protected internal virtual TransducerGraph BuildMinimizedFA()
        {
            TransducerGraph minimizedFA   = new TransducerGraph();
            TransducerGraph unminimizedFA = GetUnminimizedFA();

            foreach (TransducerGraph.Arc arc in unminimizedFA.GetArcs())
            {
                ICollection <TransducerGraph.Arc> source = ProjectNode(arc.GetSourceNode());
                ICollection <TransducerGraph.Arc> target = ProjectNode(arc.GetTargetNode());
                try
                {
                    if (minimizedFA.CanAddArc(source, target, arc.GetInput(), arc.GetOutput()))
                    {
                        minimizedFA.AddArc(source, target, arc.GetInput(), arc.GetOutput());
                    }
                }
                catch (Exception)
                {
                }
            }
            //throw new IllegalArgumentException();
            minimizedFA.SetStartNode(ProjectNode(unminimizedFA.GetStartNode()));
            foreach (object o in unminimizedFA.GetEndNodes())
            {
                minimizedFA.SetEndNode(ProjectNode(o));
            }
            return(minimizedFA);
        }
            public virtual TransducerGraph ProcessGraph(TransducerGraph g)
            {
                g = new TransducerGraph(g);
                ISet nodes = g.GetNodes();

                foreach (object node in nodes)
                {
                    ICollection <TransducerGraph.Arc> myArcs = null;
                    if (forward)
                    {
                        myArcs = g.GetArcsBySource(node);
                    }
                    else
                    {
                        myArcs = g.GetArcsByTarget(node);
                    }
                    // compute a total
                    double total = 0.0;
                    foreach (TransducerGraph.Arc a in myArcs)
                    {
                        total += ((double)a.GetOutput());
                    }
                    // divide each by total
                    foreach (TransducerGraph.Arc a_1 in myArcs)
                    {
                        a_1.SetOutput(Math.Log(((double)a_1.GetOutput()) / total));
                    }
                }
                return(g);
            }
        // end static class ExactBlock
        public static void Main(string[] args)
        {
            TransducerGraph fa = new TransducerGraph();

            fa.AddArc(fa.GetStartNode(), "1", "a", string.Empty);
            fa.AddArc(fa.GetStartNode(), "2", "b", string.Empty);
            fa.AddArc(fa.GetStartNode(), "3", "c", string.Empty);
            fa.AddArc("1", "4", "a", string.Empty);
            fa.AddArc("2", "4", "a", string.Empty);
            fa.AddArc("3", "5", "c", string.Empty);
            fa.AddArc("4", "6", "c", string.Empty);
            fa.AddArc("5", "6", "c", string.Empty);
            fa.SetEndNode("6");
            System.Console.Out.WriteLine(fa);
            ExactAutomatonMinimizer minimizer = new ExactAutomatonMinimizer();

            System.Console.Out.WriteLine(minimizer.MinimizeFA(fa));
            System.Console.Out.WriteLine("Starting...");
            Timing.StartTime();
            TransducerGraph randomFA          = TransducerGraph.CreateRandomGraph(100, 10, 1.0, 10, new ArrayList());
            TransducerGraph minimizedRandomFA = minimizer.MinimizeFA(randomFA);

            System.Console.Out.WriteLine(randomFA);
            System.Console.Out.WriteLine(minimizedRandomFA);
            Timing.Tick("done. ( " + randomFA.GetArcs().Count + " arcs to " + minimizedRandomFA.GetArcs().Count + " arcs)");
        }
 public virtual TransducerGraph MinimizeFA(TransducerGraph unminimizedFA)
 {
     this.unminimizedFA = unminimizedFA;
     this.activePairs   = Generics.NewLinkedList();
     this.memberToBlock = Generics.NewHashMap();
     Minimize();
     return(BuildMinimizedFA());
 }
Esempio n. 5
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 public virtual TransducerGraph MinimizeFA(TransducerGraph unminimizedFA)
 {
     //    System.out.println(unminimizedFA);
     this.unminimizedFA = unminimizedFA;
     this.splits        = new ArrayList();
     this.memberToBlock = new Hashtable();
     //new IdentityHashMap(); // TEG: I had to change this b/c some weren't matching
     Minimize();
     return(BuildMinimizedFA());
 }
Esempio n. 6
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        public virtual TransducerGraph ProcessGraph(TransducerGraph graph)
        {
            // compute lambda function
            ClassicCounter lambda = ComputeLambda(graph);
            // not destructive
            // do the pushing
            TransducerGraph result = PushLambdas(graph, lambda);

