/// <summary>
        /// Reads events from <tt>eventReader</tt> into a List&lt;TrainingEvent&gt;.  The
        /// predicates associated with each event are counted and any which
        /// occur at least <tt>cutoff</tt> times are added to the
        /// <tt>predicatesInOut</tt> dictionary along with a unique integer index.
        /// </summary>
        /// <param name="eventReader">
        /// an <code>ITrainingEventReader</code> value
        /// </param>
        /// <param name="predicatesInOut">
        /// a <code>Dictionary</code> value
        /// </param>
        /// <param name="cutoff">
        /// an <code>int</code> value
        /// </param>
        /// <returns>
        /// an <code>List of TrainingEvents</code> value
        /// </returns>
        private List <TrainingEvent> ComputeEventCounts(ITrainingEventReader eventReader, Dictionary <string, int> predicatesInOut, int cutoff)
        {
            var counter        = new Dictionary <string, int>();
            var events         = new List <TrainingEvent>();
            int predicateIndex = 0;

            while (eventReader.HasNext())
            {
                TrainingEvent trainingEvent = eventReader.ReadNextEvent();
                events.Add(trainingEvent);
                string[] eventContext = trainingEvent.Context;
                for (int currentEventContext = 0; currentEventContext < eventContext.Length; currentEventContext++)
                {
                    if (!predicatesInOut.ContainsKey(eventContext[currentEventContext]))
                    {
                        if (counter.ContainsKey(eventContext[currentEventContext]))
                        {
                            counter[eventContext[currentEventContext]]++;
                        }
                        else
                        {
                            counter.Add(eventContext[currentEventContext], 1);
                        }
                        if (counter[eventContext[currentEventContext]] >= cutoff)
                        {
                            predicatesInOut.Add(eventContext[currentEventContext], predicateIndex++);
                            counter.Remove(eventContext[currentEventContext]);
                        }
                    }
                }
            }
            return(events);
        }
 /// <summary>
 /// Test whether there are any Events remaining in this EventReader.
 /// </summary>
 /// <returns>
 /// true if this EventReader has more Events
 /// </returns>
 public virtual bool HasNext()
 {
     while (mNextEvent == null && mDataReader.HasNext())
     {
         mNextEvent = CreateEvent(mDataReader.NextToken());
     }
     return(mNextEvent != null);
 }
        private List <ComparableEvent> Index(List <TrainingEvent> events, Dictionary <string, int> predicateIndex)
        {
            var map = new Dictionary <string, int>();

            int eventCount   = events.Count;
            int outcomeCount = 0;

            var eventsToCompare = new List <ComparableEvent>(eventCount);
            var indexedContext  = new List <int>();

            for (int eventIndex = 0; eventIndex < eventCount; eventIndex++)
            {
                TrainingEvent   currentTrainingEvent = events[eventIndex];
                string[]        eventContext         = currentTrainingEvent.Context;
                ComparableEvent comparableEvent;

                int outcomeIndex;

                string outcome = currentTrainingEvent.Outcome;

                if (map.ContainsKey(outcome))
                {
                    outcomeIndex = map[outcome];
                }
                else
                {
                    outcomeIndex = outcomeCount++;
                    map.Add(outcome, outcomeIndex);
                }

                for (int currentEventContext = 0; currentEventContext < eventContext.Length; currentEventContext++)
                {
                    string predicate = eventContext[currentEventContext];
                    if (predicateIndex.ContainsKey(predicate))
                    {
                        indexedContext.Add(predicateIndex[predicate]);
                    }
                }

                // drop events with no active features
                if (indexedContext.Count > 0)
                {
                    comparableEvent = new ComparableEvent(outcomeIndex, indexedContext.ToArray());
                    eventsToCompare.Add(comparableEvent);
                }
                else
                {
                    //"Dropped event " + oEvent.Outcome + ":" + oEvent.Context);
                }
                // recycle the list
                indexedContext.Clear();
            }
            SetOutcomeLabels(ToIndexedStringArray(map));
            SetPredicateLabels(ToIndexedStringArray(predicateIndex));
            return(eventsToCompare);
        }
        /// <summary>
        /// Constructor sets up the training event reader based on a stream of training data.
        /// </summary>
        /// <param name="dataReader">
        /// Stream of training data.
        /// </param>
        public BasicEventReader(ITrainingDataReader <string> dataReader)
        {
            mContext = new BasicContextGenerator();

            mDataReader = dataReader;
            if (mDataReader.HasNext())
            {
                mNextEvent = CreateEvent(mDataReader.NextToken());
            }
        }
Exemple #5
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        private List <ComparableEvent> Index(int eventCount, ITrainingEventReader eventReader, Dictionary <string, int> predicateIndex)
        {
            var outcomeMap      = new Dictionary <string, int>();
            int outcomeCount    = 0;
            var eventsToCompare = new List <ComparableEvent>(eventCount);
            var indexedContext  = new List <int>();

