示例#1
0
        public void When_RawData()
        {
            var message = new MidiTimingClockMessage();
            var data    = message.RawData.ToArray();

            CollectionAssert.AreEqual(new byte[] { 248 }, data);
        }
示例#2
0
        protected override void ProcessRecord()
        {
            if (ValidateCommonParameters())
            {
                var message = new MidiTimingClockMessage();

                Port.RawPort.SendMessage(message);
            }
        }
        protected override void ProcessRecord()
        {
            if (ValidateCommonParameters())
            {
                var message = new MidiTimingClockMessage();

                Port.RawPort.SendMessage(message);
            }
        }
示例#4
0
        /// <summary>
        /// Create a new MIDI message based on the message type and parameter(s) values,
        /// and send it to the chosen output device
        /// </summary>
        /// <param name="sender">Element that fired the event</param>
        /// <param name="e">Event arguments</param>
        private void sendButton_Click(object sender, Windows.UI.Xaml.RoutedEventArgs e)
        {
            IMidiMessage midiMessageToSend = null;

            switch (_currentMessageType)
            {
            case MidiMessageType.NoteOff:
                midiMessageToSend = new MidiNoteOffMessage(Convert.ToByte(GetParameterValue(parameter1)), Convert.ToByte(GetParameterValue(parameter2)), Convert.ToByte(GetParameterValue(parameter3)));
                break;

            case MidiMessageType.NoteOn:
                midiMessageToSend = new MidiNoteOnMessage(Convert.ToByte(GetParameterValue(parameter1)), Convert.ToByte(GetParameterValue(parameter2)), Convert.ToByte(GetParameterValue(parameter3)));
                break;

            case MidiMessageType.PolyphonicKeyPressure:
                midiMessageToSend = new MidiPolyphonicKeyPressureMessage(Convert.ToByte(GetParameterValue(parameter1)), Convert.ToByte(GetParameterValue(parameter2)), Convert.ToByte(GetParameterValue(parameter3)));
                break;

            case MidiMessageType.ControlChange:
                midiMessageToSend = new MidiControlChangeMessage(Convert.ToByte(GetParameterValue(parameter1)), Convert.ToByte(GetParameterValue(parameter2)), Convert.ToByte(GetParameterValue(parameter3)));
                break;

            case MidiMessageType.ProgramChange:
                midiMessageToSend = new MidiProgramChangeMessage(Convert.ToByte(GetParameterValue(parameter1)), Convert.ToByte(GetParameterValue(parameter2)));
                break;

            case MidiMessageType.ChannelPressure:
                midiMessageToSend = new MidiChannelPressureMessage(Convert.ToByte(GetParameterValue(parameter1)), Convert.ToByte(GetParameterValue(parameter2)));
                break;

            case MidiMessageType.PitchBendChange:
                midiMessageToSend = new MidiPitchBendChangeMessage(Convert.ToByte(GetParameterValue(parameter1)), Convert.ToUInt16(GetParameterValue(parameter2)));
                break;

            case MidiMessageType.SystemExclusive:
                var dataWriter         = new DataWriter();
                var sysExMessage       = sysExMessageContent.Text;
                var sysExMessageLength = sysExMessage.Length;

                // Do not send a blank SysEx message
                if (sysExMessageLength == 0)
                {
                    return;
                }

                // SysEx messages are two characters long with 1-character space in between them
                // So we add 1 to the message length, so that it is perfectly divisible by 3
                // The loop count tracks the number of individual message pieces
                int loopCount = (sysExMessageLength + 1) / 3;

