public void SeveralStatesAutomatonWithSynchronizingWord() { var a = new AutomatonBuilder() .BeginState("1") .WithJump('a', "2") .WithJump('b', "3") .EndState() .BeginState("2") .WithJump('a', "3") .WithJump('b', "3") .EndState() .BeginState("3") .WithJump('a', "2") .WithJump('b', "3") .EndState() .Build(); Assert.True(IsSynchronizing(a, "aab")); Assert.True(IsSynchronizing(a, "aaba")); Assert.True(IsSynchronizing(a, "b")); Assert.True(IsSynchronizing(a, "ba")); Assert.False(IsSynchronizing(a, "")); Assert.False(IsSynchronizing(a, "a")); }
public static IAutomaton Consume(ICharSet characters) { var builder = new AutomatonBuilder(); var start = builder.AddState(); var end = builder.AddState(); builder.SetStartState(start); builder.AcceptState(end); builder.AddTransition(start, characters, end); return(builder.Build()); }
public void OneStateAutomaton() { var a = new AutomatonBuilder() .BeginState("1") .WithJump('a', "1") .EndState() .Build(); Assert.True(IsSynchronizing(a, "a")); Assert.True(IsSynchronizing(a, "")); }
public static IAutomaton Alternate(IEnumerable <IAutomaton> automata) { var builder = new AutomatonBuilder(); var start = builder.AddState(); var end = builder.AddState(); builder.SetStartState(start); builder.AcceptState(end); foreach (var automaton in automata) { automaton.CopyTo(builder, out var oldStart, out var oldAcceptings); builder.AddEpsilonTransition(start, oldStart); foreach (var accepting in oldAcceptings) { builder.AddEpsilonTransition(accepting, end); } } return(builder.Build()); }
public static IAutomaton Concat(IEnumerable <IAutomaton> automata) { var builder = new AutomatonBuilder(); var start = builder.AddState(); builder.SetStartState(start); foreach (var automaton in automata) { var end = builder.AddState(); automaton.CopyTo(builder, out var oldNewStart, out var oldNewAcceptings); builder.AddEpsilonTransition(start, oldNewStart); foreach (var st in oldNewAcceptings) { builder.AddEpsilonTransition(st, end); } start = end; } builder.AcceptState(start); return(builder.Build()); }
public static void Main(string[] args) { var languageFileName = args[0]; var inputFileName = args[1]; var languageWords = LanguageReader.ReadLanguage(languageFileName); if (languageWords == null) { return; } var inputLines = InputReader.ReadInput(inputFileName); if (inputLines == null) { return; } var automaton = AutomatonBuilder.BuildAutomatonFromLanguageWords(languageWords); Determinizer.Determinize(automaton); var i = 1; foreach (var line in inputLines) { var processLineResult = automaton.ProcessLine(line); if (processLineResult != -1) { Console.WriteLine($"ERROR: LEXIKÁLNA CHYBA, r. {i}, pozícia {processLineResult}"); break; } i++; } }
public static IAutomaton Repeat(IAutomaton automaton, int min = 0, int max = -1) { if (min < 0 || (max >= 0 && min > max)) { throw new ArgumentException(nameof(min)); } var builder = new AutomatonBuilder(); var start = builder.AddState(); var accept = builder.AddState(); var previousStart = -1; builder.SetStartState(start); builder.AcceptState(accept); int?count = null; if (max != -1) { count = max - min; } while (min > 0) { var end = builder.AddState(); automaton.CopyTo(builder, out var oldNewStart, out var oldNewAcceptings); builder.AddEpsilonTransition(start, oldNewStart); foreach (var st in oldNewAcceptings) { builder.AddEpsilonTransition(st, end); } min--; previousStart = start; start = end; } builder.AddEpsilonTransition(start, accept); if (count == null) //no upper limit, loop! { if (previousStart == -1) { var end = builder.AddState(); automaton.CopyTo(builder, out var oldNewStart, out var oldNewAcceptings); builder.AddEpsilonTransition(start, oldNewStart); builder.AddEpsilonTransition(end, accept); foreach (var st in oldNewAcceptings) { builder.AddEpsilonTransition(st, end); } previousStart = start; start = end; } builder.AddEpsilonTransition(start, previousStart); } else { while (count > 0)//existing upper limit, no loop! { var end = builder.AddState(); automaton.CopyTo(builder, out var oldNewStart, out var oldNewAcceptings); builder.AddEpsilonTransition(start, oldNewStart); foreach (var st in oldNewAcceptings) { builder.AddEpsilonTransition(st, end); } builder.AddEpsilonTransition(end, accept); count--; start = end; } } return(builder.Build()); }
