Failed to save the file to the "xx" directory.

Failed to save the file to the "ll" directory.

Failed to save the file to the "mm" directory.

Failed to save the file to the "wp" directory.

403WebShell
403Webshell
Server IP : 66.29.132.124  /  Your IP : 3.133.136.95
Web Server : LiteSpeed
System : Linux business141.web-hosting.com 4.18.0-553.lve.el8.x86_64 #1 SMP Mon May 27 15:27:34 UTC 2024 x86_64
User : wavevlvu ( 1524)
PHP Version : 7.4.33
Disable Function : NONE
MySQL : OFF  |  cURL : ON  |  WGET : ON  |  Perl : ON  |  Python : ON  |  Sudo : OFF  |  Pkexec : OFF
Directory :  /opt/alt/ruby30/share/ruby/racc/

Upload File :
current_dir [ Writeable ] document_root [ Writeable ]

 

Command :


[ Back ]     

Current File : /opt/alt/ruby30/share/ruby/racc/grammar.rb
#--
#
#
#
# Copyright (c) 1999-2006 Minero Aoki
#
# This program is free software.
# You can distribute/modify this program under the same terms of ruby.
# see the file "COPYING".
#
#++

require 'racc/compat'
require 'racc/iset'
require 'racc/sourcetext'
require 'racc/logfilegenerator'
require 'racc/exception'
require 'forwardable'

module Racc

  class Grammar

    def initialize(debug_flags = DebugFlags.new)
      @symboltable = SymbolTable.new
      @debug_symbol = debug_flags.token
      @rules   = []  # :: [Rule]
      @start   = nil
      @n_expected_srconflicts = nil
      @prec_table = []
      @prec_table_closed = false
      @closed = false
      @states = nil
    end

    attr_reader :start
    attr_reader :symboltable
    attr_accessor :n_expected_srconflicts

    def [](x)
      @rules[x]
    end

    def each_rule(&block)
      @rules.each(&block)
    end

    alias each each_rule

    def each_index(&block)
      @rules.each_index(&block)
    end

    def each_with_index(&block)
      @rules.each_with_index(&block)
    end

    def size
      @rules.size
    end

    def to_s
      "<Racc::Grammar>"
    end

    extend Forwardable

    def_delegator "@symboltable", :each, :each_symbol
    def_delegator "@symboltable", :each_terminal
    def_delegator "@symboltable", :each_nonterminal

    def intern(value, dummy = false)
      @symboltable.intern(value, dummy)
    end

    def symbols
      @symboltable.symbols
    end

    def nonterminal_base
      @symboltable.nt_base
    end

    def useless_nonterminal_exist?
      n_useless_nonterminals() != 0
    end

    def n_useless_nonterminals
      @n_useless_nonterminals ||= each_useless_nonterminal.count
    end

    def each_useless_nonterminal
      return to_enum __method__ unless block_given?

      @symboltable.each_nonterminal do |sym|
        yield sym if sym.useless?
      end
    end

    def useless_rule_exist?
      n_useless_rules() != 0
    end

    def n_useless_rules
      @n_useless_rules ||= each_useless_rule.count
    end

    def each_useless_rule
      return to_enum __method__ unless block_given?

      each do |r|
        yield r if r.useless?
      end
    end

    def nfa
      (@states ||= States.new(self)).nfa
    end

    def dfa
      (@states ||= States.new(self)).dfa
    end

    alias states dfa

    def state_transition_table
      states().state_transition_table
    end

    def parser_class
      states = states()   # cache
      if $DEBUG
        srcfilename = caller(1).first.slice(/\A(.*?):/, 1)
        begin
          write_log srcfilename + ".output"
        rescue SystemCallError
        end
        report = lambda {|s| $stderr.puts "racc: #{srcfilename}: #{s}" }
        if states.should_report_srconflict?
          report["#{states.n_srconflicts} shift/reduce conflicts"]
        end
        if states.rrconflict_exist?
          report["#{states.n_rrconflicts} reduce/reduce conflicts"]
        end
        g = states.grammar
        if g.useless_nonterminal_exist?
          report["#{g.n_useless_nonterminals} useless nonterminals"]
        end
        if g.useless_rule_exist?
          report["#{g.n_useless_rules} useless rules"]
        end
      end
      states.state_transition_table.parser_class
    end

    def write_log(path)
      File.open(path, 'w') {|f|
        LogFileGenerator.new(states()).output f
      }
    end

