public void Process(MetaMessage message)
        {
            #region Require

            if (message == null)
            {
                throw new ArgumentNullException("message");
            }

            #endregion

            #region Guard

            if (message.MetaType != MetaType.Tempo)
            {
                return;
            }

            #endregion

            TempoChangeBuilder builder = new TempoChangeBuilder(message);

            // Set the new tempo.
            Tempo = builder.Tempo;
        }
Beispiel #2
0
        private void Write(int deltaTicks, MetaMessage message)
        {
            if (message.MetaType == MetaType.Tempo)
            {
                // Delta time.
                events.AddRange(BitConverter.GetBytes(deltaTicks + offsetTicks));

                // Stream ID.
                events.AddRange(streamID);

                TempoChangeBuilder builder = new TempoChangeBuilder(message);

                byte[] t = BitConverter.GetBytes(builder.Tempo);

                t[t.Length - 1] = MEVT_SHORTMSG | MEVT_TEMPO;

                // Event code.
                events.AddRange(t);

                offsetTicks = 0;
            }
            else
            {
                offsetTicks += deltaTicks;
            }
        }
        public void Process(MetaMessage message)
        {
            #region Require

            if (message == null)
            {
                throw new ArgumentNullException("message");
            }

            #endregion

            #region Guard

            if (message.MetaType != MetaType.Tempo)
            {
                if (message.MetaType == MetaType.TimeSignature)
                {
                    var ts = new TimeSignatureBuilder(message);
                    this.ClocksPerMetronomeClick = ts.ClocksPerMetronomeClick;
                }
                return;
            }

            #endregion

            TempoChangeBuilder builder = new TempoChangeBuilder(message);

            // Set the new tempo.
            Tempo = builder.Tempo;
        }
Beispiel #4
0
        private void GetTempoDurations()
        {
            tempoDurations.Clear();
            clock.Ppqn  = sequence.Division;
            clock.Tempo = 500000;
            rawDuration = 0;

            bool          tempoTrackFound = false;
            TempoDuration tempoDuration   = new TempoDuration();

            foreach (Track t in Sequence)
            {
                IEnumerator <MidiEvent> midiEnumerator = t.Iterator().GetEnumerator();
                while (midiEnumerator.MoveNext())
                {
                    MidiEvent e = midiEnumerator.Current;
                    if (e.MidiMessage.MessageType == MessageType.Meta)
                    {
                        var meta = (MetaMessage)e.MidiMessage;
                        if (meta.MetaType == MetaType.Tempo)
                        {
                            tempoTrackFound = true;
                            TempoChangeBuilder builder = new TempoChangeBuilder(meta);
                            int newTempo = builder.Tempo;
                            if (tempoDuration.Tempo != 0)
                            {
                                tempoDuration.Length = e.AbsoluteTicks - tempoDuration.Start;
                                rawDuration         += (long)tempoDuration.Tempo * (long)tempoDuration.Length;
                                tempoDurations.Add(tempoDuration);
                                tempoDuration = new TempoDuration();
                            }
                            tempoDuration.Tempo = newTempo;
                            tempoDuration.Start = e.AbsoluteTicks;
                        }
                    }
                }

                if (tempoTrackFound)
                {
                    break;
                }
            }

            if (tempoDuration.Tempo == 0)
            {
                tempoDuration.Tempo = clock.Tempo;
            }
            tempoDuration.Length = sequence.GetLength() - tempoDuration.Start;
            rawDuration         += (long)tempoDuration.Tempo * (long)tempoDuration.Length;
            tempoDurations.Add(tempoDuration);

            // Assign the duration for quick use.
            double oldSpeed = Speed;

            Speed    = 1.0;
            duration = TicksToMilliseconds(sequence.GetLength());
            Speed    = oldSpeed;
        }
Beispiel #5
0
        // ZUZU
        /// <summary>
        /// Change tempo
        /// </summary>
        /// <param name="tempo"></param>
        public void changeTempo(int tempo)
        {
            //resumeOriginalclock();

