public void GetAsShortMessageReturnsCorrectValue()
        {
            int channel = 2;
            int pitch = 0x3FFF; // 0x2000 is the default
            PitchWheelChangeEvent p = new PitchWheelChangeEvent(0, channel, pitch);

            Assert.AreEqual(0x007F7FE1, p.GetAsShortMessage());
        }
Esempio n. 2
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        void midiIn_MessageReceived(object sender, MidiInMessageEventArgs e)
        {
            progressLog1.LogMessage(Color.Blue, String.Format("Time {0} Message 0x{1:X8} Event {2}",
                                                              e.Timestamp, e.RawMessage, e.MidiEvent));

            //SendMidiOutMessage(e.MidiEvent);
            if (VSTForm.vst != null)
            {
                MidiEvent midiEvent = e.MidiEvent;
                byte[]    midiData  = { 0, 0, 0 };
                if (midiEvent is NAudio.Midi.NoteEvent)
                {
                    NAudio.Midi.NoteEvent me = (NAudio.Midi.NoteEvent)midiEvent;
                    midiData = new byte[] {
                        0x90,                                           // Cmd
                        (byte)me.NoteNumber,                            // Val 1
                        (byte)me.Velocity,                              // Val 2
                    };
                }
                else if (midiEvent is NAudio.Midi.ControlChangeEvent)
                {
                    NAudio.Midi.ControlChangeEvent cce = (NAudio.Midi.ControlChangeEvent)midiEvent;
                    midiData = new byte[] {
                        0xB0,                                                   // Cmd
                        (byte)cce.Controller,                                   // Val 1
                        (byte)cce.ControllerValue,                              // Val 2
                    };
                }
                else if (midiEvent is NAudio.Midi.PitchWheelChangeEvent)
                {
                    // Pitch Wheel Value 0 is minimum, 0x2000 (8192) is default, 0x4000 (16384) is maximum
                    NAudio.Midi.PitchWheelChangeEvent pe = (PitchWheelChangeEvent)midiEvent;
                    midiData = new byte[] {
                        0xE0,                                                   // Cmd
                        (byte)(pe.Pitch & 0x7f),                                // Val 1
                        (byte)((pe.Pitch >> 7) & 0x7f),                         // Val 2
                    };
                }
                progressLog1.LogMessage(Color.Chocolate, String.Format("Sending mididata 0x00{0:X2}{1:X2}{2:X2}",
                                                                       midiData[2], midiData[1], midiData[0]));
                VstMidiEvent vse =
                    new VstMidiEvent(/*DeltaFrames*/ 0,
                                     /*NoteLength*/ 0,
                                     /*NoteOffset*/ 0,
                                     midiData,
                                     /*Detune*/ 0,
                                     /*NoteOffVelocity*/ 0);

                VstEvent[] ve = new VstEvent[1];
                ve[0] = vse;

                VSTForm.vst.pluginContext.PluginCommandStub.ProcessEvents(ve);
            }
        }
        public void ExportsCorrectValue()
        {
            var ms = new MemoryStream();
            var writer = new BinaryWriter(ms);

            int channel = 2;
            int pitch = 0x207D; // 0x2000 is the default
            PitchWheelChangeEvent p = new PitchWheelChangeEvent(0, channel, pitch);
            
            long time = 0;
            p.Export(ref time, writer);

            Assert.AreEqual(4, ms.Length);
            byte[] b = ms.GetBuffer();
            Assert.AreEqual(0x0, b[0]); // event time
            Assert.AreEqual(0xE1, b[1]);
            Assert.AreEqual(0x7D, b[2]);
            Assert.AreEqual(0x40, b[3]);
        }
Esempio n. 4
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        /// <summary>
        /// Constructs a MidiEvent from a BinaryStream
        /// </summary>
        /// <param name="br">The binary stream of MIDI data</param>
        /// <param name="previous">The previous MIDI event (pass null for first event)</param>
        /// <returns>A new MidiEvent</returns>
        public static MidiEvent ReadNextEvent(BinaryReader br, MidiEvent previous)
        {
            int deltaTime = MidiEvent.ReadVarInt(br);
            MidiCommandCode commandCode;
            int channel = 1;
            byte b = br.ReadByte();
            if((b & 0x80) == 0)
            {
                // a running command - command & channel are same as previous
                commandCode = previous.CommandCode;
                channel = previous.Channel;
                br.BaseStream.Position--; // need to push this back
            }
            else
            {
                if((b & 0xF0) == 0xF0)
                {
                    // both bytes are used for command code in this case
                    commandCode = (MidiCommandCode) b;
                }
                else
                {
                    commandCode = (MidiCommandCode) (b & 0xF0);
                    channel = (b & 0x0F) + 1;
                }
            }

