%PDF- %PDF-
Direktori : /proc/thread-self/root/proc/thread-self/root/opt/alt/ruby27/share/ruby/irb/ |
Current File : //proc/thread-self/root/proc/thread-self/root/opt/alt/ruby27/share/ruby/irb/ruby-lex.rb |
# frozen_string_literal: false # # irb/ruby-lex.rb - ruby lexcal analyzer # $Release Version: 0.9.6$ # $Revision$ # by Keiju ISHITSUKA(keiju@ruby-lang.org) # # -- # # # require "ripper" require "jruby" if RUBY_ENGINE == "jruby" # :stopdoc: class RubyLex class TerminateLineInput < StandardError def initialize super("Terminate Line Input") end end def initialize @exp_line_no = @line_no = 1 @indent = 0 @continue = false @line = "" @prompt = nil end def self.compile_with_errors_suppressed(code) line_no = 1 begin result = yield code, line_no rescue ArgumentError code = ";\n#{code}" line_no = 0 result = yield code, line_no end result end # io functions def set_input(io, p = nil, &block) @io = io if @io.respond_to?(:check_termination) @io.check_termination do |code| code.gsub!(/\s*\z/, '').concat("\n") ltype, indent, continue, code_block_open = check_state(code) if ltype or indent > 0 or continue or code_block_open false else true end end end if @io.respond_to?(:dynamic_prompt) @io.dynamic_prompt do |lines| lines << '' if lines.empty? result = [] lines.each_index { |i| c = lines[0..i].map{ |l| l + "\n" }.join ltype, indent, continue, code_block_open = check_state(c) result << @prompt.call(ltype, indent, continue || code_block_open, @line_no + i) } result end end if p.respond_to?(:call) @input = p elsif block_given? @input = block else @input = Proc.new{@io.gets} end end 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 ripper_lex_without_warning(code) verbose, $VERBOSE = $VERBOSE, nil tokens = nil self.class.compile_with_errors_suppressed(code) do |inner_code, line_no| tokens = Ripper.lex(inner_code, '-', line_no) end $VERBOSE = verbose tokens end def set_auto_indent(context) if @io.respond_to?(:auto_indent) and context.auto_indent_mode @io.auto_indent do |lines, line_index, byte_pointer, is_newline| if is_newline md = lines[line_index - 1].match(/(\A +)/) prev_spaces = md.nil? ? 0 : md[1].count(' ') @tokens = ripper_lex_without_warning(lines[0..line_index].join("\n")) depth_difference = check_newline_depth_difference prev_spaces + depth_difference * 2 else code = line_index.zero? ? '' : lines[0..(line_index - 1)].map{ |l| l + "\n" }.join last_line = lines[line_index]&.byteslice(0, byte_pointer) code += last_line if last_line @tokens = ripper_lex_without_warning(code) corresponding_token_depth = check_corresponding_token_depth if corresponding_token_depth corresponding_token_depth else nil end end end end end def check_state(code) @tokens = ripper_lex_without_warning(code) ltype = process_literal_type indent = process_nesting_level continue = process_continue code_block_open = check_code_block(code) [ltype, indent, continue, code_block_open] end def prompt if @prompt @prompt.call(@ltype, @indent, @continue, @line_no) end end def initialize_input @ltype = nil @indent = 0 @continue = false @line = "" @exp_line_no = @line_no @code_block_open = false end def each_top_level_statement initialize_input catch(:TERM_INPUT) do loop do begin prompt unless l = lex throw :TERM_INPUT if @line == '' else @line_no += l.count("\n") next if l == "\n" @line.concat l if @code_block_open or @ltype or @continue or @indent > 0 next end end if @line != "\n" @line.force_encoding(@io.encoding) yield @line, @exp_line_no end break if @io.eof? @line = '' @exp_line_no = @line_no @indent = 0 rescue TerminateLineInput initialize_input prompt end end end end def lex line = @input.call if @io.respond_to?(:check_termination) return line # multiline end code = @line + (line.nil? ? '' : line) code.gsub!(/\s*\z/, '').concat("\n") @tokens = ripper_lex_without_warning(code) @continue = process_continue @code_block_open = check_code_block(code) @indent = process_nesting_level @ltype = process_literal_type line end def process_continue # last token is always newline if @tokens.size >= 2 and @tokens[-2][1] == :on_regexp_end # end of regexp literal return false elsif @tokens.size >= 2 and @tokens[-2][1] == :on_semicolon return false elsif @tokens.size >= 2 and @tokens[-2][1] == :on_kw and ['begin', 'else', 'ensure'].include?(@tokens[-2][2]) return false elsif !@tokens.empty? and @tokens.last[2] == "\\\n" return true elsif @tokens.size >= 1 and @tokens[-1][1] == :on_heredoc_end # "EOH\n" return false elsif @tokens.size >= 2 and defined?