $stderr unless options.quiet end def scan @tokens = [] @unget_read = [] @read = [] catch(:eof) do catch(:enddoc) do begin parse_toplevel_statements(@top_level) rescue Exception => e $stderr.puts "\n\n" $stderr.puts "RDoc failure in #@input_file_name at or around " + "line #{@scanner.line_no} column #{@scanner.char_no}" $stderr.puts $stderr.puts "Before reporting this, could you check that the file" $stderr.puts "you're documenting compiles cleanly--RDoc is not a" $stderr.puts "full Ruby parser, and gets confused easily if fed" $stderr.puts "invalid programs." $stderr.puts $stderr.puts "The internal error was:\n\n" e.set_backtrace(e.backtrace[0,4]) raise end end end @top_level end private def make_message(msg) prefix = "\n" + @input_file_name + ":" if @scanner prefix << "#{@scanner.line_no}:#{@scanner.char_no}: " end return prefix + msg end def warn(msg) return if @options.quiet msg = make_message msg $stderr.puts msg end def error(msg) msg = make_message msg $stderr.puts msg exit(1) end def progress(char) unless @options.quiet @progress.print(char) @progress.flush end end def add_token_listener(obj) @token_listeners ||= [] @token_listeners << obj end def remove_token_listener(obj) @token_listeners.delete(obj) end def get_tk tk = nil if @tokens.empty? tk = @scanner.token @read.push @scanner.get_read puts "get_tk1 => #{tk.inspect}" if $TOKEN_DEBUG else @read.push @unget_read.shift tk = @tokens.shift puts "get_tk2 => #{tk.inspect}" if $TOKEN_DEBUG end if tk.kind_of?(TkSYMBEG) set_token_position(tk.line_no, tk.char_no) tk1 = get_tk if tk1.kind_of?(TkId) || tk1.kind_of?(TkOp) tk = Token(TkSYMBOL).set_text(":" + tk1.name) # remove the identifier we just read (we're about to # replace it with a symbol) @token_listeners.each do |obj| obj.pop_token end if @token_listeners else warn("':' not followed by identifier or operator") tk = tk1 end end # inform any listeners of our shiny new token @token_listeners.each do |obj| obj.add_token(tk) end if @token_listeners tk end def peek_tk unget_tk(tk = get_tk) tk end def unget_tk(tk) @tokens.unshift tk @unget_read.unshift @read.pop # Remove this token from any listeners @token_listeners.each do |obj| obj.pop_token end if @token_listeners end def skip_tkspace(skip_nl = true) tokens = [] while ((tk = get_tk).kind_of?(TkSPACE) || (skip_nl && tk.kind_of?(TkNL))) tokens.push tk end unget_tk(tk) tokens end def get_tkread read = @read.join("") @read = [] read end def peek_read @read.join('') end NORMAL = "::" SINGLE = "<<" # Look for the first comment in a file that isn't # a shebang line. def collect_first_comment skip_tkspace res = '' first_line = true tk = get_tk while tk.kind_of?(TkCOMMENT) if first_line && /\A#!/ =~ tk.text skip_tkspace tk = get_tk elsif first_line && /\A#\s*-\*-/ =~ tk.text first_line = false skip_tkspace tk = get_tk else first_line = false res << tk.text << "\n" tk = get_tk if tk.kind_of? TkNL skip_tkspace(false) tk = get_tk end end end unget_tk(tk) res end def parse_toplevel_statements(container) comment = collect_first_comment look_for_directives_in(container, comment) container.comment = comment unless comment.empty? parse_statements(container, NORMAL, nil, comment) end def parse_statements(container, single=NORMAL, current_method=nil, comment='') nest = 1 save_visibility = container.visibility # if container.kind_of?(TopLevel) # else # comment = '' # end non_comment_seen = true while tk = get_tk keep_comment = false non_comment_seen = true unless tk.kind_of?(TkCOMMENT) case tk when TkNL skip_tkspace(true) # Skip blanks and newlines tk = get_tk if tk.kind_of?(TkCOMMENT) if non_comment_seen comment = '' non_comment_seen = false end while tk.kind_of?