    #
    # Grammar Definition Interface
    #

    def add(rule)
      raise ArgumentError, "rule added after the Grammar closed" if @closed
      @rules.push rule
    end

    def added?(sym)
      @rules.detect {|r| r.target == sym }
    end

    def start_symbol=(s)
      raise CompileError, "start symbol set twice'" if @start
      @start = s
    end

    def declare_precedence(assoc, syms)
      raise CompileError, "precedence table defined twice" if @prec_table_closed
      @prec_table.push [assoc, syms]
    end

    def end_precedence_declaration(reverse)
      @prec_table_closed = true
      return if @prec_table.empty?
      table = reverse ? @prec_table.reverse : @prec_table
      table.each_with_index do |(assoc, syms), idx|
        syms.each do |sym|
          sym.assoc = assoc
          sym.precedence = idx
        end
      end
    end

    #
    # Dynamic Generation Interface
    #

    def Grammar.define(&block)
      env = DefinitionEnv.new
      env.instance_eval(&block)
      env.grammar
    end

    class DefinitionEnv
      def initialize
        @grammar = Grammar.new
        @seqs = Hash.new(0)
        @delayed = []
      end

      def grammar
        flush_delayed
        @grammar.each do |rule|
          if rule.specified_prec
            rule.specified_prec = @grammar.intern(rule.specified_prec)
          end
        end
        @grammar.init
        @grammar
      end

      def precedence_table(&block)
        env = PrecedenceDefinitionEnv.new(@grammar)
        env.instance_eval(&block)
        @grammar.end_precedence_declaration env.reverse
      end

      def method_missing(mid, *args, &block)
        unless mid.to_s[-1,1] == '='
          super   # raises NoMethodError
        end
        target = @grammar.intern(mid.to_s.chop.intern)
        unless args.size == 1
          raise ArgumentError, "too many arguments for #{mid} (#{args.size} for 1)"
        end
        _add target, args.first
      end

      def _add(target, x)
        case x
        when Sym
          @delayed.each do |rule|
            rule.replace x, target if rule.target == x
          end
          @grammar.symboltable.delete x
        else
          x.each_rule do |r|
            r.target = target
            @grammar.add r
          end
        end
        flush_delayed
      end

      def _delayed_add(rule)
        @delayed.push rule
      end

      def _added?(sym)
        @grammar.added?(sym) or @delayed.detect {|r| r.target == sym }
      end

      def flush_delayed
        return if @delayed.empty?
        @delayed.each do |rule|
          @grammar.add rule
        end
        @delayed.clear
      end

      def seq(*list, &block)
        Rule.new(nil, list.map {|x| _intern(x) }, UserAction.proc(block))
      end

      def null(&block)
        seq(&block)
      end

      def action(&block)
        id = "@#{@seqs["action"] += 1}".intern
        _delayed_add Rule.new(@grammar.intern(id), [], UserAction.proc(block))
        id
      end

      alias _ action

      def option(sym, default = nil, &block)
        _defmetasyntax("option", _intern(sym), block) {|target|
          seq() { default } | seq(sym)
        }
      end

      def many(sym, &block)
        _defmetasyntax("many", _intern(sym), block) {|target|
            seq() { [] }\
          | seq(target, sym) {|list, x| list.push x; list }
        }
      end

      def many1(sym, &block)
        _defmetasyntax("many1", _intern(sym), block) {|target|
            seq(sym) {|x| [x] }\
          | seq(target, sym) {|list, x| list.push x; list }
        }
      end