            // creates a new one
            return(result);
        }
        public static TransducerGraph CreateGraphFromPaths <T>(ClassicCounter <IList <T> > pathCounter, int markovOrder)
        {
            TransducerGraph graph = new TransducerGraph();

            // empty
            foreach (IList <T> path in pathCounter.KeySet())
            {
                double count = pathCounter.GetCount(path);
                AddOnePathToGraph(path, count, markovOrder, graph);
            }
            return(graph);
        }
 public static bool TestGraphPaths(TransducerGraph sourceGraph, TransducerGraph testGraph, int numPaths)
 {
     for (int i = 0; i < numPaths; i++)
     {
         IList  path     = sourceGraph.SampleUniformPathFromGraph();
         double score    = sourceGraph.GetOutputOfPathInGraph(path);
         double newScore = testGraph.GetOutputOfPathInGraph(path);
         if ((score - newScore) / (score + newScore) > 1e-10)
         {
             System.Console.Out.WriteLine("Problem: " + score + " vs. " + newScore + " on " + path);
             return(false);
         }
     }
     return(true);
 }
Esempio n. 9
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        /// <summary>Takes time linear in number of arcs.</summary>
        public virtual TransducerGraph PushLambdas(TransducerGraph graph, ClassicCounter lambda)
        {
            TransducerGraph result = null;

            result = graph.Clone();
            // arcs have been copied too so we don't mess up graph
            ICollection <TransducerGraph.Arc> arcs = result.GetArcs();

            foreach (TransducerGraph.Arc arc in arcs)
            {
                double sourceLambda = lambda.GetCount(arc.GetSourceNode());
                double targetLambda = lambda.GetCount(arc.GetTargetNode());
                double oldOutput    = ((double)arc.GetOutput());
                double newOutput    = oldOutput + targetLambda - sourceLambda;
                arc.SetOutput(newOutput);
            }
            // do initialOutput
            double startLambda = lambda.GetCount(result.GetStartNode());

            if (startLambda != 0.0)
            {
                // add it back to the outbound arcs from start (instead of adding it to the initialOutput)
                ICollection <TransducerGraph.Arc> startArcs = result.GetArcsBySource(result.GetStartNode());
                foreach (TransducerGraph.Arc arc_1 in startArcs)
                {
                    double oldOutput = ((double)arc_1.GetOutput());
                    double newOutput = oldOutput + startLambda;
                    arc_1.SetOutput(newOutput);
                }
            }
            // do finalOutput
            foreach (object o in result.GetEndNodes())
            {
                double endLambda = lambda.GetCount(o);
                if (endLambda != 0.0)
                {
                    // subtract it from the inbound arcs to end (instead of subtracting it from the finalOutput)
                    ICollection <TransducerGraph.Arc> endArcs = result.GetArcsByTarget(o);
                    foreach (TransducerGraph.Arc arc_1 in endArcs)
                    {
                        double oldOutput = ((double)arc_1.GetOutput());
                        double newOutput = oldOutput - endLambda;
                        arc_1.SetOutput(newOutput);
                    }
                }
            }
            return(result);
        }
        /// <summary>For testing only.</summary>
        public static void Main(string[] args)
        {
            IList           pathList = new ArrayList();
            TransducerGraph graph    = CreateRandomGraph(1000, 10, 0.0, 10, pathList);