(TkCOMMENT) comment << tk.text << "\n" tk = get_tk # this is the newline skip_tkspace(false) # leading spaces tk = get_tk end unless comment.empty? look_for_directives_in(container, comment) if container.done_documenting container.ongoing_visibility = save_visibility # return end end keep_comment = true else non_comment_seen = true end unget_tk(tk) keep_comment = true when TkCLASS if container.document_children parse_class(container, single, tk, comment) else nest += 1 end when TkMODULE if container.document_children parse_module(container, single, tk, comment) else nest += 1 end when TkDEF if container.document_self parse_method(container, single, tk, comment) else nest += 1 end when TkCONSTANT if container.document_self parse_constant(container, single, tk, comment) end when TkALIAS if container.document_self parse_alias(container, single, tk, comment) end when TkYIELD if current_method.nil? warn("Warning: yield outside of method") if container.document_self else parse_yield(container, single, tk, current_method) end # Until and While can have a 'do', which shouldn't increas # the nesting. We can't solve the general case, but we can # handle most occurrences by ignoring a do at the end of a line when TkUNTIL, TkWHILE nest += 1 puts "FOUND #{tk.class} in #{container.name}, nest = #{nest}, " + "line #{tk.line_no}" if $DEBUG skip_optional_do_after_expression # 'for' is trickier when TkFOR nest += 1 puts "FOUND #{tk.class} in #{container.name}, nest = #{nest}, " + "line #{tk.line_no}" if $DEBUG skip_for_variable skip_optional_do_after_expression when TkCASE, TkDO, TkIF, TkUNLESS, TkBEGIN nest += 1 puts "Found #{tk.class} in #{container.name}, nest = #{nest}, " + "line #{tk.line_no}" if $DEBUG when TkIDENTIFIER if nest == 1 and current_method.nil? case tk.name when "private", "protected", "public", "private_class_method", "public_class_method" parse_visibility(container, single, tk) keep_comment = true when "attr" parse_attr(container, single, tk, comment) when /^attr_(reader|writer|accessor)$/, @options.extra_accessors parse_attr_accessor(container, single, tk, comment) when "alias_method" if container.document_self parse_alias(container, single, tk, comment) end end end case tk.name when "require" parse_require(container, comment) when "include" parse_include(container, comment) end when TkEND nest -= 1 puts "Found 'end' in #{container.name}, nest = #{nest}, line #{tk.line_no}" if $DEBUG puts "Method = #{current_method.name}" if $DEBUG and current_method if nest == 0 read_documentation_modifiers(container, CLASS_MODIFIERS) container.ongoing_visibility = save_visibility return end end comment = '' unless keep_comment begin get_tkread skip_tkspace(false) end while peek_tk == TkNL end end def parse_class(container, single, tk, comment, &block) progress("c") @stats.num_classes += 1 container, name_t = get_class_or_module(container) case name_t when TkCONSTANT name = name_t.name superclass = "Object" if peek_tk.kind_of?(TkLT) get_tk skip_tkspace(true) superclass = get_class_specification superclass = "<unknown>" if superclass.empty? end if single == SINGLE cls_type = SingleClass else cls_type = NormalClass end cls = container.add_class(cls_type, name, superclass) read_documentation_modifiers(cls, CLASS_MODIFIERS) cls.record_location(@top_level) parse_statements(cls) cls.comment = comment when TkLSHFT case name = get_class_specification when "self", container.name parse_statements(container, SINGLE, &block) else other = TopLevel.find_class_named(name) unless other # other = @top_level.add_class(NormalClass, name, nil) # other.record_location(@top_level) # other.comment = comment other = NormalClass.new("Dummy", nil) end read_documentation_modifiers(other, CLASS_MODIFIERS) parse_statements(other, SINGLE, &block) end else warn("Expected