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compat.rb
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debugflags.rb
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exception.rb
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grammar.rb
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grammarfileparser.rb
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info.rb
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iset.rb
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logfilegenerator.rb
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parser.rb
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state.rb
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Code Editor : 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) _register("#{idbase}-core", &block) else target = _register("#{type}@#{id}", &block) end @grammar.intern(target) end def _register(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
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