            TempoChangeBuilder tc = new TempoChangeBuilder();

            tc.Tempo = tempo;
            tc.Build();
            clock.Process(tc.Result);
        }
Beispiel #6
0
 private static IMidiMessage Convert(Event e, Track track)
 {
     if (e is NoteEvent)
     {
         NoteEvent note = (NoteEvent)e;
         if (note.Type == NoteEvent.EventType.NoteOff)
         {
             ChannelMessageBuilder b = new ChannelMessageBuilder();
             b.MidiChannel = note.Channel;
             b.Command = ChannelCommand.NoteOff;
             b.Data1 = ChannelNoteToMidiPitch(note.Pitch);
             b.Data2 = ChannelVelocityToMidiVolume(note.Velocity);
             b.Build();
             return b.Result;
         }
         else
         {
             ChannelMessageBuilder b = new ChannelMessageBuilder();
             b.MidiChannel = note.Channel;
             b.Command = ChannelCommand.NoteOn;
             b.Data1 = ChannelNoteToMidiPitch(note.Pitch);
             b.Data2 = ChannelVelocityToMidiVolume(note.Velocity);
             b.Build();
             return b.Result;
         }
     }
     else if (e is TempoEvent)
     {
         TempoEvent tempoEvent = (TempoEvent)e;
         TempoChangeBuilder builder = new TempoChangeBuilder();
         // convert BPM to microseconds
         builder.Tempo = 60000000 / tempoEvent.TempoBpm;
         builder.Build();
         return builder.Result;
     }
     else if (e is TimeSignatureEvent)
     {
         TimeSignatureEvent timeSignatureEvent = (TimeSignatureEvent)e;
         TimeSignatureBuilder builder = new TimeSignatureBuilder();
         builder.Numerator = (byte)timeSignatureEvent.BeatsPerBar;
         builder.Denominator = (byte)timeSignatureEvent.BeatValue;
         builder.ClocksPerMetronomeClick = 24;
         builder.ThirtySecondNotesPerQuarterNote = 8;
         builder.Build();
         return builder.Result;
     }
     else
     {
         Debug.Fail("unknown event type " + e.GetType().Name);
         return null;
     }
 }
 public GuitarTempo(GuitarMessageList owner, MidiEvent ev)
     : base(owner, ev, null, GuitarMessageType.GuitarTempo)
 {
     if (ev == null)
     {
         this.Tempo = Utility.DummyTempo;
     }
     else
     {
         var cb = new TempoChangeBuilder((MetaMessage)ev.Clone());
         this.Tempo = cb.Tempo;
     }
 }
Beispiel #8
0
        public void changeTempoByPercent(int percent)
        {
            TempoChangeBuilder tc = new TempoChangeBuilder();

            tc.Tempo = (getTempo() * percent) / 100;
            tc.Build();

            bool wasPlaying;

            lock (lockObject)
            {
                wasPlaying = playing;
                Stop();
                clock.Process(tc.Result);
            }

            lock (lockObject)
            {
                if (wasPlaying)
                {
                    Continue();
                }
            }
        }
Beispiel #9
0
    public static NotationTrack parseMidiTrack(Midi.Track track, int division, ref Regex fingerPattern)
    {
        int microsecondsPerBeat = Midi.PpqnClock.DefaultTempo;

        float time = 0;

        TrackStatus    trackStatus = new TrackStatus();
        FingerChordMap fingerMap   = new FingerChordMap();

        List <Note> notes = new List <Note>();

        Regex fingerMetaPattern = new Regex("fingering-marker-pattern:(.*)");

        string name = "";

        foreach (Midi.MidiEvent e in track.Iterator())
        {
            time += e.DeltaTicks * microsecondsPerBeat / (division * 1000);

            switch (e.MidiMessage.MessageType)
            {
            case Midi.MessageType.Meta:
                Midi.MetaMessage mm = e.MidiMessage as Midi.MetaMessage;
                switch (mm.MetaType)
                {
                case Midi.MetaType.Tempo:
                    Midi.TempoChangeBuilder builder = new Midi.TempoChangeBuilder(mm);
                    microsecondsPerBeat = builder.Tempo;

                    break;

                case Midi.MetaType.Text:
                {
                    string text  = Encoding.Default.GetString(mm.GetBytes());
                    var    match = fingerMetaPattern.Match(text);
                    if (match.Success)
                    {
                        fingerPattern = new Regex(match.Groups[1].ToString());
                        Debug.LogFormat("Finger Pattern found: {0}", fingerPattern.ToString());
                    }
                }

                break;

                case Midi.MetaType.Marker:
                    if (fingerPattern != null)
                    {
                        string text  = Encoding.Default.GetString(mm.GetBytes());
                        var    match = fingerPattern.Match(text);
                        if (match.Success)
                        {
                            //Debug.LogFormat("Finger: {0}", text);
                            try
                            {
                                int    pitch  = int.Parse(match.Groups[1].ToString());
                                Finger finger = (Finger)int.Parse(match.Groups[2].ToString());

                                if (!fingerMap.ContainsKey(e.AbsoluteTicks))
                                {
                                    fingerMap[e.AbsoluteTicks] = new FingerChord();
                                }

                                fingerMap[e.AbsoluteTicks][pitch] = finger;
                            }
                            catch (System.Exception except)
                            {
                                Debug.LogWarningFormat("fingering marker parse failed: {0}, {1}", text, except.Message);
                            }
                        }
                        //else
                        //	Debug.LogWarningFormat("fail marker: {0}", text);
                    }

                    break;

                case Midi.MetaType.TrackName:
                    name = Encoding.Default.GetString(mm.GetBytes());

                    break;
                }

                break;

            case Midi.MessageType.Channel:
                Midi.ChannelMessage cm = e.MidiMessage as Midi.ChannelMessage;

                if (!trackStatus.ContainsKey(cm.MidiChannel))
                {
                    trackStatus[cm.MidiChannel] = new ChannelStatus();
                }

                var commandType = cm.Command;
                if (commandType == Midi.ChannelCommand.NoteOn && cm.Data2 == 0)
                {
                    commandType = Midi.ChannelCommand.NoteOff;
                }

                switch (commandType)
                {
                case Midi.ChannelCommand.NoteOn:
                {
                    int pitch    = cm.Data1;
                    int velocity = cm.Data2;

                    if (pitch >= Piano.PitchMin && pitch <= Piano.PitchMax)
                    {
                        trackStatus[cm.MidiChannel][pitch] = new PitchStatus {
                            tick = e.AbsoluteTicks, startTime = time, velocity = velocity
                        }
                    }
                    ;
                }

                break;

                case Midi.ChannelCommand.NoteOff:
                {
                    int pitch = cm.Data1;

                    if (!trackStatus[cm.MidiChannel].ContainsKey(pitch))
                    {
                        Debug.LogWarningFormat("Unexpected noteOff: {0}, {1}", e.AbsoluteTicks, pitch);
                    }
                    else
                    {
                        PitchStatus status = trackStatus[cm.MidiChannel][pitch];

                        Note note = new Note {
                            tick = status.tick, start = status.startTime, duration = time - status.startTime, pitch = pitch, velocity = status.velocity
                        };

                        if (fingerMap.ContainsKey(note.tick) && fingerMap[note.tick].ContainsKey(note.pitch))
                        {
                            note.finger = fingerMap[note.tick][note.pitch];
                        }

                        notes.Add(note);
                    }
                }

                break;
                }

                break;
            }
        }

        NotationTrack notation = new NotationTrack();

        notation.notes = notes.ToArray();
        notation.name  = name;

        return(notation);
    }
Beispiel #10
0
        private void Write(int deltaTicks, MetaMessage message)
        {
            if(message.MetaType == MetaType.Tempo)
            {
                // Delta time.
                events.AddRange(BitConverter.GetBytes(deltaTicks + offsetTicks));

                // Stream ID.
                events.AddRange(streamID);

                TempoChangeBuilder builder = new TempoChangeBuilder(message);

                byte[] t = BitConverter.GetBytes(builder.Tempo);

                t[t.Length - 1] = MEVT_SHORTMSG | MEVT_TEMPO;

                // Event code.
                events.AddRange(t);

                offsetTicks = 0;
            }
            else
            {
                offsetTicks += deltaTicks;
            }
        }
Beispiel #11
0
        /// <summary>
        /// Creates a notechart from the specified midi path and the actual charttype
        /// (i.e. ExpertSingle from notes.mid).  Due to the overhead necessary to
        /// parse a midi file.  I am going to cram all midi->chart operations into
        /// one function call.
        /// This function uses the Sanford midi parser.  While it is horribly slow
        /// on larger (e.g. RB) midis, it works without a hitch on every midi I've
        /// come across.
        /// </summary>
        /// <param name="chartSelection">
        /// The information on which particular notechart to use.
        /// </param>
        /// <param name="chartInfo">The metadata on the chart.</param>
        /// <param name="BPMChanges">The list of BPM changes for this chart.</param>
        /// <returns>
        /// A filled out Notechart containing the needed information from the *.mid file.
        /// </returns>
        public static Notes ParseMidiInformationSanford(ChartSelection chartSelection,
            Info chartInfo,
            List<BPMChange> BPMChanges)
        {
            Notes notechartToReturn = new Notes();
            notechartToReturn.instrument = chartSelection.instrument;
            notechartToReturn.difficulty = chartSelection.difficulty;

            // The following two switch's are used to get the proper midi terminology for
            // the selected track and difficulty.
            string instrumentPart = null;
            int greenKey = 0;
            int redKey = 0;
            int yellowKey = 0;
            int blueKey = 0;
            int orangeKey = 0;

            switch (chartSelection.instrument)
            {
                case "Single":
                    instrumentPart = "PART GUITAR";
                    break;
                case "DoubleGuitar":
                    instrumentPart = "PART GUITAR COOP";
                    break;
                case "DoubleBass":
                    instrumentPart = "PART BASS";
                    break;
                case "Drums":
                    instrumentPart = "PART DRUMS";
                    break;
                default:
                    instrumentPart = "PART GUITAR";
                    break;
            }

            switch (chartSelection.difficulty)
            {
                case "Expert":
                    greenKey = 96;
                    redKey = 97;
                    yellowKey = 98;
                    blueKey = 99;
                    orangeKey = 100;
                    break;
                case "Hard":
                    greenKey = 84;
                    redKey = 85;
                    yellowKey = 86;
                    blueKey = 87;
                    orangeKey = 88;
                    break;
                case "Medium":
                    greenKey = 72;
                    redKey = 73;
                    yellowKey = 74;
                    blueKey = 75;
                    orangeKey = 76;
                    break;
                case "Easy":
                    greenKey = 60;
                    redKey = 61;
                    yellowKey = 62;
                    blueKey = 63;
                    orangeKey = 64;
                    break;
                default:
                    greenKey = 96;
                    redKey = 97;
                    yellowKey = 98;
                    blueKey = 99;
                    orangeKey = 100;
                    break;
            }

            Sequence mySequence = new Sequence(chartSelection.directory + "\\notes.mid");
            Track trackToUse = new Track();
            chartInfo.resolution = mySequence.Division;

            // Go through each event in the first track (which contains the BPM changes)
            // and parse the resulting string.
            Track sanTrack = mySequence[0];
            foreach (Sanford.Multimedia.Midi.MidiEvent currEvent in sanTrack.Iterator())
            {
                if (currEvent.MidiMessage.MessageType == MessageType.Meta)
                {
                    MetaMessage currMessage = currEvent.MidiMessage as MetaMessage;
                    //currTickValue += Convert.ToUInt32(splitEventString[1]);
                    if (currMessage.MetaType == MetaType.Tempo)
                    {
                        TempoChangeBuilder tempoBuilder = new TempoChangeBuilder(currMessage);
                        int midiBPMChange = tempoBuilder.Tempo;
                        // In midi files, bpm chages are stored as "microseconds per quarter note"
                        // and must be converted to BPM, and then into the non decimal format the game
                        // uses.
                        double currBPMDouble = 60000000 / (double)midiBPMChange;
                        uint BPMToAdd = (uint)(currBPMDouble * 1000);
                        BPMChanges.Add(new BPMChange((uint)currEvent.AbsoluteTicks, (uint)BPMToAdd));
                    }
                }
            }

            // Find the specified instrument's track
            for (int i = 1; i < mySequence.Count; i++)
            {
                sanTrack = mySequence[i];
                Sanford.Multimedia.Midi.MidiEvent currEvent = sanTrack.GetMidiEvent(0);
                if (currEvent.MidiMessage.MessageType == MessageType.Meta)
                {
                    MetaMessage currMessage = currEvent.MidiMessage as MetaMessage;
                    if (currMessage.MetaType == MetaType.TrackName)
                    {
                        MetaTextBuilder trackName = new MetaTextBuilder(currMessage);

                        // -If we come across a "T1 GEMS" track, we're in GH1 territory.
                        // -GH2/FoF has both PART BASS and PART RHYTHM (one or the other depending
                        //  on the chart).
                        if ((trackName.Text == instrumentPart) || (trackName.Text == "T1 GEMS") ||
                            ((trackName.Text == "PART RHYTHM") && (instrumentPart == "PART BASS")))
                        {
                            trackToUse = sanTrack;
                        }
                    }
                }
            }

            Note currNote = new Note();
            bool blankNote = true;
            // Scan through and record every note specific to the selected difficulty
            foreach (Sanford.Multimedia.Midi.MidiEvent currEvent in trackToUse.Iterator())
            {
                // We need to specify wether a note is blank or not so we don't add
                // blank notes from other difficulties into the chart, but if we have
                // a filled out note, any nonzero tick value means we are moving to a
                // new note, so we must cut our ties and add this note to the chart.
                if ((currEvent.DeltaTicks != 0) && !blankNote)
                {
                    notechartToReturn.notes.Add(currNote);
                    currNote = new Note();
                    blankNote = true;
                }

                if (currEvent.MidiMessage.MessageType == MessageType.Channel)
                {
                    ChannelMessage currMessage = currEvent.MidiMessage as ChannelMessage;
                    if (currMessage.Command == ChannelCommand.NoteOn)
                    {
                        // Only consider notes within the octave our difficulty is in.
                        if (((currMessage.Data1 == greenKey) || (currMessage.Data1 == redKey) ||
                            (currMessage.Data1 == yellowKey) || (currMessage.Data1 == blueKey) ||
                            (currMessage.Data1 == orangeKey)) && (currMessage.Data2 != 0))
                        {
                            // If it's a new note, we need to setup the tick value of it.
                            if (blankNote)
                            {
                                //currNote.TickValue = totalTickValue;
                                currNote.tickValue = (uint)currEvent.AbsoluteTicks;
                                blankNote = false;
                            }
                            if (currMessage.Data1 == greenKey) { currNote.addNote(0); }
                            else if (currMessage.Data1 == redKey) { currNote.addNote(1); }
                            else if (currMessage.Data1 == yellowKey) { currNote.addNote(2); }
                            else if (currMessage.Data1 == blueKey) { currNote.addNote(3); }
                            else if (currMessage.Data1 == orangeKey) { currNote.addNote(4); }
                        }
                    }

                }
            }

            return notechartToReturn;
        }
 public MetaMessage BuildMessage()
 {
     var b = new TempoChangeBuilder();
     b.Tempo = (int)Tempo;
     b.Build();
     return b.Result;
 }
        public void Process(MetaMessage message)
        {
            #region Require

            if(message == null)
            {
                throw new ArgumentNullException("message");
            }

            #endregion

            #region Guard

            if(message.MetaType != MetaType.Tempo)
            {
                return;
            }

            #endregion

            TempoChangeBuilder builder = new TempoChangeBuilder(message);

            // Set the new tempo.
            Tempo = builder.Tempo;
        }
        public void Process(MetaMessage message)
        {
            #region Require

            if (message == null)
            {
                throw new ArgumentNullException("message");
            }

            #endregion

            #region Guard

            if (message.MetaType != MetaType.Tempo)
            {
                if (message.MetaType == MetaType.TimeSignature)
                {
                    var ts = new TimeSignatureBuilder(message);
                    this.ClocksPerMetronomeClick = ts.ClocksPerMetronomeClick;
                }
                return;
            }

            #endregion

            TempoChangeBuilder builder = new TempoChangeBuilder(message);

            // Set the new tempo.
            Tempo = builder.Tempo;
        }
Beispiel #15
0
        static void Main(string[] args)
        {
            bool outputMidiVelocity = false;

            //var filename = "01-v-drac.s3m";
            //S3MFile f = S3MFile.Parse(filename);
            //var tempo = 60000000 / (f.Header.InitialTempo);
            //byte numerator = 4;
            //byte denominator = 4;
            //var speed = 3;
            //var skip = 0;

            var filename = "02-v-bewm.s3m";
            S3MFile f = S3MFile.Parse(filename);
            var tempo = 60000000 / (f.Header.InitialTempo);
            byte numerator = 4;
            byte denominator = 4;
            var speed = 3;
            var skip = 0;
            outputMidiVelocity = true;

            /*
            var filename = "V-OPTION.S3M";
            S3MFile f = S3MFile.Parse(filename);
            var tempo = 60000000 / (f.Header.InitialTempo);
            byte numerator = 6;
            byte denominator = 8;
            var speed = 3;
            var skip = 4;
              */
            /*
            var filename = "V-FALCON.S3M";
            S3MFile f = S3MFile.Parse(filename);
            var tempo = 60000000 / (1 * f.Header.InitialTempo);
            byte numerator = 4;
            byte denominator = 4;
            var speed = 3;
            var skip = 0;
            */
            /*
            var filename = "V-CONTRA.IT";
            S3MFile f = S3MFile.Parse(filename);
            var tempo = 60000000 / (1 * f.Header.InitialTempo);
            byte numerator = 4;
            byte denominator = 4;
            var speed = 3;
            var skip = 0;
             * */

            /*
            var filename = "V-BLAST.S3M";
            S3MFile f = S3MFile.Parse(filename);
            var tempo = 60000000 / (1 * f.Header.InitialTempo);
            byte numerator = 4;
            byte denominator = 4;
            var speed = 3;
            var skip = 0;*/

            Sequence s = new Sequence();
            Track t1 = new Track();
            Track t2 = new Track();
            Track t3 = new Track();
            Track drums = new Track();
            Track kick = new Track();
            Track timeTrack = new Track();
            s.Add(timeTrack);
            s.Add(t1);
            s.Add(t2);
            s.Add(t3);
            //s.Add(drums);
            //s.Add(kick);

            var drumPC = new ChannelMessageBuilder();
            drumPC.MidiChannel = 09;
            drumPC.Command = ChannelCommand.ProgramChange;
            drumPC.Data1 = 0;// 79 + ce.Instrument;
            drumPC.Build();
            drums.Insert(0, drumPC.Result);

            kick.Insert(0, drumPC.Result);

            TimeSignatureBuilder tsb = new TimeSignatureBuilder();
            tsb.Numerator = numerator;
            tsb.Denominator = denominator;
            tsb.ClocksPerMetronomeClick = 24;
            tsb.ThirtySecondNotesPerQuarterNote = 8;

            tsb.Build();

            timeTrack.Insert(0, tsb.Result);

            TempoChangeBuilder tcb = new TempoChangeBuilder();
            tcb.Tempo = tempo;
            tcb.Build();

            timeTrack.Insert(0, tcb.Result);

            var outputPatterns = new int[] { 5, 6, 7};

            //var c1 = (from p in f.OrderedPatterns
            //          where patterns.Contains(p.PatternNumber)
            //          select p)
            //         .SelectMany(p => p.Channels)
            //         .Where(c => c.ChannelNumber == 1)
            //         .SelectMany(ce => ce.ChannelEvents);

            //var c2 = (from p in f.OrderedPatterns
            //          where patterns.Contains(p.PatternNumber)
            //          select p)
            //         .SelectMany(p => p.Channels)
            //         .Where(c => c.ChannelNumber == 2)
            //         .SelectMany(ce => ce.ChannelEvents);

            //var c3 = (from p in f.OrderedPatterns
            //          where patterns.Contains(p.PatternNumber)
            //          select p)
            //         .SelectMany(p => p.Channels)
            //         .Where(c => c.ChannelNumber == 3)
            //         .SelectMany(ce => ce.ChannelEvents);

            var patterns = from p in f.OrderedPatterns.Skip(skip) /*where outputPatterns.Contains(p.PatternNumber) */select p;
            //.SelectMany(p => p.Rows);

            Dictionary<int, TrackInfo> tracks = new Dictionary<int, TrackInfo>();
            tracks.Add(1, new TrackInfo(t1));
            tracks[1].Channel = 0;
            tracks.Add(2, new TrackInfo(t2));
            tracks[2].Channel = 1;
            tracks.Add(3, new TrackInfo(t3));
            tracks[3].Channel = 2;
            var di = new TrackInfo(drums);
            di.Channel = 9;
            var mapper = new Func<ChannelEvent, int>(ce =>
            {
                switch (ce.Instrument)
                {
                    case 6:
                        return 42;
                    case 8:
                        return 35;
                    case 9:
                        return 38;
                    case 10:
                        return 47;
                    default:
                        Debug.Fail(ce.Instrument.ToString());
                        return 0;

                }
            });
            di.NoteMapper = mapper;
            var kickInfo = new TrackInfo(kick);
            kickInfo.Channel = 9;
            kickInfo.NoteMapper = mapper;
            tracks.Add(4, di);
            tracks.Add(5, kickInfo);

            var tick = 0;
            foreach (var pattern in patterns)
            {
                bool breakPattern = false;
                foreach (var row in pattern.Rows)
                {
                    //if ((row.RowNumber-1) % 16 == 0)
                    //{
                    //    drums.Insert(tick, kickOn);
                    //    drums.Insert(tick + speed, kickOff);
                    //}
                    foreach (var ce in row.ChannelEvents)
                    {
                        if (ce == null)
                        {
                            //Console.Out.WriteLine("skip");
                            continue;
                        }