class name or '<<'. Got #{name_t.class}: #{name_t.text.inspect}") end end def parse_module(container, single, tk, comment) progress("m") @stats.num_modules += 1 container, name_t = get_class_or_module(container) # skip_tkspace name = name_t.name mod = container.add_module(NormalModule, name) mod.record_location(@top_level) read_documentation_modifiers(mod, CLASS_MODIFIERS) parse_statements(mod) mod.comment = comment end # Look for the name of a class of module (optionally with a leading :: or # with :: separated named) and return the ultimate name and container def get_class_or_module(container) skip_tkspace name_t = get_tk # class ::A -> A is in the top level if name_t.kind_of?(TkCOLON2) name_t = get_tk container = @top_level end skip_tkspace(false) while peek_tk.kind_of?(TkCOLON2) prev_container = container container = container.find_module_named(name_t.name) if !container # warn("Couldn't find module #{name_t.name}") container = prev_container.add_module(NormalModule, name_t.name) end get_tk name_t = get_tk end skip_tkspace(false) return [container, name_t] end def parse_constant(container, single, tk, comment) name = tk.name skip_tkspace(false) eq_tk = get_tk unless eq_tk.kind_of?(TkASSIGN) unget_tk(eq_tk) return end nest = 0 get_tkread tk = get_tk if tk.kind_of? TkGT unget_tk(tk) unget_tk(eq_tk) return end loop do puts("Param: #{tk}, #{@scanner.continue} " + "#{@scanner.lex_state} #{nest}") if $DEBUG case tk when TkSEMICOLON break when TkLPAREN, TkfLPAREN nest += 1 when TkRPAREN nest -= 1 when TkCOMMENT if nest <= 0 && @scanner.lex_state == EXPR_END unget_tk(tk) break end when TkNL if (@scanner.lex_state == EXPR_END and nest <= 0) || !@scanner.continue unget_tk(tk) break end end tk = get_tk end res = get_tkread.tr("\n", " ").strip res = "" if res == ";" con = Constant.new(name, res, comment) read_documentation_modifiers(con, CONSTANT_MODIFIERS) if con.document_self container.add_constant(con) end end def parse_method(container, single, tk, comment) progress(".") @stats.num_methods += 1 line_no = tk.line_no column = tk.char_no start_collecting_tokens add_token(tk) add_token_listener(self) @scanner.instance_eval{@lex_state = EXPR_FNAME} skip_tkspace(false) name_t = get_tk back_tk = skip_tkspace meth = nil added_container = false dot = get_tk if dot.kind_of?(TkDOT) or dot.kind_of?(TkCOLON2) @scanner.instance_eval{@lex_state = EXPR_FNAME} skip_tkspace name_t2 = get_tk case name_t when TkSELF name = name_t2.name when TkCONSTANT name = name_t2.name prev_container = container container = container.find_module_named(name_t.name) if !container added_container = true obj = name_t.name.split("::").inject(Object) do |state, item| state.const_get(item) end rescue nil type = obj.class == Class ? NormalClass : NormalModule if not [Class, Module].include?(obj.class) warn("Couldn't find #{name_t.name}. Assuming it's a module") end if type == NormalClass then container = prev_container.add_class(type, name_t.name, obj.superclass.name) else container = prev_container.add_module(type, name_t.name) end end else # warn("Unexpected token '#{name_t2.inspect}'") # break skip_method(container) return end meth = AnyMethod.new(get_tkread, name) meth.singleton = true else unget_tk dot back_tk.reverse_each do |tk| unget_tk tk end name = name_t.name meth = AnyMethod.new(get_tkread, name) meth.singleton = (single == SINGLE) end remove_token_listener(self) meth.start_collecting_tokens indent = TkSPACE.new(1,1) indent.set_text(" " * column) meth.add_tokens([TkCOMMENT.new(line_no, 1, "# File #{@top_level.file_absolute_name}, line #{line_no}"), NEWLINE_TOKEN, indent]) meth.add_tokens(@token_stream) add_token_listener(meth) @scanner.instance_eval{@continue = false} parse_method_parameters(meth) if meth.document_self container.add_method(meth) elsif added_container container.document_self = false end # Having now read the method parameters and documentation modifiers, we # now know whether we have to rename #initialize to ::new if name == "initialize" && !meth.singleton if meth.dont_rename_initialize meth.visibility = :protected else meth.singleton = true meth.name = "new" meth.visibility = :public end end parse_statements(container, single, meth) remove_token_listener(meth) # Look for a 'call-seq' in the comment, and override the # normal parameter stuff if comment.sub!(/:?call-seq:(.*?)^\s*\#?\s*$/m, '') seq = $1 seq.gsub!(/^\s*\#\s*/, '') meth.call_seq = seq end meth.comment = comment end def skip_method(container) meth = AnyMethod.new("", "anon") parse_method_parameters(meth) parse_statements(container, false, meth) end # Capture the method's parameters. Along the way, # look for a comment containing # # # yields: .... # # and add this as the block_params for the method def parse_method_parameters(method) res = parse_method_or_yield_parameters(method) res = "(" + res + ")" unless res[0] == ?( method.params = res unless method.params if method.block_params.nil? skip_tkspace(false) read_documentation_modifiers(method, METHOD_MODIFIERS) end end def parse_method_or_yield_parameters(method=nil, modifiers=METHOD_MODIFIERS) skip_tkspace(false) tk = get_tk # Little hack going on here. In the statement # f = 2*(1+yield) # We see the RPAREN as the next token, so we need # to exit early. This still won't catch all cases # (such as "a = yield + 1" end_token = case tk when TkLPAREN, TkfLPAREN TkRPAREN when TkRPAREN return "" else TkNL end nest = 0 loop do puts("Param: #{tk.inspect}, #{@scanner.continue} " + "#{@scanner.lex_state} #{nest}") if $DEBUG case tk when TkSEMICOLON break when TkLBRACE nest += 1 when TkRBRACE # we might have a.each {|i| yield i } unget_tk(tk) if nest.zero? nest -= 1 break if nest <= 0 when TkLPAREN, TkfLPAREN nest += 1 when end_token if end_token == TkRPAREN nest -= 1 break if @scanner.lex_state == EXPR_END and nest <= 0 else break unless @scanner.continue end when method && method.block_params.nil? && TkCOMMENT unget_tk(tk) read_documentation_modifiers(method, modifiers) end tk = get_tk end res = get_tkread.tr("\n", " ").strip res = "" if res == ";" res end # skip the var [in] part of a 'for' statement def skip_for_variable skip_tkspace(false) tk = get_tk skip_tkspace(false) tk = get_tk unget_tk(tk) unless tk.kind_of?(TkIN) end # while, until, and for have an optional def skip_optional_do_after_expression skip_tkspace(false) tk = get_tk case tk when TkLPAREN, TkfLPAREN end_token = TkRPAREN else end_token = TkNL end nest = 0 @scanner.instance_eval{@continue = false} loop do puts("\nWhile: #{tk}, #{@scanner.continue} " + "#{@scanner.lex_state} #{nest}") if $DEBUG case tk when TkSEMICOLON break when TkLPAREN, TkfLPAREN nest += 1 when TkDO break if nest.zero? when end_token if end_token == TkRPAREN nest -= 1 break if @scanner.lex_state == EXPR_END and nest.zero? else break unless @scanner.continue end end tk = get_tk end skip_tkspace(false) if peek_tk.kind_of? TkDO get_tk end end # Return a superclass, which can be either a constant # of an expression def get_class_specification tk = get_tk return "self" if tk.kind_of?(TkSELF) res = "" while tk.kind_of?(TkCOLON2) || tk.kind_of?(TkCOLON3) || tk.kind_of?