                // Expecting a string of format "F0 NN NN NN NN.... F7", where NN is a byte in hex
                for (int i = 0; i < loopCount; i++)
                {
                    var messageString = sysExMessage.Substring(3 * i, 2);
                    var messageByte   = Convert.ToByte(messageString, 16);
                    dataWriter.WriteByte(messageByte);
                }
                midiMessageToSend = new MidiSystemExclusiveMessage(dataWriter.DetachBuffer());
                break;

            case MidiMessageType.MidiTimeCode:
                midiMessageToSend = new MidiTimeCodeMessage(Convert.ToByte(GetParameterValue(parameter1)), Convert.ToByte(GetParameterValue(parameter2)));
                break;

            case MidiMessageType.SongPositionPointer:
                midiMessageToSend = new MidiSongPositionPointerMessage(Convert.ToUInt16(GetParameterValue(parameter1)));
                break;

            case MidiMessageType.SongSelect:
                midiMessageToSend = new MidiSongSelectMessage(Convert.ToByte(GetParameterValue(parameter1)));
                break;

            case MidiMessageType.TuneRequest:
                midiMessageToSend = new MidiTuneRequestMessage();
                break;

            case MidiMessageType.TimingClock:
                midiMessageToSend = new MidiTimingClockMessage();
                break;

            case MidiMessageType.Start:
                midiMessageToSend = new MidiStartMessage();
                break;

            case MidiMessageType.Continue:
                midiMessageToSend = new MidiContinueMessage();
                break;

            case MidiMessageType.Stop:
                midiMessageToSend = new MidiStopMessage();
                break;

            case MidiMessageType.ActiveSensing:
                midiMessageToSend = new MidiActiveSensingMessage();
                break;

            case MidiMessageType.SystemReset:
                midiMessageToSend = new MidiSystemResetMessage();
                break;

            case MidiMessageType.None:
            default:
                return;
            }

            // Send the message
            _currentMidiOutputDevice.SendMessage(midiMessageToSend);
            NotifyUser("Message sent successfully");
        }
        /// <summary>
        /// Create a new MIDI message based on the message type and Parameter(s) values,
        /// and send it to the chosen output device
        /// </summary>
        /// <param name="sender">Element that fired the event</param>
        /// <param name="e">Event arguments</param>
        private void SendButton_Clicked(object sender, EventArgs e)
        {
            MidiMessage midiMessageToSend = null;

            switch (this.currentMessageType)
            {
            case MidiEvent.NoteOff:
                midiMessageToSend = new MidiNoteOffMessage(Convert.ToByte(this.Parameter1.SelectedItem), Convert.ToByte(this.Parameter2.SelectedItem), Convert.ToByte(this.Parameter3.SelectedItem));
                break;

            case MidiEvent.NoteOn:
                midiMessageToSend = new MidiNoteOnMessage(Convert.ToByte(this.Parameter1.SelectedItem), Convert.ToByte(this.Parameter2.SelectedItem), Convert.ToByte(this.Parameter3.SelectedItem));
                break;

            case MidiEvent.PAf:
                midiMessageToSend = new MidiPolyphonicKeyPressureMessage(Convert.ToByte(this.Parameter1.SelectedItem), Convert.ToByte(this.Parameter2.SelectedItem), Convert.ToByte(this.Parameter3.SelectedItem));
                break;

            case MidiEvent.CC:
                midiMessageToSend = new MidiControlChangeMessage(Convert.ToByte(this.Parameter1.SelectedItem), Convert.ToByte(this.Parameter2.SelectedItem), Convert.ToByte(this.Parameter3.SelectedItem));
                break;

            case MidiEvent.Program:
                midiMessageToSend = new MidiProgramChangeMessage(Convert.ToByte(this.Parameter1.SelectedItem), Convert.ToByte(this.Parameter2.SelectedItem));
                break;

            case MidiEvent.CAf:
                midiMessageToSend = new MidiChannelPressureMessage(Convert.ToByte(this.Parameter1.SelectedItem), Convert.ToByte(this.Parameter2.SelectedItem));
                break;

            case MidiEvent.Pitch:
                midiMessageToSend = new MidiPitchBendChangeMessage(Convert.ToByte(this.Parameter1.SelectedItem), Convert.ToUInt16(this.Parameter2.SelectedItem));
                break;

            case MidiEvent.SysEx1:
                var dataWriter         = new List <byte>();
                var sysExMessage       = this.SysExMessageContent.Text;
                var sysExMessageLength = sysExMessage.Length;