            while (eventReader.HasNext())
            {
                TrainingEvent   currentTrainingEvent = eventReader.ReadNextEvent();
                string[]        eventContext         = currentTrainingEvent.Context;
                ComparableEvent comparableEvent;

                int    outcomeId;
                string outcome = currentTrainingEvent.Outcome;

                if (outcomeMap.ContainsKey(outcome))
                {
                    outcomeId = outcomeMap[outcome];
                }
                else
                {
                    outcomeId = outcomeCount++;
                    outcomeMap.Add(outcome, outcomeId);
                }

                for (int currentPredicate = 0; currentPredicate < eventContext.Length; currentPredicate++)
                {
                    string predicate = eventContext[currentPredicate];
                    if (predicateIndex.ContainsKey(predicate))
                    {
                        indexedContext.Add(predicateIndex[predicate]);
                    }
                }

                // drop events with no active features
                if (indexedContext.Count > 0)
                {
                    comparableEvent = new ComparableEvent(outcomeId, indexedContext.ToArray());
                    eventsToCompare.Add(comparableEvent);
                }
                else
                {
                    //"Dropped event " + currentTrainingEvent.Outcome + ":" + currentTrainingEvent.Context);
                }
                // recycle the list
                indexedContext.Clear();
            }
            SetOutcomeLabels(ToIndexedStringArray(outcomeMap));
            SetPredicateLabels(ToIndexedStringArray(predicateIndex));
            return(eventsToCompare);
        }
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        public static string ToLine(TrainingEvent eventToConvert)
        {
            var lineBuilder = new StringBuilder();

            lineBuilder.Append(eventToConvert.Outcome);
            string[] context = eventToConvert.Context;
            for (int contextIndex = 0, contextLength = context.Length; contextIndex < contextLength; contextIndex++)
            {
                lineBuilder.Append(" " + context[contextIndex]);
            }
            lineBuilder.Append(System.Environment.NewLine);
            return(lineBuilder.ToString());
        }
        /// <summary>
        /// Returns the next Event object held in this EventReader.  Each call to ReadNextEvent advances the EventReader.
        /// </summary>
        /// <returns>
        /// the Event object which is next in this EventReader
        /// </returns>
        public virtual TrainingEvent ReadNextEvent()
        {
            while (mNextEvent == null && mDataReader.HasNext())
            {
                mNextEvent = CreateEvent(mDataReader.NextToken());
            }

            TrainingEvent currentEvent = mNextEvent;

            if (mDataReader.HasNext())
            {
                mNextEvent = CreateEvent(mDataReader.NextToken());
            }
            else
            {
                mNextEvent = null;
            }
            return(currentEvent);
        }
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        /// <summary>
        /// Reads events from <tt>eventStream</tt> into a dictionary.  The
        /// predicates associated with each event are counted and any which
        /// occur at least <tt>cutoff</tt> times are added to the
        /// <tt>predicatesInOut</tt> map along with a unique integer index.
        /// </summary>
        /// <param name="eventReader">
        /// an <code>ITrainingEventReader</code> value
        /// </param>
        /// <param name="eventStoreFile">
        /// a file name to which the events are written to for later processing.
        /// </param>
        /// <param name="predicatesInOut">
        /// a <code>Dictionary</code> value
        /// </param>
        /// <param name="cutoff">
        /// an <code>int</code> value
        /// </param>
        private int ComputeEventCounts(ITrainingEventReader eventReader, string eventStoreFile, Dictionary <string, int> predicatesInOut, int cutoff)
        {
            var counter        = new Dictionary <string, int>();
            int predicateIndex = 0;
            int eventCount     = 0;

            using (var eventStoreWriter = new StreamWriter(eventStoreFile))
            {
                while (eventReader.HasNext())
                {
                    TrainingEvent currentTrainingEvent = eventReader.ReadNextEvent();
                    eventCount++;
                    eventStoreWriter.Write(FileEventReader.ToLine(currentTrainingEvent));
                    string[] eventContext = currentTrainingEvent.Context;
                    for (int currentPredicate = 0; currentPredicate < eventContext.Length; currentPredicate++)
                    {
                        if (!predicatesInOut.ContainsKey(eventContext[currentPredicate]))
                        {
                            if (counter.ContainsKey(eventContext[currentPredicate]))
                            {
                                counter[eventContext[currentPredicate]]++;
                            }
                            else
                            {
                                counter.Add(eventContext[currentPredicate], 1);
                            }
                            if (counter[eventContext[currentPredicate]] >= cutoff)
                            {
                                predicatesInOut.Add(eventContext[currentPredicate], predicateIndex++);
                                counter.Remove(eventContext[currentPredicate]);
                            }
                        }
                    }
                }
            }
            return(eventCount);
        }