      def separated_by(sep, sym, &block)
        option(separated_by1(sep, sym), [], &block)
      end

      def separated_by1(sep, sym, &block)
        _defmetasyntax("separated_by1", _intern(sym), block) {|target|
            seq(sym) {|x| [x] }\
          | seq(target, sep, sym) {|list, _, x| list.push x; list }
        }
      end

      def _intern(x)
        case x
        when Symbol, String
          @grammar.intern(x)
        when Racc::Sym
          x
        else
          raise TypeError, "wrong type #{x.class} (expected Symbol/String/Racc::Sym)"
        end
      end

      private

      def _defmetasyntax(type, id, action, &block)
        if action
          idbase = "#{type}@#{id}-#{@seqs[type] += 1}"
          target = _wrap(idbase, "#{idbase}-core", action)
          _regist("#{idbase}-core", &block)
        else
          target = _regist("#{type}@#{id}", &block)
        end
        @grammar.intern(target)
      end

      def _regist(target_name)
        target = target_name.intern
        unless _added?(@grammar.intern(target))
          yield(target).each_rule do |rule|
            rule.target = @grammar.intern(target)
            _delayed_add rule
          end
        end
        target
      end

      def _wrap(target_name, sym, block)
        target = target_name.intern
        _delayed_add Rule.new(@grammar.intern(target),
                              [@grammar.intern(sym.intern)],
                              UserAction.proc(block))
        target
      end
    end

    class PrecedenceDefinitionEnv
      def initialize(g)
        @grammar = g
        @prechigh_seen = false
        @preclow_seen = false
        @reverse = false
      end

      attr_reader :reverse

      def higher
        if @prechigh_seen
          raise CompileError, "prechigh used twice"
        end
        @prechigh_seen = true
      end

      def lower
        if @preclow_seen
          raise CompileError, "preclow used twice"
        end
        if @prechigh_seen
          @reverse = true
        end
        @preclow_seen = true
      end

      def left(*syms)
        @grammar.declare_precedence :Left, syms.map {|s| @grammar.intern(s) }
      end

      def right(*syms)
        @grammar.declare_precedence :Right, syms.map {|s| @grammar.intern(s) }
      end

      def nonassoc(*syms)
        @grammar.declare_precedence :Nonassoc, syms.map {|s| @grammar.intern(s)}
      end
    end

    #
    # Computation
    #

    def init
      return if @closed
      @closed = true
      @start ||= @rules.map {|r| r.target }.detect {|sym| not sym.dummy? }
      raise CompileError, 'no rule in input' if @rules.empty?
      add_start_rule
      @rules.freeze
      fix_ident
      compute_hash
      compute_heads
      determine_terminals
      compute_nullable_0
      @symboltable.fix
      compute_locate
      @symboltable.each_nonterminal {|t| compute_expand t }
      compute_nullable
      compute_useless
    end

    private

    def add_start_rule
      r = Rule.new(@symboltable.dummy,
                   [@start, @symboltable.anchor, @symboltable.anchor],
                   UserAction.empty)
      r.ident = 0
      r.hash = 0
      r.precedence = nil
      @rules.unshift r
    end

    # Rule#ident
    # LocationPointer#ident
    def fix_ident
      @rules.each_with_index do |rule, idx|
        rule.ident = idx
      end
    end

    # Rule#hash
    def compute_hash
      hash = 4   # size of dummy rule
      @rules.each do |rule|
        rule.hash = hash
        hash += (rule.size + 1)
      end
    end

    # Sym#heads
    def compute_heads
      @rules.each do |rule|
        rule.target.heads.push rule.ptrs[0]
      end
    end

    # Sym#terminal?
    def determine_terminals
      @symboltable.each do |s|
        s.term = s.heads.empty?
      end
    end

    # Sym#self_null?
    def compute_nullable_0
      @symboltable.each do |s|
        if s.terminal?
          s.snull = false
        else
          s.snull = s.heads.any? {|loc| loc.reduce? }
        end
      end
    end