            MidiEvent me;
            switch(commandCode)
            {
            case MidiCommandCode.NoteOn:
                me = new NoteOnEvent(br);
                break;
            case MidiCommandCode.NoteOff:
            case MidiCommandCode.KeyAfterTouch:
                me = new NoteEvent(br);
                break;
            //case MidiCommandCode.ControlChange:
               //     me = new ControlChangeEvent(br);
               //     break;
            case MidiCommandCode.PatchChange:
                me = new PatchChangeEvent(br);
                break;
            case MidiCommandCode.ChannelAfterTouch:
                me = new ChannelAfterTouchEvent(br);
                break;
            case MidiCommandCode.PitchWheelChange:
                me = new PitchWheelChangeEvent(br);
                break;
            case MidiCommandCode.TimingClock:
            case MidiCommandCode.StartSequence:
            case MidiCommandCode.ContinueSequence:
            case MidiCommandCode.StopSequence:
                me = new MidiEvent();
                break;
            case MidiCommandCode.Sysex:
                me = SysexEvent.ReadSysexEvent(br);
                break;
            case MidiCommandCode.MetaEvent:
                try {
               		me = MetaEvent.ReadMetaEvent(br);
                }
                catch(FormatException) {
                    me = new MidiEvent();
                }
                break;
            default:
                me = new MidiEvent();
                break;
                //throw new FormatException(String.Format("Unsupported MIDI Command Code {0:X2}",(byte) commandCode));
            }
            me.channel = channel;
            me.deltaTime = deltaTime;
            me.commandCode = commandCode;
            return me;
        }
Esempio n. 5
0
        /// <summary>
        /// Creates a MidiEvent from a raw message received using
        /// the MME MIDI In APIs
        /// </summary>
        /// <param name="rawMessage">The short MIDI message</param>
        /// <returns>A new MIDI Event</returns>
        public static MidiEvent FromRawMessage(int rawMessage)
        {
            long absoluteTime = 0;
            int b = rawMessage & 0xFF;
            int data1 = (rawMessage >> 8) & 0xFF;
            int data2 = (rawMessage >> 16) & 0xFF;
            MidiCommandCode commandCode;
            int channel = 1;

            if ((b & 0xF0) == 0xF0)
            {
                // both bytes are used for command code in this case
                commandCode = (MidiCommandCode)b;
            }
            else
            {
                commandCode = (MidiCommandCode)(b & 0xF0);
                channel = (b & 0x0F) + 1;
            }