            System.Console.Out.WriteLine("Done creating random graph");
            PrintPathOutputs(pathList, graph, true);
            System.Console.Out.WriteLine("Depth first search from start node");
            StringBuilder b = new StringBuilder();

            graph.DepthFirstSearch(true, b);
            System.Console.Out.WriteLine(b.ToString());
            b = new StringBuilder();
            System.Console.Out.WriteLine("Depth first search back from end node");
            graph.DepthFirstSearch(false, b);
            System.Console.Out.WriteLine(b.ToString());
        }
Esempio n. 11
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        public static void Main(string[] args)
        {
            /*
             * TransducerGraph fa = new TransducerGraph();
             * fa.addArc(fa.getStartNode(),"1","a","");
             * fa.addArc(fa.getStartNode(),"2","b","");
             * fa.addArc(fa.getStartNode(),"3","c","");
             * fa.addArc("1","4","a","");
             * fa.addArc("2","4","a","");
             * fa.addArc("3","5","c","");
             * fa.addArc("4",fa.getEndNode(),"c","");
             * fa.addArc("5",fa.getEndNode(),"c","");
             * System.out.println(fa);
             * ExactAutomatonMinimizer minimizer = new ExactAutomatonMinimizer();
             * System.out.println(minimizer.minimizeFA(fa));
             */
            System.Console.Out.WriteLine("Starting minimizer test...");
            IList           pathList = new ArrayList();
            TransducerGraph randomFA = TransducerGraph.CreateRandomGraph(5000, 5, 1.0, 5, pathList);
            IList           outputs  = randomFA.GetPathOutputs(pathList);

            TransducerGraph.IGraphProcessor quasiDeterminizer = new QuasiDeterminizer();
            IAutomatonMinimizer             minimizer         = new FastExactAutomatonMinimizer();

            TransducerGraph.INodeProcessor ntsp = new TransducerGraph.SetToStringNodeProcessor(new PennTreebankLanguagePack());
            TransducerGraph.IArcProcessor  isp  = new TransducerGraph.InputSplittingProcessor();
            TransducerGraph.IArcProcessor  ocp  = new TransducerGraph.OutputCombiningProcessor();
            TransducerGraph detGraph            = quasiDeterminizer.ProcessGraph(randomFA);
            TransducerGraph combGraph           = new TransducerGraph(detGraph, ocp);
            // combine outputs into inputs
            TransducerGraph result = minimizer.MinimizeFA(combGraph);

            // minimize the thing
            System.Console.Out.WriteLine("Minimized from " + randomFA.GetNodes().Count + " to " + result.GetNodes().Count);
            result = new TransducerGraph(result, ntsp);
            // pull out strings from sets returned by minimizer
            result = new TransducerGraph(result, isp);
            // split outputs from inputs
            IList minOutputs = result.GetPathOutputs(pathList);

            System.Console.Out.WriteLine("Equal? " + outputs.Equals(minOutputs));
        }
Esempio n. 12
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        public static void Main(string[] args)
        {
            TransducerGraph.IGraphProcessor qd = new QuasiDeterminizer();
            IList           pathList           = new ArrayList();
            TransducerGraph graph = TransducerGraph.CreateRandomGraph(1000, 10, 1.0, 10, pathList);
            StringBuilder   b     = new StringBuilder();

            graph.DepthFirstSearch(true, b);
            System.Console.Out.WriteLine(b.ToString());
            System.Console.Out.WriteLine("Done creating random graph");
            //    TransducerGraph.printPathOutputs(pathList, graph, false);
            //System.out.println("Depth first search from start node");
            //TransducerGraph.depthFirstSearch(graph, TransducerGraph.END_NODE, new HashSet(), 0, false);
            TransducerGraph newGraph = qd.ProcessGraph(graph);

            System.Console.Out.WriteLine("Done quasi-determinizing");
            //TransducerGraph.printPathOutputs(pathList, newGraph, false);
            //System.out.println("Depth first search from start node");
            //TransducerGraph.depthFirstSearch(newGraph, TransducerGraph.END_NODE, new HashSet(), 0, false);
            TransducerGraph.TestGraphPaths(graph, newGraph, 1000);
        }
        /// <summary>For testing only.</summary>
        private static void PrintPathOutputs(IList <IList> pathList, TransducerGraph graph, bool printPaths)
        {
            int i = 0;