                // Do not send a blank SysEx message
                if (sysExMessageLength == 0)
                {
                    return;
                }

                // SysEx messages are two characters long with 1-character space in between them
                // So we add 1 to the message length, so that it is perfectly divisible by 3
                // The loop count tracks the number of individual message pieces
                int loopCount = (sysExMessageLength + 1) / 3;

                // Expecting a string of format "F0 NN NN NN NN.... F7", where NN is a byte in hex
                for (int i = 0; i < loopCount; i++)
                {
                    var messageString = sysExMessage.Substring(3 * i, 2);
                    var messageByte   = Convert.ToByte(messageString, 16);
                    dataWriter.Add(messageByte);
                }
                midiMessageToSend = new MidiSystemExclusiveMessage(dataWriter.ToArray());
                break;

            case MidiEvent.MtcQuarterFrame:
                midiMessageToSend = new MidiTimeCodeMessage(Convert.ToByte(this.Parameter1.SelectedItem), Convert.ToByte(this.Parameter2.SelectedItem));
                break;

            case MidiEvent.SongPositionPointer:
                midiMessageToSend = new MidiSongPositionPointerMessage(Convert.ToUInt16(this.Parameter1.SelectedItem));
                break;

            case MidiEvent.SongSelect:
                midiMessageToSend = new MidiSongSelectMessage(Convert.ToByte(this.Parameter1.SelectedItem));
                break;

            case MidiEvent.TuneRequest:
                midiMessageToSend = new MidiTuneRequestMessage();
                break;

            case MidiEvent.MidiClock:
                midiMessageToSend = new MidiTimingClockMessage();
                break;

            case MidiEvent.MidiStart:
                midiMessageToSend = new MidiStartMessage();
                break;

            case MidiEvent.MidiContinue:
                midiMessageToSend = new MidiContinueMessage();
                break;

            case MidiEvent.MidiStop:
                midiMessageToSend = new MidiStopMessage();
                break;

            case MidiEvent.ActiveSense:
                midiMessageToSend = new MidiActiveSensingMessage();
                break;

            case MidiEvent.Reset:
                midiMessageToSend = new MidiSystemResetMessage();
                break;

            default:
                return;
            }

            // Send the message
            _synthesizer.SendMessage(midiMessageToSend);
            //this.rootPage.NotifyUser("Message sent successfully", NotifyType.StatusMessage);
        }
        /// <summary>
        /// Create a new MIDI message based on the message type and parameter(s) values,
        /// and send it to the chosen output device
        /// </summary>
        /// <param name="sender">Element that fired the event</param>
        /// <param name="e">Event arguments</param>
        private void sendButton_Click(object sender, Windows.UI.Xaml.RoutedEventArgs e)
        {
            IMidiMessage midiMessageToSend = null;