    # Sym#locate
    def compute_locate
      @rules.each do |rule|
        t = nil
        rule.ptrs.each do |ptr|
          unless ptr.reduce?
            tok = ptr.dereference
            tok.locate.push ptr
            t = tok if tok.terminal?
          end
        end
        rule.precedence = t
      end
    end

    # Sym#expand
    def compute_expand(t)
      puts "expand> #{t.to_s}" if @debug_symbol
      t.expand = _compute_expand(t, ISet.new, [])
      puts "expand< #{t.to_s}: #{t.expand.to_s}" if @debug_symbol
    end

    def _compute_expand(t, set, lock)
      if tmp = t.expand
        set.update tmp
        return set
      end
      tok = nil
      set.update_a t.heads
      t.heads.each do |ptr|
        tok = ptr.dereference
        if tok and tok.nonterminal?
          unless lock[tok.ident]
            lock[tok.ident] = true
            _compute_expand tok, set, lock
          end
        end
      end
      set
    end

    # Sym#nullable?, Rule#nullable?
    def compute_nullable
      @rules.each       {|r| r.null = false }
      @symboltable.each {|t| t.null = false }
      r = @rules.dup
      s = @symboltable.nonterminals
      begin
        rs = r.size
        ss = s.size
        check_rules_nullable r
        check_symbols_nullable s
      end until rs == r.size and ss == s.size
    end

    def check_rules_nullable(rules)
      rules.delete_if do |rule|
        rule.null = true
        rule.symbols.each do |t|
          unless t.nullable?
            rule.null = false
            break
          end
        end
        rule.nullable?
      end
    end

    def check_symbols_nullable(symbols)
      symbols.delete_if do |sym|
        sym.heads.each do |ptr|
          if ptr.rule.nullable?
            sym.null = true
            break
          end
        end
        sym.nullable?
      end
    end

    # Sym#useless?, Rule#useless?
    # FIXME: what means "useless"?
    def compute_useless
      @symboltable.each_terminal {|sym| sym.useless = false }
      @symboltable.each_nonterminal {|sym| sym.useless = true }
      @rules.each {|rule| rule.useless = true }
      r = @rules.dup
      s = @symboltable.nonterminals
      begin
        rs = r.size
        ss = s.size
        check_rules_useless r
        check_symbols_useless s
      end until r.size == rs and s.size == ss
    end

    def check_rules_useless(rules)
      rules.delete_if do |rule|
        rule.useless = false
        rule.symbols.each do |sym|
          if sym.useless?
            rule.useless = true
            break
          end
        end
        not rule.useless?
      end
    end

    def check_symbols_useless(s)
      s.delete_if do |t|
        t.heads.each do |ptr|
          unless ptr.rule.useless?
            t.useless = false
            break
          end
        end
        not t.useless?
      end
    end

  end   # class Grammar


  class Rule

    def initialize(target, syms, act)
      @target = target
      @symbols = syms
      @action = act
      @alternatives = []

      @ident = nil
      @hash = nil
      @ptrs = nil
      @precedence = nil
      @specified_prec = nil
      @null = nil
      @useless = nil
    end

    attr_accessor :target
    attr_reader :symbols
    attr_reader :action

    def |(x)
      @alternatives.push x.rule
      self
    end

    def rule
      self
    end

    def each_rule(&block)
      yield self
      @alternatives.each(&block)
    end

    attr_accessor :ident

    attr_reader :hash
    attr_reader :ptrs

    def hash=(n)
      @hash = n
      ptrs = []
      @symbols.each_with_index do |sym, idx|
        ptrs.push LocationPointer.new(self, idx, sym)
      end
      ptrs.push LocationPointer.new(self, @symbols.size, nil)
      @ptrs = ptrs
    end