(Ripper::EXPR_BEG) and @tokens[-2][3].anybits?(Ripper::EXPR_BEG | Ripper::EXPR_FNAME) # end of literal except for regexp return true end false end def check_code_block(code) return true if @tokens.empty? if @tokens.last[1] == :on_heredoc_beg return true end begin # check if parser error are available verbose, $VERBOSE = $VERBOSE, nil case RUBY_ENGINE when 'jruby' JRuby.compile_ir(code) else self.class.compile_with_errors_suppressed(code) do |inner_code, line_no| RubyVM::InstructionSequence.compile(inner_code, nil, nil, line_no) end end rescue EncodingError # This is for a hash with invalid encoding symbol, {"\xAE": 1} rescue SyntaxError => e case e.message when /unterminated (?:string|regexp) meets end of file/ # "unterminated regexp meets end of file" # # example: # / # # "unterminated string meets end of file" # # example: # ' return true when /syntax error, unexpected end-of-input/ # "syntax error, unexpected end-of-input, expecting keyword_end" # # example: # if ture # hoge # if false # fuga # end return true when /syntax error, unexpected keyword_end/ # "syntax error, unexpected keyword_end" # # example: # if ( # end # # example: # end return false when /syntax error, unexpected '\.'/ # "syntax error, unexpected '.'" # # example: # . return false when /unexpected tREGEXP_BEG/ # "syntax error, unexpected tREGEXP_BEG, expecting keyword_do or '{' or '('" # # example: # method / f / return false end ensure $VERBOSE = verbose end if defined?(Ripper::EXPR_BEG) last_lex_state = @tokens.last[3] if last_lex_state.allbits?(Ripper::EXPR_BEG) return false elsif last_lex_state.allbits?(Ripper::EXPR_DOT) return true elsif last_lex_state.allbits?(Ripper::EXPR_CLASS) return true elsif last_lex_state.allbits?(Ripper::EXPR_FNAME) return true elsif last_lex_state.allbits?(Ripper::EXPR_VALUE) return true elsif last_lex_state.allbits?(Ripper::EXPR_ARG) return false end end false end def process_nesting_level indent = 0 in_oneliner_def = nil @tokens.each_with_index { |t, index| # detecting one-liner method definition if in_oneliner_def.nil? if t[3].allbits?(Ripper::EXPR_ENDFN) in_oneliner_def = :ENDFN end else if t[3].allbits?(Ripper::EXPR_ENDFN) # continuing elsif t[3].allbits?(Ripper::EXPR_BEG) if t[2] == '=' in_oneliner_def = :BODY end elsif t[3].allbits?(Ripper::EXPR_END) if in_oneliner_def == :BODY # one-liner method definition indent -= 1 end in_oneliner_def = nil else in_oneliner_def = nil end end case t[1] when :on_lbracket, :on_lbrace, :on_lparen, :on_tlambeg indent += 1 when :on_rbracket, :on_rbrace, :on_rparen indent -= 1 when :on_kw next if index > 0 and @tokens[index - 1][3].allbits?(Ripper::EXPR_FNAME) case t[2] when 'do' if index > 0 and @tokens[index - 1][3].anybits?(Ripper::EXPR_CMDARG | Ripper::EXPR_ENDFN | Ripper::EXPR_ARG) # method_with_block do; end indent += 1 else # while cond do; end # also "until" or "for" # This "do" doesn't increment indent because "while" already # incremented. end when 'def', 'case', 'for', 'begin', 'class', 'module' indent += 1 when 'if', 'unless', 'while', 'until' # postfix if/unless/while/until must be Ripper::EXPR_LABEL indent += 1 unless t[3].allbits?(Ripper::EXPR_LABEL) when 'end' indent -= 1 end end # percent literals are not indented } indent end def check_newline_depth_difference depth_difference = 0 open_brace_on_line = 0 in_oneliner_def = nil @tokens.each_with_index do |t, index| # detecting one-liner method definition if in_oneliner_def.nil? if t[3].allbits?(Ripper::EXPR_ENDFN) in_oneliner_def = :ENDFN end else if t[3].allbits?(Ripper::EXPR_ENDFN) # continuing elsif t[3].allbits?(Ripper::EXPR_BEG) if t[2] == '=' in_oneliner_def = :BODY end elsif t[3].allbits?(Ripper::EXPR_END) if in_oneliner_def == :BODY # one[-liner method definition depth_difference -= 1 end in_oneliner_def = nil else in_oneliner_def = nil end end case t[1] when :on_ignored_nl, :on_nl, :on_comment if index != (@tokens.size - 1) depth_difference = 0 open_brace_on_line = 0 end next when :on_sp next end case t[1] when :on_lbracket, :on_lbrace, :on_lparen, :on_tlambeg depth_difference += 1 open_brace_on_line += 1 when :on_rbracket, :on_rbrace, :on_rparen depth_difference -= 1 if open_brace_on_line > 0 when :on_kw next if index > 0 and @tokens[index - 1][3].allbits?(Ripper::EXPR_FNAME) case t[2] when 'do' if index > 0 and @tokens[index - 1][3].anybits?