            switch (this.currentMessageType)
            {
                case MidiMessageType.NoteOff:
                    midiMessageToSend = new MidiNoteOffMessage(Convert.ToByte(this.parameter1.SelectedValue), Convert.ToByte(this.parameter2.SelectedValue), Convert.ToByte(this.parameter3.SelectedValue));
                    break;
                case MidiMessageType.NoteOn:
                    midiMessageToSend = new MidiNoteOnMessage(Convert.ToByte(this.parameter1.SelectedValue), Convert.ToByte(this.parameter2.SelectedValue), Convert.ToByte(this.parameter3.SelectedValue));
                    break;
                case MidiMessageType.PolyphonicKeyPressure:
                    midiMessageToSend = new MidiPolyphonicKeyPressureMessage(Convert.ToByte(this.parameter1.SelectedValue), Convert.ToByte(this.parameter2.SelectedValue), Convert.ToByte(this.parameter3.SelectedValue));
                    break;
                case MidiMessageType.ControlChange:
                    midiMessageToSend = new MidiControlChangeMessage(Convert.ToByte(this.parameter1.SelectedValue), Convert.ToByte(this.parameter2.SelectedValue), Convert.ToByte(this.parameter3.SelectedValue));
                    break;
                case MidiMessageType.ProgramChange:
                    midiMessageToSend = new MidiProgramChangeMessage(Convert.ToByte(this.parameter1.SelectedValue), Convert.ToByte(this.parameter2.SelectedValue));
                    break;
                case MidiMessageType.ChannelPressure:
                    midiMessageToSend = new MidiChannelPressureMessage(Convert.ToByte(this.parameter1.SelectedValue), Convert.ToByte(this.parameter2.SelectedValue));
                    break;
                case MidiMessageType.PitchBendChange:
                    midiMessageToSend = new MidiPitchBendChangeMessage(Convert.ToByte(this.parameter1.SelectedValue), Convert.ToUInt16(this.parameter2.SelectedValue));
                    break;
                case MidiMessageType.SystemExclusive:
                    var dataWriter = new DataWriter();
                    var sysExMessage = this.sysExMessageContent.Text;
                    var sysExMessageLength = sysExMessage.Length;

                    // Do not send a blank SysEx message
                    if (sysExMessageLength == 0)
                    {
                        return;
                    }

                    // SysEx messages are two characters long with 1-character space in between them
                    // So we add 1 to the message length, so that it is perfectly divisible by 3
                    // The loop count tracks the number of individual message pieces
                    int loopCount = (sysExMessageLength + 1) / 3;

                    // Expecting a string of format "F0 NN NN NN NN.... F7", where NN is a byte in hex
                    for (int i = 0; i < loopCount; i++)
                    {
                        var messageString = sysExMessage.Substring(3 * i, 2);
                        var messageByte = Convert.ToByte(messageString, 16);
                        dataWriter.WriteByte(messageByte);
                    }
                    midiMessageToSend = new MidiSystemExclusiveMessage(dataWriter.DetachBuffer());
                    break;
                case MidiMessageType.MidiTimeCode:
                    midiMessageToSend = new MidiTimeCodeMessage(Convert.ToByte(this.parameter1.SelectedValue), Convert.ToByte(this.parameter2.SelectedValue));
                    break;
                case MidiMessageType.SongPositionPointer:
                    midiMessageToSend = new MidiSongPositionPointerMessage(Convert.ToUInt16(this.parameter1.SelectedValue));
                    break;
                case MidiMessageType.SongSelect:
                    midiMessageToSend = new MidiSongSelectMessage(Convert.ToByte(this.parameter1.SelectedValue));
                    break;
                case MidiMessageType.TuneRequest:
                    midiMessageToSend = new MidiTuneRequestMessage();
                    break;
                case MidiMessageType.TimingClock:
                    midiMessageToSend = new MidiTimingClockMessage();
                    break;
                case MidiMessageType.Start:
                    midiMessageToSend = new MidiStartMessage();
                    break;
                case MidiMessageType.Continue:
                    midiMessageToSend = new MidiContinueMessage();
                    break;
                case MidiMessageType.Stop:
                    midiMessageToSend = new MidiStopMessage();
                    break;
                case MidiMessageType.ActiveSensing:
                    midiMessageToSend = new MidiActiveSensingMessage();
                    break;
                case MidiMessageType.SystemReset:
                    midiMessageToSend = new MidiSystemResetMessage();
                    break;
                case MidiMessageType.None:
                default:
                    return;
            }

            // Send the message
            this.currentMidiOutputDevice.SendMessage(midiMessageToSend);
            this.rootPage.NotifyUser("Message sent successfully", NotifyType.StatusMessage);
        }