            MidiEvent me;
            switch (commandCode)
            {
                case MidiCommandCode.NoteOn:
                case MidiCommandCode.NoteOff:
                case MidiCommandCode.KeyAfterTouch:
                    if (data2 > 0 && commandCode == MidiCommandCode.NoteOn)
                    {
                        me = new NoteOnEvent(absoluteTime, channel, data1, data2, 0);
                    }
                    else
                    {
                        me = new NoteEvent(absoluteTime, channel, commandCode, data1, data2);
                    }
                    break;
                //case MidiCommandCode.ControlChange:
               //     me = new ControlChangeEvent(absoluteTime,channel,(MidiController)data1,data2);
                //    break;
                case MidiCommandCode.PatchChange:
                    me = new PatchChangeEvent(absoluteTime,channel,data1);
                    break;
                case MidiCommandCode.ChannelAfterTouch:
                    me = new ChannelAfterTouchEvent(absoluteTime,channel,data1);
                    break;
                case MidiCommandCode.PitchWheelChange:
                    me = new PitchWheelChangeEvent(absoluteTime, channel, data1 + (data2 << 7));
                    break;
                case MidiCommandCode.TimingClock:
                case MidiCommandCode.StartSequence:
                case MidiCommandCode.ContinueSequence:
                case MidiCommandCode.StopSequence:
                case MidiCommandCode.AutoSensing:
                    me = new MidiEvent(absoluteTime,channel,commandCode);
                    break;
                case MidiCommandCode.MetaEvent:
                case MidiCommandCode.Sysex:
                default:
                    throw new FormatException(String.Format("Unsupported MIDI Command Code for Raw Message {0}", commandCode));
            }
            return me;
        }
Esempio n. 6
0
        /// <summary>
        /// Constructs a MidiEvent from a BinaryStream
        /// </summary>
        /// <param name="br">The binary stream of MIDI data</param>
        /// <param name="previous">The previous MIDI event (pass null for first event)</param>
        /// <returns>A new MidiEvent</returns>
        public static MidiEvent ReadNextEvent(BinaryReader br, MidiEvent previous)
        {
            int             deltaTime = MidiEvent.ReadVarInt(br);
            MidiCommandCode commandCode;
            int             channel = 1;
            byte            b       = br.ReadByte();

            if ((b & 0x80) == 0)
            {
                // a running command - command & channel are same as previous
                commandCode = previous.CommandCode;
                channel     = previous.Channel;
                br.BaseStream.Position--; // need to push this back
            }
            else
            {
                if ((b & 0xF0) == 0xF0)
                {
                    // both bytes are used for command code in this case
                    commandCode = (MidiCommandCode)b;
                }
                else
                {
                    commandCode = (MidiCommandCode)(b & 0xF0);
                    channel     = (b & 0x0F) + 1;
                }
            }

            MidiEvent me;

            switch (commandCode)
            {
            case MidiCommandCode.NoteOn:
                me = new NoteOnEvent(br);
                break;

            case MidiCommandCode.NoteOff:
            case MidiCommandCode.KeyAfterTouch:
                me = new NoteEvent(br);
                break;

            case MidiCommandCode.ControlChange:
                me = new ControlChangeEvent(br);
                break;

            case MidiCommandCode.PatchChange:
                me = new PatchChangeEvent(br);
                break;

            case MidiCommandCode.ChannelAfterTouch:
                me = new ChannelAfterTouchEvent(br);
                break;

            case MidiCommandCode.PitchWheelChange:
                me = new PitchWheelChangeEvent(br);
                break;

            case MidiCommandCode.TimingClock:
            case MidiCommandCode.StartSequence:
            case MidiCommandCode.ContinueSequence:
            case MidiCommandCode.StopSequence:
                me = new MidiEvent();
                break;

            case MidiCommandCode.Sysex:
                me = SysexEvent.ReadSysexEvent(br);
                break;

            case MidiCommandCode.MetaEvent:
                me = MetaEvent.ReadMetaEvent(br);
                break;

            default:
                throw new FormatException(String.Format("Unsupported MIDI Command Code {0:X2}", (byte)commandCode));
            }
            me.channel     = channel;
            me.deltaTime   = deltaTime;
            me.commandCode = commandCode;
            return(me);
        }
Esempio n. 7
0
        /// <summary>
        /// Creates a MidiEvent from a raw message received using
        /// the MME MIDI In APIs
        /// </summary>
        /// <param name="rawMessage">The short MIDI message</param>
        /// <returns>A new MIDI Event</returns>
        public static MidiEvent FromRawMessage(int rawMessage)
        {
            long            absoluteTime = 0;
            int             b            = rawMessage & 0xFF;
            int             data1        = (rawMessage >> 8) & 0xFF;
            int             data2        = (rawMessage >> 16) & 0xFF;
            MidiCommandCode commandCode;
            int             channel = 1;

            if ((b & 0xF0) == 0xF0)
            {
                // both bytes are used for command code in this case
                commandCode = (MidiCommandCode)b;
            }
            else
            {
                commandCode = (MidiCommandCode)(b & 0xF0);
                channel     = (b & 0x0F) + 1;
            }

            MidiEvent me;

            switch (commandCode)
            {
            case MidiCommandCode.NoteOn:
            case MidiCommandCode.NoteOff:
            case MidiCommandCode.KeyAfterTouch:
                if (data2 > 0 && commandCode == MidiCommandCode.NoteOn)
                {
                    me = new NoteOnEvent(absoluteTime, channel, data1, data2, 0);
                }
                else
                {
                    me = new NoteEvent(absoluteTime, channel, commandCode, data1, data2);
                }
                break;

            case MidiCommandCode.ControlChange:
                me = new ControlChangeEvent(absoluteTime, channel, (MidiController)data1, data2);
                break;

            case MidiCommandCode.PatchChange:
                me = new PatchChangeEvent(absoluteTime, channel, data1);
                break;

            case MidiCommandCode.ChannelAfterTouch:
                me = new ChannelAfterTouchEvent(absoluteTime, channel, data1);
                break;

            case MidiCommandCode.PitchWheelChange:
                me = new PitchWheelChangeEvent(absoluteTime, channel, data1 + (data2 << 7));
                break;

            case MidiCommandCode.TimingClock:
            case MidiCommandCode.StartSequence:
            case MidiCommandCode.ContinueSequence:
            case MidiCommandCode.StopSequence:
            case MidiCommandCode.AutoSensing:
                me = new MidiEvent(absoluteTime, channel, commandCode);
                break;

            case MidiCommandCode.MetaEvent:
            case MidiCommandCode.Sysex:
            default:
                throw new FormatException(String.Format("Unsupported MIDI Command Code for Raw Message {0}", commandCode));
            }
            return(me);
        }
Esempio n. 8
0
        /// <summary>
        /// Constructs a MidiEvent from a BinaryStream
        /// </summary>
        /// <param name="br">The binary stream of MIDI data</param>
        /// <param name="previous">The previous MIDI event (pass null for first event)</param>
        /// <returns>A new MidiEvent</returns>
        // Token: 0x060004C8 RID: 1224 RVA: 0x0000FF78 File Offset: 0x0000E178
        public static MidiEvent ReadNextEvent(BinaryReader br, MidiEvent previous)
        {
            int             num  = MidiEvent.ReadVarInt(br);
            int             num2 = 1;
            byte            b    = br.ReadByte();
            MidiCommandCode midiCommandCode;

            if ((b & 128) == 0)
            {
                midiCommandCode         = previous.CommandCode;
                num2                    = previous.Channel;
                br.BaseStream.Position -= 1L;
            }
            else if ((b & 240) == 240)
            {
                midiCommandCode = (MidiCommandCode)b;
            }
            else
            {
                midiCommandCode = (MidiCommandCode)(b & 240);
                num2            = (int)((b & 15) + 1);
            }
            MidiCommandCode midiCommandCode2 = midiCommandCode;
            MidiEvent       midiEvent;