(TkCONSTANT) res += tk.text tk = get_tk end unget_tk(tk) skip_tkspace(false) get_tkread # empty out read buffer tk = get_tk case tk when TkNL, TkCOMMENT, TkSEMICOLON unget_tk(tk) return res end res += parse_call_parameters(tk) res end def parse_call_parameters(tk) end_token = case tk when TkLPAREN, TkfLPAREN TkRPAREN when TkRPAREN return "" else TkNL end nest = 0 loop do puts("Call param: #{tk}, #{@scanner.continue} " + "#{@scanner.lex_state} #{nest}") if $DEBUG case tk when TkSEMICOLON break when TkLPAREN, TkfLPAREN nest += 1 when end_token if end_token == TkRPAREN nest -= 1 break if @scanner.lex_state == EXPR_END and nest <= 0 else break unless @scanner.continue end when TkCOMMENT unget_tk(tk) break end tk = get_tk end res = get_tkread.tr("\n", " ").strip res = "" if res == ";" res end # Parse a constant, which might be qualified by # one or more class or module names def get_constant res = "" skip_tkspace(false) tk = get_tk while tk.kind_of?(TkCOLON2) || tk.kind_of?(TkCOLON3) || tk.kind_of?(TkCONSTANT) res += tk.text tk = get_tk end # if res.empty? # warn("Unexpected token #{tk} in constant") # end unget_tk(tk) res end # Get a constant that may be surrounded by parens def get_constant_with_optional_parens skip_tkspace(false) nest = 0 while (tk = peek_tk).kind_of?(TkLPAREN) || tk.kind_of?(TkfLPAREN) get_tk skip_tkspace(true) nest += 1 end name = get_constant while nest > 0 skip_tkspace(true) tk = get_tk nest -= 1 if tk.kind_of?(TkRPAREN) end name end # Directives are modifier comments that can appear after class, module, # or method names. For example # # def fred # :yields: a, b # # or # # class SM # :nodoc: # # we return the directive name and any parameters as a two element array def read_directive(allowed) tk = get_tk puts "directive: #{tk.inspect}" if $DEBUG result = nil if tk.kind_of?(TkCOMMENT) if tk.text =~ /\s*:?(\w+):\s*(.*)/ directive = $1.downcase if allowed.include?(directive) result = [directive, $2] end end else unget_tk(tk) end result end def read_documentation_modifiers(context, allow) dir = read_directive(allow) case dir[0] when "notnew", "not_new", "not-new" context.dont_rename_initialize = true when "nodoc" context.document_self = false if dir[1].downcase == "all" context.document_children = false end when "doc" context.document_self = true context.force_documentation = true when "yield", "yields" unless context.params.nil? context.params.sub!(/(,|)\s*&\w+/,'') # remove parameter &proc end context.block_params = dir[1] when "arg", "args" context.params = dir[1] end if dir end # Look for directives in a normal comment block: # # #-- - don't display comment from this point forward # # # This routine modifies it's parameter def look_for_directives_in(context, comment) preprocess = SM::PreProcess.new(@input_file_name, @options.rdoc_include) preprocess.handle(comment) do |directive, param| case directive when "stopdoc" context.stop_doc "" when "startdoc" context.start_doc context.force_documentation = true "" when "enddoc" #context.done_documenting = true #"" throw :enddoc when "main" options = Options.instance options.main_page = param "" when "title" options = Options.instance options.title = param "" when "section" context.set_current_section(param, comment) comment.replace("") # 1.8 doesn't support #clear break else warn "Unrecognized directive '#{directive}'" break end end remove_private_comments(comment) end def remove_private_comments(comment) comment.gsub!(/^#--.*?^#\+\+/m, '') comment.sub!(/^#--.*/m, '') end def get_symbol_or_name tk = get_tk case tk when TkSYMBOL tk.text.sub(/^:/, '') when TkId, TkOp tk.name when TkSTRING tk.text else raise "Name or symbol expected (got #{tk})" end end def parse_alias(context, single, tk, comment) skip_tkspace if (peek_tk.kind_of? TkLPAREN) get_tk skip_tkspace end new_name = get_symbol_or_name @scanner.instance_eval{@lex_state = EXPR_FNAME} skip_tkspace if (peek_tk.kind_of? TkCOMMA) get_tk skip_tkspace end old_name = get_symbol_or_name al = Alias.new(get_tkread, old_name, new_name, comment) read_documentation_modifiers(al, ATTR_MODIFIERS) if