관리-도구
편집 파일: ripper_state_lex.rb
# frozen_string_literal: true require 'ripper' ## # Wrapper for Ripper lex states class RDoc::Parser::RipperStateLex # :stopdoc: # TODO: Remove this constants after Ruby 2.4 EOL RIPPER_HAS_LEX_STATE = Ripper::Filter.method_defined?(:state) Token = Struct.new(:line_no, :char_no, :kind, :text, :state) EXPR_NONE = 0 EXPR_BEG = 1 EXPR_END = 2 EXPR_ENDARG = 4 EXPR_ENDFN = 8 EXPR_ARG = 16 EXPR_CMDARG = 32 EXPR_MID = 64 EXPR_FNAME = 128 EXPR_DOT = 256 EXPR_CLASS = 512 EXPR_LABEL = 1024 EXPR_LABELED = 2048 EXPR_FITEM = 4096 EXPR_VALUE = EXPR_BEG EXPR_BEG_ANY = (EXPR_BEG | EXPR_MID | EXPR_CLASS) EXPR_ARG_ANY = (EXPR_ARG | EXPR_CMDARG) EXPR_END_ANY = (EXPR_END | EXPR_ENDARG | EXPR_ENDFN) class InnerStateLex < Ripper::Filter attr_accessor :lex_state def initialize(code) @lex_state = EXPR_BEG @in_fname = false @continue = false reset super(code) end def reset @command_start = false @cmd_state = @command_start end def on_nl(tok, data) case @lex_state when EXPR_FNAME, EXPR_DOT @continue = true else @continue = false @lex_state = EXPR_BEG unless (EXPR_LABEL & @lex_state) != 0 end data << Token.new(lineno, column, __method__, tok, @lex_state) end def on_ignored_nl(tok, data) case @lex_state when EXPR_FNAME, EXPR_DOT @continue = true else @continue = false @lex_state = EXPR_BEG unless (EXPR_LABEL & @lex_state) != 0 end data << Token.new(lineno, column, __method__, tok, @lex_state) end def on_op(tok, data) case tok when '&', '|', '!', '!=', '!~' case @lex_state when EXPR_FNAME, EXPR_DOT @lex_state = EXPR_ARG else @lex_state = EXPR_BEG end when '<<' # TODO next token? case @lex_state when EXPR_FNAME, EXPR_DOT @lex_state = EXPR_ARG else @lex_state = EXPR_BEG end when '?' @lex_state = EXPR_BEG when '&&', '||', '+=', '-=', '*=', '**=', '&=', '|=', '^=', '<<=', '>>=', '||=', '&&=' @lex_state = EXPR_BEG when '::' case @lex_state when EXPR_ARG, EXPR_CMDARG @lex_state = EXPR_DOT when EXPR_FNAME, EXPR_DOT @lex_state = EXPR_ARG else @lex_state = EXPR_BEG end else case @lex_state when EXPR_FNAME, EXPR_DOT @lex_state = EXPR_ARG else @lex_state = EXPR_BEG end end data << Token.new(lineno, column, __method__, tok, @lex_state) end def on_kw(tok, data) case tok when 'class' @lex_state = EXPR_CLASS @in_fname = true when 'def' @lex_state = EXPR_FNAME @continue = true @in_fname = true when 'if', 'unless', 'while', 'until' if ((EXPR_MID | EXPR_END | EXPR_ENDARG | EXPR_ENDFN | EXPR_ARG | EXPR_CMDARG) & @lex_state) != 0 # postfix if @lex_state = EXPR_BEG | EXPR_LABEL else @lex_state = EXPR_BEG end when 'begin', 'case', 'when' @lex_state = EXPR_BEG when 'return', 'break' @lex_state = EXPR_MID else if @lex_state == EXPR_FNAME @lex_state = EXPR_END else @lex_state = EXPR_END end end data << Token.new(lineno, column, __method__, tok, @lex_state) end def on_tstring_beg(tok, data) @lex_state = EXPR_BEG data << Token.new(lineno, column, __method__, tok, @lex_state) end def on_tstring_end(tok, data) @lex_state = EXPR_END | EXPR_ENDARG data << Token.new(lineno, column, __method__, tok, @lex_state) end def on_CHAR(tok, data) @lex_state = EXPR_END data << Token.new(lineno, column, __method__, tok, @lex_state) end def on_period(tok, data) @lex_state = EXPR_DOT data << Token.new(lineno, column, __method__, tok, @lex_state) end def on_int(tok, data) @lex_state = EXPR_END | EXPR_ENDARG