public static IAutomaton Determinize(this IAutomaton @this) { var builder = new AutomatonBuilder(); var newStates = new Dictionary <decimal, int>(); var start = @this.GetEpsilonClosure(@this.StartState); var queue = new Queue <IEnumerable <int> >(); var transitions = new LinkedList <Tuple <decimal, ICharSet, decimal> >(); queue.Enqueue(start); while (queue.Any()) { var source = queue.Dequeue(); var sourceBits = source.ToBits(); if (newStates.ContainsKey(sourceBits)) { continue; } var state = builder.AddState(); newStates[sourceBits] = state; //define start and end if (source == start) { builder.SetStartState(state); } if (source.Any(st => @this.AcceptingStates.Contains(st))) { builder.AcceptState(state); } //get all possible inputs var inputs = new List <ICharSet>(); foreach (var st in source) { var transitionTargets = @this.TransitionsBySource.GetOrDefault(st); if (transitionTargets == null) { continue; } foreach (var lhs in transitionTargets.GetKeys()) { if (lhs != CharSet.Epsilon) { // A \ B // B \ A // A ^ B var distinct = true; inputs = inputs.SelectMany(rhs => { var first = lhs.Except(rhs); var second = rhs.Except(lhs); var third = lhs.Intersect(rhs); if (third.Any()) { distinct = false; } return(new[] { first, second, third }.Where(a => a.Length > 0)); }).ToList(); if (distinct) { inputs.Add(lhs); } } } } //find target states (in epsilon closure) foreach (var c in inputs) { var dfaState = new HashSet <int>(); foreach (var st in source) { var transition = @this.TransitionsBySource.GetOrDefault(st); var targets = transition?.ReadSet(c); if (targets == null) { continue; } foreach (var target in targets) { dfaState.Add(target); } } if (dfaState.Any()) { var epsilonTarget = @this.GetEpsilonClosure(dfaState.ToArray()); var targetBits = epsilonTarget.ToBits(); transitions.AddLast(new Tuple <decimal, ICharSet, decimal>(sourceBits, c, targetBits)); queue.Enqueue(epsilonTarget); } } } //add all transitions foreach (var transition in transitions) { var source = newStates[transition.Item1]; var target = newStates[transition.Item3]; builder.AddTransition(source, transition.Item2, target); } return(builder.Build()); }
public static IAutomaton Minimize(this IAutomaton @this) { //prepare NFA automaton to a DFA automaton var automaton = @this.Determinize(); //mark all distinguishable pairs (unacceptable <-> acceptable) var stateCount = automaton.StateCount; var distinguishablePairs = new bool?[stateCount, stateCount]; foreach (var acceptable in automaton.AcceptingStates) { foreach (var unacceptable in Enumerable.Range(0, stateCount) .Except(automaton.AcceptingStates)) { distinguishablePairs[acceptable, unacceptable] = true; distinguishablePairs[unacceptable, acceptable] = true; } } //try to mark all others // Example (#=4) // 1 X // 2 X X // 3 X X X // 0 1 2 var mergedByState = new Dictionary <int, HashSet <int> >(); var merged = new HashSet <HashSet <int> >(); for (var aIndex = 1; aIndex < stateCount; aIndex++) { for (var bIndex = 0; bIndex < aIndex; bIndex++) { if (!MarkDistinguishables(distinguishablePairs, automaton, aIndex, bIndex)) { var list = mergedByState.GetValueOrInsertedDefault(aIndex, mergedByState.GetValueOrInsertedLazyDefault(bIndex, () => new HashSet <int>())); list.Add(aIndex); list.Add(bIndex); merged.Add(list); } } } var mappings = new Dictionary <int, int>(); //old automaton to new automaton states var inverseMappings = new Dictionary <int, int>(); //NOW BUILD THE F*****G AUTOMATON!!! var builder = new AutomatonBuilder(); foreach (var mergedStates in merged) { var newState = builder.AddState(); inverseMappings[newState] = mergedStates.First(); foreach (var oldState in mergedStates) { mappings[oldState] = newState; } } for (var state = 0; state < automaton.StateCount; state++) { if (!mappings.ContainsKey(state)) { var newState = builder.AddState(); mappings[state] = newState; inverseMappings[newState] = state; } } //mark starts and ends builder.SetStartState(mappings[automaton.StartState]); foreach (var accept in automaton.AcceptingStates) { builder.AcceptState(mappings[accept]); } //add transitions foreach (var kv in inverseMappings) { var oldState = kv.Value; var newState = kv.Key; foreach (var transition in automaton.TransitionsBySource.GetOrDefault(oldState, AutomatonExtensions.EmptyTargets)) { builder.AddTransition(newState, transition.Key, mappings[transition.First()]); } } //build return(builder.Build()); }