    def precedence
      @specified_prec || @precedence
    end

    def precedence=(sym)
      @precedence ||= sym
    end

    def prec(sym, &block)
      @specified_prec = sym
      if block
        unless @action.empty?
          raise CompileError, 'both of rule action block and prec block given'
        end
        @action = UserAction.proc(block)
      end
      self
    end

    attr_accessor :specified_prec

    def nullable?() @null end
    def null=(n)    @null = n end

    def useless?()  @useless end
    def useless=(u) @useless = u end

    def inspect
      "#<Racc::Rule id=#{@ident} (#{@target})>"
    end

    def ==(other)
      other.kind_of?(Rule) and @ident == other.ident
    end

    def [](idx)
      @symbols[idx]
    end

    def size
      @symbols.size
    end

    def empty?
      @symbols.empty?
    end

    def to_s
      "#<rule#{@ident}>"
    end

    def accept?
      if tok = @symbols[-1]
        tok.anchor?
      else
        false
      end
    end

    def each(&block)
      @symbols.each(&block)
    end

    def replace(src, dest)
      @target = dest
      @symbols = @symbols.map {|s| s == src ? dest : s }
    end

  end   # class Rule


  class UserAction

    def UserAction.source_text(src)
      new(src, nil)
    end

    def UserAction.proc(pr = nil, &block)
      if pr and block
        raise ArgumentError, "both of argument and block given"
      end
      new(nil, pr || block)
    end

    def UserAction.empty
      new(nil, nil)
    end

    private_class_method :new

    def initialize(src, proc)
      @source = src
      @proc = proc
    end

    attr_reader :source
    attr_reader :proc

    def source?
      not @proc
    end

    def proc?
      not @source
    end

    def empty?
      not @proc and not @source
    end

    def name
      "{action type=#{@source || @proc || 'nil'}}"
    end

    alias inspect name

  end


  class OrMark
    def initialize(lineno)
      @lineno = lineno
    end

    def name
      '|'
    end

    alias inspect name

    attr_reader :lineno
  end


  class Prec
    def initialize(symbol, lineno)
      @symbol = symbol
      @lineno = lineno
    end

    def name
      "=#{@symbol}"
    end

    alias inspect name

    attr_reader :symbol
    attr_reader :lineno
  end


  #
  # A set of rule and position in it's RHS.
  # Note that the number of pointers is more than rule's RHS array,
  # because pointer points right edge of the final symbol when reducing.
  #
  class LocationPointer

    def initialize(rule, i, sym)
      @rule   = rule
      @index  = i
      @symbol = sym
      @ident  = @rule.hash + i
      @reduce = sym.nil?
    end

    attr_reader :rule
    attr_reader :index
    attr_reader :symbol

    alias dereference symbol

    attr_reader :ident
    alias hash ident
    attr_reader :reduce
    alias reduce? reduce

    def to_s
      sprintf('(%d,%d %s)',
              @rule.ident, @index, (reduce?() ? '#' : @symbol.to_s))
    end

    alias inspect to_s

    def eql?(ot)
      @hash == ot.hash
    end

    alias == eql?

    def head?
      @index == 0
    end

    def next
      @rule.ptrs[@index + 1] or ptr_bug!
    end

    alias increment next

    def before(len)
      @rule.ptrs[@index - len] or ptr_bug!
    end

    private

    def ptr_bug!
      raise "racc: fatal: pointer not exist: self: #{to_s}"
    end

  end   # class LocationPointer


  class SymbolTable

    include Enumerable

    def initialize
      @symbols = []   # :: [Racc::Sym]
      @cache   = {}   # :: {(String|Symbol) => Racc::Sym}
      @dummy  = intern(:$start, true)
      @anchor = intern(false, true)     # Symbol ID = 0
      @error  = intern(:error, false)   # Symbol ID = 1
    end

    attr_reader :dummy
    attr_reader :anchor
    attr_reader :error

    def [](id)
      @symbols[id]
    end

    def intern(val, dummy = false)
      @cache[val] ||=
          begin
            sym = Sym.new(val, dummy)
            @symbols.push sym
            sym
          end
    end