data << Token.new(lineno, column, __method__, tok, @lex_state) end def on_float(tok, data) @lex_state = EXPR_END | EXPR_ENDARG data << Token.new(lineno, column, __method__, tok, @lex_state) end def on_rational(tok, data) @lex_state = EXPR_END | EXPR_ENDARG data << Token.new(lineno, column, __method__, tok, @lex_state) end def on_imaginary(tok, data) @lex_state = EXPR_END | EXPR_ENDARG data << Token.new(lineno, column, __method__, tok, @lex_state) end def on_symbeg(tok, data) @lex_state = EXPR_FNAME @continue = true @in_fname = true data << Token.new(lineno, column, __method__, tok, @lex_state) end private def on_variables(event, tok, data) if @in_fname @lex_state = EXPR_ENDFN @in_fname = false @continue = false elsif @continue case @lex_state when EXPR_DOT @lex_state = EXPR_ARG else @lex_state = EXPR_ENDFN @continue = false end else @lex_state = EXPR_CMDARG end data << Token.new(lineno, column, event, tok, @lex_state) end def on_ident(tok, data) on_variables(__method__, tok, data) end def on_ivar(tok, data) @lex_state = EXPR_END on_variables(__method__, tok, data) end def on_cvar(tok, data) @lex_state = EXPR_END on_variables(__method__, tok, data) end def on_gvar(tok, data) @lex_state = EXPR_END on_variables(__method__, tok, data) end def on_backref(tok, data) @lex_state = EXPR_END on_variables(__method__, tok, data) end def on_lparen(tok, data) @lex_state = EXPR_LABEL | EXPR_BEG data << Token.new(lineno, column, __method__, tok, @lex_state) end def on_rparen(tok, data) @lex_state = EXPR_ENDFN data << Token.new(lineno, column, __method__, tok, @lex_state) end def on_lbrace(tok, data) @lex_state = EXPR_LABEL | EXPR_BEG data << Token.new(lineno, column, __method__, tok, @lex_state) end def on_rbrace(tok, data) @lex_state = EXPR_ENDARG data << Token.new(lineno, column, __method__, tok, @lex_state) end def on_lbracket(tok, data) @lex_state = EXPR_LABEL | EXPR_BEG data << Token.new(lineno, column, __method__, tok, @lex_state) end def on_rbracket(tok, data) @lex_state = EXPR_ENDARG data << Token.new(lineno, column, __method__, tok, @lex_state) end def on_const(tok, data) case @lex_state when EXPR_FNAME @lex_state = EXPR_ENDFN when EXPR_CLASS, EXPR_CMDARG, EXPR_MID @lex_state = EXPR_ARG else @lex_state = EXPR_CMDARG end data << Token.new(lineno, column, __method__, tok, @lex_state) end def on_sp(tok, data) data << Token.new(lineno, column, __method__, tok, @lex_state) end def on_comma(tok, data) @lex_state = EXPR_BEG | EXPR_LABEL if (EXPR_ARG_ANY & @lex_state) != 0 data << Token.new(lineno, column, __method__, tok, @lex_state) end def on_comment(tok, data) @lex_state = EXPR_BEG unless (EXPR_LABEL & @lex_state) != 0 data << Token.new(lineno, column, __method__, tok, @lex_state) end def on_ignored_sp(tok, data) @lex_state = EXPR_BEG unless (EXPR_LABEL & @lex_state) != 0 data << Token.new(lineno, column, __method__, tok, @lex_state) end def on_heredoc_beg(tok, data) data << Token.new(lineno, column, __method__, tok, @lex_state) @lex_state = EXPR_END data end def on_heredoc_end(tok, data) data << Token.new(lineno, column, __method__, tok, @lex_state) @lex_state = EXPR_BEG data end def on_default(event, tok, data) reset data << Token.new(lineno, column, event, tok, @lex_state) end end unless RIPPER_HAS_LEX_STATE class InnerStateLex < Ripper::Filter def initialize(code) super(code) end