            foreach (IList path in pathList)
            {
                if (printPaths)
                {
                    foreach (object aPath in path)
                    {
                        System.Console.Out.Write(aPath + " ");
                    }
                }
                else
                {
                    System.Console.Out.Write(i++ + " ");
                }
                System.Console.Out.Write("output: " + graph.GetOutputOfPathInGraph(path));
                System.Console.Out.WriteLine();
            }
        }
Esempio n. 14
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        /// <summary>Takes time linear in number of arcs.</summary>
        public static ClassicCounter ComputeLambda(TransducerGraph graph)
        {
            ArrayList      queue  = new ArrayList();
            ClassicCounter lambda = new ClassicCounter();
            ClassicCounter length = new ClassicCounter();
            IDictionary    first  = new Hashtable();
            ISet           nodes  = graph.GetNodes();

            foreach (object node in nodes)
            {
                lambda.SetCount(node, 0);
                length.SetCount(node, double.PositiveInfinity);
            }
            ISet endNodes = graph.GetEndNodes();

            foreach (object o in endNodes)
            {
                lambda.SetCount(o, 0);
                length.SetCount(o, 0);
                queue.AddLast(o);
            }
            // Breadth first search
            // get the first node from the queue
            object node_1 = null;

            try
            {
                node_1 = queue.RemoveFirst();
            }
            catch (NoSuchElementException)
            {
            }
            while (node_1 != null)
            {
                double oldLen = length.GetCount(node_1);
                ISet   arcs   = graph.GetArcsByTarget(node_1);
                if (arcs != null)
                {
                    foreach (object arc1 in arcs)
                    {
                        TransducerGraph.Arc arc = (TransducerGraph.Arc)arc1;
                        object      newNode     = arc.GetSourceNode();
                        IComparable a           = (IComparable)arc.GetInput();
                        double      k           = ((double)arc.GetOutput());
                        double      newLen      = length.GetCount(newNode);
                        if (newLen == double.PositiveInfinity)
                        {
                            // we are discovering this
                            queue.AddLast(newNode);
                        }
                        IComparable f = (IComparable)first[newNode];
                        if (newLen == double.PositiveInfinity || (newLen == oldLen + 1 && a.CompareTo(f) < 0))
                        {
                            // f can't be null, since we have a newLen
                            // we do this to this to newNode when we have new info, possibly many times
                            first[newNode] = a;
                            // ejecting old one if necessary
                            length.SetCount(newNode, oldLen + 1);
                            // this may already be the case
                            lambda.SetCount(newNode, k + lambda.GetCount(node_1));
                        }
                    }
                }
                // get a new node from the queue
                node_1 = null;
                try
                {
                    node_1 = queue.RemoveFirst();
                }
                catch (NoSuchElementException)
                {
                }
            }
            return(lambda);
        }
        // assumes that the path already has EPSILON as the last element.
        public static void AddOnePathToGraph(IList path, double count, int markovOrder, TransducerGraph graph)
        {
            object source = graph.GetStartNode();

            for (int j = 0; j < path.Count; j++)
            {
                object input          = path[j];
                TransducerGraph.Arc a = graph.GetArcBySourceAndInput(source, input);
                if (a != null)
                {
                    // increment the arc weight
                    a.output = ((double)a.output) + count;
                }
                else
                {
                    object target;
                    if (input.Equals(TransducerGraph.EpsilonInput))
                    {
                        target = "END";
                    }
                    else
                    {
                        // to ensure they all share the same end node
                        if (markovOrder == 0)
                        {
                            // we all transition back to the same state
                            target = source;
                        }
                        else
                        {
                            if (markovOrder > 0)
                            {
                                // the state is described by the partial history
                                target = path.SubList((j < markovOrder ? 0 : j - markovOrder + 1), j + 1);
                            }
                            else
                            {
                                // the state is described by the full history
                                target = path.SubList(0, j + 1);
                            }
                        }
                    }
                    double output = count;
                    a = new TransducerGraph.Arc(source, target, input, output);
                    graph.AddArc(a);
                }
                source = a.GetTargetNode();
            }
            graph.SetEndNode(source);
        }