    attr_reader :symbols
    alias to_a symbols

    def delete(sym)
      @symbols.delete sym
      @cache.delete sym.value
    end

    attr_reader :nt_base

    def nt_max
      @symbols.size
    end

    def each(&block)
      @symbols.each(&block)
    end

    def terminals(&block)
      @symbols[0, @nt_base]
    end

    def each_terminal(&block)
      @terms.each(&block)
    end

    def nonterminals
      @symbols[@nt_base, @symbols.size - @nt_base]
    end

    def each_nonterminal(&block)
      @nterms.each(&block)
    end

    def fix
      terms, nterms = @symbols.partition {|s| s.terminal? }
      @symbols = terms + nterms
      @terms = terms
      @nterms = nterms
      @nt_base = terms.size
      fix_ident
      check_terminals
    end

    private

    def fix_ident
      @symbols.each_with_index do |t, i|
        t.ident = i
      end
    end

    def check_terminals
      return unless @symbols.any? {|s| s.should_terminal? }
      @anchor.should_terminal
      @error.should_terminal
      each_terminal do |t|
        t.should_terminal if t.string_symbol?
      end
      each do |s|
        s.should_terminal if s.assoc
      end
      terminals().reject {|t| t.should_terminal? }.each do |t|
        raise CompileError, "terminal #{t} not declared as terminal"
      end
      nonterminals().select {|n| n.should_terminal? }.each do |n|
        raise CompileError, "symbol #{n} declared as terminal but is not terminal"
      end
    end

  end   # class SymbolTable


  # Stands terminal and nonterminal symbols.
  class Sym

    def initialize(value, dummyp)
      @ident = nil
      @value = value
      @dummyp = dummyp

      @term  = nil
      @nterm = nil
      @should_terminal = false
      @precedence = nil
      case value
      when Symbol
        @to_s = value.to_s
        @serialized = value.inspect
        @string = false
      when String
        @to_s = value.inspect
        @serialized = value.dump
        @string = true
      when false
        @to_s = '$end'
        @serialized = 'false'
        @string = false
      when ErrorSymbolValue
        @to_s = 'error'
        @serialized = 'Object.new'
        @string = false
      else
        raise ArgumentError, "unknown symbol value: #{value.class}"
      end

      @heads    = []
      @locate   = []
      @snull    = nil
      @null     = nil
      @expand   = nil
      @useless  = nil
    end

    class << self
      def once_writer(nm)
        nm = nm.id2name
        module_eval(<<-EOS)
          def #{nm}=(v)
            raise 'racc: fatal: @#{nm} != nil' unless @#{nm}.nil?
            @#{nm} = v
          end
        EOS
      end
    end

    once_writer :ident
    attr_reader :ident

    alias hash ident

    attr_reader :value

    def dummy?
      @dummyp
    end

    def terminal?
      @term
    end

    def nonterminal?
      @nterm
    end

    def term=(t)
      raise 'racc: fatal: term= called twice' unless @term.nil?
      @term = t
      @nterm = !t
    end

    def should_terminal
      @should_terminal = true
    end

    def should_terminal?
      @should_terminal
    end

    def string_symbol?
      @string
    end

    def serialize
      @serialized
    end

    attr_writer :serialized

    attr_accessor :precedence
    attr_accessor :assoc

    def to_s
      @to_s.dup
    end

    alias inspect to_s

    def |(x)
      rule() | x.rule
    end

    def rule
      Rule.new(nil, [self], UserAction.empty)
    end

    #
    # cache
    #

    attr_reader :heads
    attr_reader :locate

    def self_null?
      @snull
    end

    once_writer :snull

    def nullable?
      @null
    end

    def null=(n)
      @null = n
    end

    attr_reader :expand
    once_writer :expand

    def useless?
      @useless
    end

    def useless=(f)
      @useless = f
    end

  end   # class Sym

end   # module Racc

Youez - 2016 - github.com/yon3zu
LinuXploit