def on_default(event, tok, data) data << Token.new(lineno, column, event, tok, state) end end if RIPPER_HAS_LEX_STATE def get_squashed_tk if @buf.empty? tk = @tokens.shift else tk = @buf.shift end return nil if tk.nil? case tk[:kind] when :on_symbeg then tk = get_symbol_tk(tk) when :on_tstring_beg then tk = get_string_tk(tk) when :on_backtick then if (tk[:state] & (EXPR_FNAME | EXPR_ENDFN)) != 0 @inner_lex.lex_state = EXPR_ARG unless RIPPER_HAS_LEX_STATE tk[:kind] = :on_ident tk[:state] = Ripper::Lexer.const_defined?(:State) ? Ripper::Lexer::State.new(EXPR_ARG) : EXPR_ARG else tk = get_string_tk(tk) end when :on_regexp_beg then tk = get_regexp_tk(tk) when :on_embdoc_beg then tk = get_embdoc_tk(tk) when :on_heredoc_beg then @heredoc_queue << retrieve_heredoc_info(tk) @inner_lex.lex_state = EXPR_END unless RIPPER_HAS_LEX_STATE when :on_nl, :on_ignored_nl, :on_comment, :on_heredoc_end then if !@heredoc_queue.empty? get_heredoc_tk(*@heredoc_queue.shift) elsif tk[:text].nil? # :on_ignored_nl sometimes gives nil tk[:text] = '' end when :on_words_beg then tk = get_words_tk(tk) when :on_qwords_beg then tk = get_words_tk(tk) when :on_symbols_beg then tk = get_words_tk(tk) when :on_qsymbols_beg then tk = get_words_tk(tk) when :on_op then if '&.' == tk[:text] tk[:kind] = :on_period else tk = get_op_tk(tk) end end tk end private def get_symbol_tk(tk) is_symbol = true symbol_tk = Token.new(tk.line_no, tk.char_no, :on_symbol) if ":'" == tk[:text] or ':"' == tk[:text] or tk[:text].start_with?('%s') tk1 = get_string_tk(tk) symbol_tk[:text] = tk1[:text] symbol_tk[:state] = tk1[:state] else case (tk1 = get_squashed_tk)[:kind] when :on_ident symbol_tk[:text] = ":#{tk1[:text]}" symbol_tk[:state] = tk1[:state] when :on_tstring_content symbol_tk[:text] = ":#{tk1[:text]}" symbol_tk[:state] = get_squashed_tk[:state] # skip :on_tstring_end when :on_tstring_end symbol_tk[:text] = ":#{tk1[:text]}" symbol_tk[:state] = tk1[:state] when :on_op symbol_tk[:text] = ":#{tk1[:text]}" symbol_tk[:state] = tk1[:state] when :on_ivar symbol_tk[:text] = ":#{tk1[:text]}" symbol_tk[:state] = tk1[:state] when :on_cvar symbol_tk[:text] = ":#{tk1[:text]}" symbol_tk[:state] = tk1[:state] when :on_gvar symbol_tk[:text] = ":#{tk1[:text]}" symbol_tk[:state] = tk1[:state] when :on_const symbol_tk[:text] = ":#{tk1[:text]}" symbol_tk[:state] = tk1[:state] when :on_kw symbol_tk[:text] = ":#{tk1[:text]}" symbol_tk[:state] = tk1[:state] else is_symbol = false tk = tk1 end end if is_symbol tk = symbol_tk end tk end private def get_string_tk(tk) string = tk[:text] state = nil kind = :on_tstring loop do inner_str_tk = get_squashed_tk if inner_str_tk.nil? break elsif :on_tstring_end == inner_str_tk[:kind] string = string + inner_str_tk[:text] state = inner_str_tk[:state] break elsif :on_label_end == inner_str_tk[:kind] string = string + inner_str_tk[:text] state = inner_str_tk[:state] kind = :on_symbol break else string = string + inner_str_tk[:text] if :on_embexpr_beg == inner_str_tk[:kind] then kind = :on_dstring if :on_tstring == kind end end end Token.new(tk.line_no, tk.char_no, kind, string, state) end private def get_regexp_tk(tk) string = tk[:text] state = nil loop do inner_str_tk = get_squashed_tk if inner_str_tk.nil? break elsif :on_regexp_end == inner_str_tk[:kind] string = string + inner_str_tk[:text] state = inner_str_tk[:state] break else string = string + inner_str_tk[:text] end end Token.new(tk.line_no, tk.char_no, :on_regexp, string, state) end private def get_embdoc_tk(tk) string = tk[:text] until :on_embdoc_end == (embdoc_tk = get_squashed_tk)[:kind] do string = string + embdoc_tk[:text] end string = string + embdoc_tk[:text] Token.new(tk.line_no, tk.char_no, :on_embdoc, string, embdoc_tk.state) end private def get_heredoc_tk(heredoc_name, indent) string = '' start_tk = nil prev_tk = nil until heredoc_end?(heredoc_name, indent, tk = @tokens.shift) do start_tk = tk unless start_tk if (prev_tk.nil? or "\n" == prev_tk[:text][-1]) and 0 != tk[:char_no] string = string + (' ' * tk[:char_no]) end string = string + tk[:text] prev_tk = tk end start_tk = tk unless start_tk prev_tk = tk unless prev_tk @buf.unshift tk # closing heredoc heredoc_tk = Token.new(start_tk.line_no, start_tk.char_no, :on_heredoc, string, prev_tk.state) @buf.unshift heredoc_tk end private def retrieve_heredoc_info(tk) name = tk[:text].gsub(/\A<<[-~]?(['"`]?)(.+)\1\z/, '\2') indent = tk[:text] =~ /\A<<[-~]/ [name, indent] end private def heredoc_end?(name, indent, tk) result = false if :on_heredoc_end == tk[:kind] then tk_name = tk[:text].chomp tk_name.lstrip! if indent if name == tk_name result = true end end result end private def get_words_tk(tk) string = '' start_token = tk[:text] start_quote = tk[:text].rstrip[-1] line_no = tk[:line_no] char_no = tk[:char_no] state = tk[:state] end_quote = case start_quote when ?( then ?) when ?[ then ?] when ?{ then ?} when ?< then ?> else start_quote end end_token = nil loop do tk = get_squashed_tk if tk.nil? end_token = end_quote break elsif :on_tstring_content == tk[:kind] then string += tk[:text] elsif :on_words_sep == tk[:kind] or :on_tstring_end == tk[:kind] then if end_quote == tk[:text].strip then end_token = tk[:text] break else string += tk[:text] end else string += tk[:text] end end text = "#{start_token}#{string}#{end_token}" Token.new(line_no, char_no, :on_dstring, text, state) end private def get_op_tk(tk) redefinable_operators = %w[! != !~ % & * ** + +@ - -@ / < << <= <=> == === =~ > >= >> [] []= ^ ` | ~] if redefinable_operators.include?(tk[:text]) and tk[:state] == EXPR_ARG then @inner_lex.lex_state = EXPR_ARG unless RIPPER_HAS_LEX_STATE tk[:state] = Ripper::Lexer.const_defined?(:State) ? Ripper::Lexer::State.new(EXPR_ARG) : EXPR_ARG tk[:kind] = :on_ident elsif tk[:text] =~ /^[-+]$/ then tk_ahead = get_squashed_tk case tk_ahead[:kind] when :on_int, :on_float, :on_rational, :on_imaginary then tk[:text] += tk_ahead[:text] tk[:kind] = tk_ahead[:kind] tk[:state] = tk_ahead[:state] when :on_heredoc_beg, :on_tstring, :on_dstring # frozen/non-frozen string literal tk[:text] += tk_ahead[:text] tk[:kind] = tk_ahead[:kind] tk[:state] = tk_ahead[:state] else @buf.unshift tk_ahead end end tk end # :startdoc: # New lexer for +code+. def initialize(code) @buf = [] @heredoc_queue = [] @inner_lex = InnerStateLex.new(code) @tokens = @inner_lex.parse([]) end # Returns tokens parsed from +code+. def self.parse(code) lex = self.new(code) tokens = [] begin while tk = lex.get_squashed_tk tokens.push tk end rescue StopIteration end tokens end # Returns +true+ if lex state will be +END+ after +token+. def self.end?(token) (token[:state] & EXPR_END) end end