            if (midiCommandCode2 <= MidiCommandCode.ControlChange)
            {
                if (midiCommandCode2 <= MidiCommandCode.NoteOn)
                {
                    if (midiCommandCode2 != MidiCommandCode.NoteOff)
                    {
                        if (midiCommandCode2 != MidiCommandCode.NoteOn)
                        {
                            goto IL_15F;
                        }
                        midiEvent = new NoteOnEvent(br);
                        goto IL_175;
                    }
                }
                else if (midiCommandCode2 != MidiCommandCode.KeyAfterTouch)
                {
                    if (midiCommandCode2 != MidiCommandCode.ControlChange)
                    {
                        goto IL_15F;
                    }
                    midiEvent = new ControlChangeEvent(br);
                    goto IL_175;
                }
                midiEvent = new NoteEvent(br);
                goto IL_175;
            }
            if (midiCommandCode2 <= MidiCommandCode.ChannelAfterTouch)
            {
                if (midiCommandCode2 == MidiCommandCode.PatchChange)
                {
                    midiEvent = new PatchChangeEvent(br);
                    goto IL_175;
                }
                if (midiCommandCode2 == MidiCommandCode.ChannelAfterTouch)
                {
                    midiEvent = new ChannelAfterTouchEvent(br);
                    goto IL_175;
                }
            }
            else
            {
                if (midiCommandCode2 == MidiCommandCode.PitchWheelChange)
                {
                    midiEvent = new PitchWheelChangeEvent(br);
                    goto IL_175;
                }
                if (midiCommandCode2 == MidiCommandCode.Sysex)
                {
                    midiEvent = SysexEvent.ReadSysexEvent(br);
                    goto IL_175;
                }
                switch (midiCommandCode2)
                {
                case MidiCommandCode.TimingClock:
                case MidiCommandCode.StartSequence:
                case MidiCommandCode.ContinueSequence:
                case MidiCommandCode.StopSequence:
                    midiEvent = new MidiEvent();
                    goto IL_175;

                case MidiCommandCode.MetaEvent:
                    midiEvent = MetaEvent.ReadMetaEvent(br);
                    goto IL_175;
                }
            }
IL_15F:
            throw new FormatException(string.Format("Unsupported MIDI Command Code {0:X2}", (byte)midiCommandCode));
IL_175:
            midiEvent.channel     = num2;
            midiEvent.deltaTime   = num;
            midiEvent.commandCode = midiCommandCode;
            return(midiEvent);
        }
Esempio n. 9
0
        private void sr_OnTrackEvent(object sender, TrackEventArgs e)
        {
            long counter = 0;
            long notesBefore = TotalNotes;
            foreach (var ev in e.Events.Where(x => x is MidiUtils.IO.MidiEvent))
            {
                counter++;
                // Convert the event to NAudio's system so we can get a shortMessage
                var em = (MidiUtils.IO.MidiEvent)ev;
                if (ev.Type == EventType.NoteOn) TotalNotes++;
                MidiEvent me;
                try
                {
                    switch (ev.Type)
                    {
                        case EventType.NoteOn:
                        case EventType.NoteOff:
                        case EventType.PolyphonicKeyPressure:
                            if (em.Data2 > 0 && ev.Type == EventType.NoteOn)
                            {
                                me = new NoteOnEvent(ev.Tick, em.Channel + 1, em.Data1, em.Data2, 0);
                            }
                            else
                            {
                                me = new NoteEvent(ev.Tick, em.Channel + 1, (MidiCommandCode)(int)ev.Type, em.Data1, em.Data2);
                            }
                            break;
                        case EventType.ControlChange:
                            me = new ControlChangeEvent(ev.Tick, em.Channel + 1, (MidiController)em.Data1, em.Data2);
                            break;
                        case EventType.ProgramChange:
                            me = new PatchChangeEvent(ev.Tick, em.Channel + 1, em.Data1);
                            break;
                        case EventType.ChannelPressure:
                            me = new ChannelAfterTouchEvent(ev.Tick, em.Channel + 1, em.Data1);
                            break;
                        case EventType.Pitchbend:
                            me = new PitchWheelChangeEvent(ev.Tick, em.Channel + 1, em.Data1 + (em.Data2 << 7));
                            break;
                        default:
                            throw new InvalidOperationException("Unsupported MIDI event type: " + ev.Type);
                    }
                }
                catch (Exception ex)
                {
                    Exceptions++;
                    continue;
                }

                // Send the message
                try { _midi.Send(me.GetAsShortMessage()); }
                catch (MmException ex)
                {
                    if ((int)ex.Result == 67) Overloads++;
                    else Exceptions++;
                    continue;
                }
                if (ev.Type == EventType.NoteOn) SuccessNotes++;
            }
            PeakNotesPerInterval = Math.Max(PeakNotesPerInterval, TotalNotes - notesBefore);
            PeakEventsPerInterval = Math.Max(PeakEventsPerInterval, counter);
            TotalEvents += counter;
        }