al.document_self context.add_alias(al) end end def parse_yield_parameters parse_method_or_yield_parameters end def parse_yield(context, single, tk, method) if method.block_params.nil? get_tkread @scanner.instance_eval{@continue = false} method.block_params = parse_yield_parameters end end def parse_require(context, comment) skip_tkspace_comment tk = get_tk if tk.kind_of? TkLPAREN skip_tkspace_comment tk = get_tk end name = nil case tk when TkSTRING name = tk.text # when TkCONSTANT, TkIDENTIFIER, TkIVAR, TkGVAR # name = tk.name when TkDSTRING warn "Skipping require of dynamic string: #{tk.text}" # else # warn "'require' used as variable" end if name context.add_require(Require.new(name, comment)) else unget_tk(tk) end end def parse_include(context, comment) loop do skip_tkspace_comment name = get_constant_with_optional_parens unless name.empty? context.add_include(Include.new(name, comment)) end return unless peek_tk.kind_of?(TkCOMMA) get_tk end end def get_bool skip_tkspace tk = get_tk case tk when TkTRUE true when TkFALSE, TkNIL false else unget_tk tk true end end def parse_attr(context, single, tk, comment) args = parse_symbol_arg(1) if args.size > 0 name = args[0] rw = "R" skip_tkspace(false) tk = get_tk if tk.kind_of? TkCOMMA rw = "RW" if get_bool else unget_tk tk end att = Attr.new(get_tkread, name, rw, comment) read_documentation_modifiers(att, ATTR_MODIFIERS) if att.document_self context.add_attribute(att) end else warn("'attr' ignored - looks like a variable") end end def parse_visibility(container, single, tk) singleton = (single == SINGLE) vis = case tk.name when "private" then :private when "protected" then :protected when "public" then :public when "private_class_method" singleton = true :private when "public_class_method" singleton = true :public else raise "Invalid visibility: #{tk.name}" end skip_tkspace_comment(false) case peek_tk # Ryan Davis suggested the extension to ignore modifiers, because he # often writes # # protected unless $TESTING # when TkNL, TkUNLESS_MOD, TkIF_MOD # error("Missing argument") if singleton container.ongoing_visibility = vis else args = parse_symbol_arg container.set_visibility_for(args, vis, singleton) end end def parse_attr_accessor(context, single, tk, comment) args = parse_symbol_arg read = get_tkread rw = "?" # If nodoc is given, don't document any of them tmp = CodeObject.new read_documentation_modifiers(tmp, ATTR_MODIFIERS) return unless tmp.document_self case tk.name when "attr_reader" then rw = "R" when "attr_writer" then rw = "W" when "attr_accessor" then rw = "RW" else rw = @options.extra_accessor_flags[tk.name] end for name in args att = Attr.new(get_tkread, name, rw, comment) context.add_attribute(att) end end def skip_tkspace_comment(skip_nl = true) loop do skip_tkspace(skip_nl) return unless peek_tk.kind_of? TkCOMMENT get_tk end end def parse_symbol_arg(no = nil) args = [] skip_tkspace_comment case tk = get_tk when TkLPAREN loop do skip_tkspace_comment if tk1 = parse_symbol_in_arg args.push tk1 break if no and args.size >= no end skip_tkspace_comment case tk2 = get_tk when TkRPAREN break when TkCOMMA else warn("unexpected token: '#{tk2.inspect}'") if $DEBUG break end end else unget_tk tk if tk = parse_symbol_in_arg args.push tk return args if no and args.size >= no end loop do # skip_tkspace_comment(false) skip_tkspace(false) tk1 = get_tk unless tk1.kind_of?(TkCOMMA) unget_tk tk1 break end skip_tkspace_comment if tk = parse_symbol_in_arg args.push tk break if no and args.size >= no end end end args end def parse_symbol_in_arg case tk = get_tk when TkSYMBOL tk.text.sub(/^:/, '') when TkSTRING eval @read[-1] else warn("Expected symbol or string, got #{tk.inspect}") if $DEBUG nil end end end end