                        if (ce.Command == 3)
                        {
                            var modulo = row.RowNumber % 32;
                            if (modulo != 0)
                            {
                                // sad to say, not sure why mod 8 but divide by 16 works
                                var m8 = row.RowNumber % 8;
                                if (m8 == 0)
                                {
                                    var restore = tsb.Result;
                                    tsb.Numerator = (byte)(row.RowNumber / 16);
                                    tsb.Build();
                                    var change = tsb.Result;
                                    timeTrack.Insert(tick, change);
                                    timeTrack.Insert(tick + 3, restore);
                                }

                            }
                            //Debugger.Break();
                            // pattern break
                            // figure out the time signature of the pattern up to this point
                            // then go back and insert a time signature change message at the beginning
                            // of the pattern
                            // and another one at the end to revert
                            //var restore = tsb.Result;
                            //tsb.Numerator = 2;
                            //tsb.Build();
                            //var change = tsb.Result;
                            //timeTrack.Insert(rowStartTick, change);
                            //timeTrack.Insert(tick + 3, restore);
                            breakPattern = true;
                        }

                        if (!tracks.ContainsKey(ce.ChannelNumber)) continue;
                        TrackInfo ti = tracks[ce.ChannelNumber];

                        if (ce.Note == -1 )
                        {
                            // skip
                        }
                        else if( ce.Note == 0xFF)
                        {
                            // re-use current note, but change instrument

                            //Console.Out.WriteLine("skip");
                        }
                        else if (ce.Note == 0xFE) //off
                        {
                            if (ti.LastPitch != -1)
                            {
                                NoteOff(tick, ti);
                            }
                        }
                        else
                        {
                            //if (ce.Volume != -1 && ce.Volume < 32) continue;
                            if (ti.LastPitch != -1)
                            {
                                NoteOff(tick, ti);
                            }

                            //p = ProgramChange(ti.Track, tick, p, ce);

                            var delay = 0;
                            if (ce.Command == 19)
                            {
                                if (208 <= ce.Data && ce.Data <= 214)  // HACK: 214 is a guess at the top range of SD commands
                                {
                                    delay = ce.Data - 208;
                                    Debug.Assert(delay >= 0);
                                }
                            }

                            NoteOn(tick + delay, ti, ce);

                        }

                    }
                    tick += speed;
                    if (breakPattern)
                    {
                        break;
                    }
                }
            }

            foreach (var pair in tracks)
            {
                if (pair.Value.LastPitch != -1)
                {
                    NoteOff(tick, pair.Value);
                }
            }

            foreach (MidiEvent m in drums.Iterator().Take(5))
            {
                if (m.MidiMessage is ChannelMessage)
                {
                    ChannelMessage cm = (ChannelMessage)m.MidiMessage;
                    Console.Out.WriteLine("{0} {1}", m.AbsoluteTicks, cm.Command);
                }
            }

            s.Save(Path.ChangeExtension(filename, ".mid"));
            /*
            var tick = 0;
            var speed = 3;
            var lastNote = -1;
            var p = -1;
            foreach (var ce in c1)
            {
                if (ce == null || ce.Note == -1 || ce.Note == 0xFF)
                {
                    tick += speed;
                    Console.Out.WriteLine("skip");
                    continue;
                }
                else if (ce.Note == 0xFE) //off
                {
                    lastNote = NoteOff(t, tick, lastNote);
                }
                else
                {
                    if (lastNote != -1)
                    {
                        lastNote = NoteOff(t, tick, lastNote);
                    }

                    p = ProgramChange(t, tick, p, ce);

                    var delay = 0;
                    if (ce.Command == 19)
                    {
                        if (208 <= ce.Data && ce.Data <= 214)  // HACK: 214 is a guess at the top range of SD commands
                        {
                            delay = ce.Data - 208;
                            Debug.Assert(delay >= 0);
                        }
                    }

                    lastNote = NoteOn(t, tick + delay, ce.Note);

                }
                tick += speed;
            }
            lastNote = NoteOff(t, tick, lastNote);
             *
             * */
        }