(Ripper::EXPR_CMDARG | Ripper::EXPR_ENDFN | Ripper::EXPR_ARG) # method_with_block do; end depth_difference += 1 else # while cond do; end # also "until" or "for" # This "do" doesn't increment indent because "while" already # incremented. end when 'def', 'case', 'for', 'begin', 'class', 'module' depth_difference += 1 when 'if', 'unless', 'while', 'until', 'rescue' # postfix if/unless/while/until/rescue must be Ripper::EXPR_LABEL unless t[3].allbits?(Ripper::EXPR_LABEL) depth_difference += 1 end when 'else', 'elsif', 'ensure', 'when', 'in' depth_difference += 1 end end end depth_difference end def check_corresponding_token_depth corresponding_token_depth = nil is_first_spaces_of_line = true is_first_printable_of_line = true spaces_of_nest = [] spaces_at_line_head = 0 open_brace_on_line = 0 in_oneliner_def = nil @tokens.each_with_index do |t, index| # detecting one-liner method definition if in_oneliner_def.nil? if t[3].allbits?(Ripper::EXPR_ENDFN) in_oneliner_def = :ENDFN end else if t[3].allbits?(Ripper::EXPR_ENDFN) # continuing elsif t[3].allbits?(Ripper::EXPR_BEG) if t[2] == '=' in_oneliner_def = :BODY end elsif t[3].allbits?(Ripper::EXPR_END) if in_oneliner_def == :BODY # one-liner method definition if is_first_printable_of_line corresponding_token_depth = spaces_of_nest.pop else spaces_of_nest.pop corresponding_token_depth = nil end end in_oneliner_def = nil else in_oneliner_def = nil end end case t[1] when :on_ignored_nl, :on_nl, :on_comment corresponding_token_depth = nil spaces_at_line_head = 0 is_first_spaces_of_line = true is_first_printable_of_line = true open_brace_on_line = 0 next when :on_sp spaces_at_line_head = t[2].count(' ') if is_first_spaces_of_line is_first_spaces_of_line = false next end case t[1] when :on_lbracket, :on_lbrace, :on_lparen, :on_tlambeg spaces_of_nest.push(spaces_at_line_head + open_brace_on_line * 2) open_brace_on_line += 1 when :on_rbracket, :on_rbrace, :on_rparen if is_first_printable_of_line corresponding_token_depth = spaces_of_nest.pop else spaces_of_nest.pop corresponding_token_depth = nil end open_brace_on_line -= 1 when :on_kw next if index > 0 and @tokens[index - 1][3].allbits?(Ripper::EXPR_FNAME) case t[2] when 'def', 'do', 'case', 'for', 'begin', 'class', 'module' spaces_of_nest.push(spaces_at_line_head) when 'rescue' unless t[3].allbits?(Ripper::EXPR_LABEL) corresponding_token_depth = spaces_of_nest.last end when 'if', 'unless', 'while', 'until' # postfix if/unless/while/until must be Ripper::EXPR_LABEL unless t[3].allbits?(Ripper::EXPR_LABEL) spaces_of_nest.push(spaces_at_line_head) end when 'else', 'elsif', 'ensure', 'when', 'in' corresponding_token_depth = spaces_of_nest.last when 'end' if is_first_printable_of_line corresponding_token_depth = spaces_of_nest.pop else spaces_of_nest.pop corresponding_token_depth = nil end end end is_first_spaces_of_line = false is_first_printable_of_line = false end corresponding_token_depth end def check_string_literal i = 0 start_token = [] end_type = [] while i < @tokens.size t = @tokens[i] case t[1] when :on_tstring_beg start_token << t end_type << [:on_tstring_end, :on_label_end] when :on_regexp_beg start_token << t end_type << :on_regexp_end when :on_symbeg acceptable_single_tokens = %i{on_ident on_const on_op on_cvar on_ivar on_gvar on_kw} if (i + 1) < @tokens.size and acceptable_single_tokens.all?{ |t| @tokens[i + 1][1] != t } start_token << t end_type << :on_tstring_end end when :on_backtick start_token << t end_type << :on_tstring_end when :on_qwords_beg, :on_words_beg, :on_qsymbols_beg, :on_symbols_beg start_token << t end_type << :on_tstring_end when :on_heredoc_beg start_token << t end_type << :on_heredoc_end when *end_type.last start_token.pop end_type.pop end i += 1 end start_token.last.nil? ? '' : start_token.last end def process_literal_type start_token = check_string_literal case start_token[1] when :on_tstring_beg case start_token[2] when ?" then ?" when /^%.$/ then ?" when /^%Q.$/ then ?" when ?' then ?' when /^%q.$/ then ?' end when :on_regexp_beg then ?/ when :on_symbeg then ?: when :on_backtick then ?` when :on_qwords_beg then ?] when :on_words_beg then ?] when :on_qsymbols_beg then ?] when :on_symbols_beg then ?] when :on_heredoc_beg start_token[2] =~ /<<[-~]?(['"`])[_a-zA-Z0-9]+\1/ case $1 when ?" then ?" when ?' then ?' when ?` then ?` else ?" end else nil end end end # :startdoc: