/// <summary>
/// Callback called when data dump is received from device
/// </summary>
private void OnSysExMessageReceived(object sender, SysExMessageEventArgs e)
{
// At 11 byte we have effect type, so we check value there
var effect = (Effect)e.Message[10];
var expectedDumpLength = ExpectedDumpLength(effect) + SysExUtils.DumpPaddingSize;
var actualDumpLength = e.Message.Length;
if (actualDumpLength != expectedDumpLength)
{
throw new InvalidDumpSizeException(expectedDumpLength, actualDumpLength);
}
_logger.Receive($"Received {effect}");
_dataDumps.Add(effect, e.Message);
_dumpCount++;
if (_dumpCount == 4)
{
_timer.Stop();
_device.StopRecording();
_device.Dispose();
DataDumpReceived?.Invoke(this, new EffectsPatchDumpReceivedEventArgs(new Patch(_dataDumps)));
}
}
/// <summary>
/// Callback called when data dump is received from device
/// </summary>
private void OnSysExMessageReceived(object sender, SysExMessageEventArgs e)
{
switch (e.Message.Length)
{
case ExpectedCommonDumpLength + SysExUtils.DumpPaddingSize:
_commonDump = e.Message;
_logger.Receive("Received Patch.Common");
break;
case ExpectedPartialDumpLength + SysExUtils.DumpPaddingSize:
{
// At 11 byte we have partial identifier, so we check value at that byte
var key = (DrumKey)e.Message[10];
_partialsDump[key] = e.Message;
_logger.Receive($"Received Patch.Partials[{key}]");
break;
}
}
_dumpCount++;
if (_dumpCount == 39)
{
_timer.Stop();
_device.StopRecording();
_device.Dispose();
DataDumpReceived?.Invoke(this,
new DrumKitPatchDumpReceivedEventArgs(new Patch(_commonDump, _partialsDump)));
}
}
/// <summary>
/// Callback called when data dump is received from device
/// </summary>
private void OnSysExMessageReceived(object sender, SysExMessageEventArgs e)
{
switch (e.Message.Length)
{
case ExpectedCommonDumpLength + SysExUtils.DumpPaddingSize:
_logger.Receive("Received Patch.Common");
_commonDump = e.Message;
break;
case ExpectedVfxDumpLength + SysExUtils.DumpPaddingSize:
_vfxDump = e.Message;
_logger.Receive("Received Patch.VocalEffect");
break;
}
_dumpCount++;
if (_dumpCount == 2)
{
_timer.Stop();
_device.StopRecording();
_device.Dispose();
DataDumpReceived?.Invoke(this,
new CommonAndVocalFxDumpReceivedEventArgs(new CommonAndVocalEffectPatch(_commonDump, _vfxDump)));
}
}
public void Dispose()
{
if (midiinput != null)
{
midiinput.Dispose();
}
}
/// <summary>
///
/// </summary>
public static void SetInputMidiDeviceA(string deviceName)
{
if (inputDeviceA != null && inputDeviceA.Name.Equals(deviceName))
{
return;
}
if (inputDeviceB != null && inputDeviceB.Name.Equals(deviceName))
{
return;
}
if (inputDeviceA != null)
{
try
{
inputDeviceA.StopEventsListening();
}
catch
{
}
finally
{
inputDeviceA.Dispose();
}
}
Settings.Default.MidiIF = deviceName;
inputDeviceA = InputDevice.GetByName(deviceName);
if (inputDeviceA != null)
{
inputDeviceA.EventReceived += midiEventReceivedA;
inputDeviceA.StartEventsListening();
}
}
private void Form1_Leave(object sender, EventArgs e)
{
inputDevice.Dispose();
outputDevice.Dispose();
Disconnect();
if (udpServer != null)
{
udpServer.Close();
}
if (thdUDPServer != null)
{
thdUDPServer.Join(2000);
thdUDPServer.Abort();
}
}
public void Dispose()
{
if (_inputDevice != null)
{
Close();
_inputDevice.Dispose();
}
}
private void OnDestroy()
{
Debug.Log("Closing MIDI device.");
if (inputDevice != null)
{
inputDevice.Dispose();
}
}
/// <summary>
/// Callback called when data dump is received from device
/// </summary>
private void OnSysExMessageReceived(object sender, SysExMessageEventArgs e)
{
_timer.Stop();
_device.StopRecording();
_device.Dispose();
var actualLength = e.Message.Length - SysExUtils.DumpPaddingSize;
if (actualLength != ExpectedDumpLength)
{
throw new InvalidDumpSizeException(ExpectedDumpLength, actualLength);
}
_logger.Receive("Received Patch");
DataDumpReceived?.Invoke(this, new AnalogPatchDumpReceivedEventArgs(new Patch(e.Message)));
}
public void Cleanup(SyncObject syncObject)
{
if (device != null)
{
device.EventReceived -= OnEventReceived;
device.Dispose();
}
syncObject.BeforeSync -= OnBeforeSync;
}
public void Disconnect()
{
lock (MidiCom.lock_obj)
{
InputDevice inDevice = this.inDevice;
OutputDevice outDevice = this.outDevice;
this.inDevice = (InputDevice)null;
this.outDevice = (OutputDevice)null;
if (inDevice != null)
{
Logger.Log("Disconnecting MIDI-in Device");
try
{
inDevice.StopRecording();
}
catch (Exception ex)
{
}
try
{
inDevice.Close();
}
catch (Exception ex)
{
}
try
{
inDevice.Dispose();
}
catch (Exception ex)
{
}
}
if (outDevice != null)
{
Logger.Log("Disconnecting MIDI-out Device");
try
{
outDevice.Close();
}
catch (Exception ex)
{
}
try
{
outDevice.Dispose();
}
catch (Exception ex)
{
}
}
Form1.m_CurrentPatch.m_GETRequestWaiting = false;
}
}
/// <summary>
/// Releases all resources used by the clock.
/// </summary>
public override void Dispose()
{
Interlocked.Exchange(ref _isDisposing, 1);
_inDev.RealTime -= RealTime;
if (_ownsInputDevice)
{
_inDev.StopReceiving();
_inDev.Dispose();
}
}
public void Close()
{
try {
inputDevice.StopEventsListening();
inputDevice.EventReceived -= OnEventReceived;
inputDevice.Dispose();
} catch (Exception ex)
{
logger.Error(ex);
throw;
}
}
public void Disconnect()
{
if (_iDevice != null && !_iDevice.IsDisposed)
{
_iDevice.Dispose();
}
if (_oDevice != null && !_oDevice.IsDisposed)
{
_oDevice.Dispose();
}
OnStatusChanged(this, EMidiEvent.DeviceDisconnected);
}
public void Dispose()
{
if (_inDevice == null)
{
return;
}
_inDevice.ChannelMessageReceived -= InDevice_ChannelMessageReceived;
try
{
_inDevice.StopRecording();
_inDevice.Dispose();
}
catch (Exception e)
{
Console.WriteLine(e.Message);
}
_inDevice = null;
}
private void SelectDevice(int id)
{
InputDevice newDevice = InputDevice.GetById(id);
if (currentMidiDevice?.Id == newDevice.Id)
{
return;
}
else
{
if (currentMidiDevice != null)
{
currentMidiDevice.EventReceived -= OnMidiEventReceived;
currentMidiDevice.Dispose();
}
}
currentMidiDevice = newDevice;
currentMidiDevice.EventReceived += OnMidiEventReceived;
Log($"Selected {currentMidiDevice.Name}.");
}
public static void Disconnect()
{
if (wetMidiKeyboard == null)
{
return;
}
if (wetMidiKeyboard.IsListeningForEvents)
{
try
{
wetMidiKeyboard.StopEventsListening();
wetMidiKeyboard.Reset();
wetMidiKeyboard.EventReceived -= MidiKeyboard_EventReceived;
wetMidiKeyboard.Dispose();
cts.Cancel();
}
catch (Exception e)
{
MessageBox.Show($"断开错误 \r\n {e.Message}", "错误", MessageBoxButtons.OK, MessageBoxIcon.Error);
}
}
}
public static void Stop()
{
Log.WriteLine("PAW-01 Host shutting down...");
stopped = true;
midiin.StopRecording();
mouseProc.Join();
controllerPort.DataReceived -= ControllerInHandler;
keyboardPort.DataReceived -= KeyboardInHandler;
Log.WriteLine("Processors offline.");
keyboardPort.Close();
controllerPort.Close();
midiin.Close();
midiin.Dispose();
midiout.Close();
midiout.Dispose();
Log.WriteLine("Ports offline.");
}
private void button2_Click(object sender, EventArgs e)
{
try
{
//var inputDevice = InputDevice.GetById(comboBox1.SelectedIndex);
//inputDevice.EventReceived -= OnEventReceived1;
inputDevice.StopEventsListening();
inputDevice.Dispose();
serialPort1.Close();
button2.Enabled = false;
button1.Enabled = true;
comboBox1.Enabled = true;
comboBox3.Enabled = true;
comboBox4.Enabled = true;
textBox1.AppendText("All devices has been closed." + Environment.NewLine);
toolStripStatusLabel1.Text = "No device opened";
}
catch (Exception ex)
{
MessageBox.Show(ex.ToString());
}
}
public void Dispose()
{
_inDevice.StartRecording();
_inDevice.Dispose();
_outDevice.Dispose();
}
public void Cleanup()
{
_inputDevice.Dispose();
_outputDevice.Dispose();
}
private static void Main()
{
Console.WriteLine("WELCOME TO MIDI PRACTICE\n");
Console.WriteLine("Select gametype by typing number (1 to 4) and hitting ENTER.\n\n");
Console.ForegroundColor = ConsoleColor.Yellow;
Console.WriteLine("1: Score Attack");
Console.WriteLine("2: Score Attack - Text To Speech DISABLED");
Console.ForegroundColor = ConsoleColor.Cyan;
Console.WriteLine("3: Endless Mode");
Console.WriteLine("4: Endless Mode - Text To Speech DISABLED");
Console.ResetColor();
bool endlessMode = EndlessOrScore();
Console.ForegroundColor = endlessMode ? ConsoleColor.Cyan : ConsoleColor.Yellow;
Console.WriteLine(endlessMode ? EndlessModeASCII : ScoreAttackASCII);
Console.WriteLine("Select difficulty by typing number (1 to 5) and hitting ENTER.\n\n");
Console.ResetColor();
Console.WriteLine("1: Numpad\n Numbers 0 to 9, no MIDI keyboard required!\n");
Console.WriteLine("2: Basic\n White keys only, notes are always natural.\n");
Console.WriteLine("3: Regular\n White keys are always natural, and black keys are always sharp.\n");
Console.WriteLine("4: Semi-Advanced\n White keys are always natural, and black keys can be either sharp or flat.\n");
Console.WriteLine("5: Advanced\n White keys are NOT always natural, and black keys can be either sharp or flat.\n");
Console.WriteLine("x: Exit\n");
bool game = int.TryParse(Console.ReadLine(), out int gameDifficulty); // get the game difficulty the user selected
string modeString = endlessMode ? "Endless Mode." : "Score Attack - 20 rounds.";
switch (gameDifficulty)
{
case 1:
Console.WriteLine("Numpad selected. \n" + (endlessMode ? modeString : "Score Attack - 30 rounds."));
break;
case 2:
Console.WriteLine("Basic selected. \n" + modeString);
break;
case 3:
Console.WriteLine("Regular selected. \n" + modeString);
break;
case 4:
Console.WriteLine("Semi-Advanced selected. \n" + modeString);
break;
case 5:
Console.WriteLine("Advanced selected. \n" + modeString);
break;
default:
Console.WriteLine("Press ENTER to exit.");
break;
}
OutputDevice outputDevice = null;
InputDevice inputDevice = null;
if (game)
{
outputDevice = SelectMidiDevice(OutputDevice.GetAll().ToList()); // get output device
outputDevice.EventSent += EmptyEvent;
if (gameDifficulty > 1)
{
inputDevice = SelectMidiDevice(InputDevice.GetAll().ToList()); // get input device for MIDI mode
if (inputDevice == default) // if no input devices, default to Numpad
{
gameDifficulty = 1;
Console.ForegroundColor = ConsoleColor.Red;
Console.WriteLine("A MIDI keyboard is required for this difficulty! Starting Numpad instead.\nPress ENTER to continue.");
Console.ResetColor();
Console.ReadLine();
}
}
}
while (game) // we're playing
{
GameCode(endlessMode, gameDifficulty, outputDevice, inputDevice); // the game is in here
Console.WriteLine("Want to play again? Type Y to replay the game.");
if (Console.ReadLine().ToLower() != "y") // if the user doesn't want to play
{
game = false; // change the game bool to false
Console.WriteLine("\nPress ENTER to exit.");
}
}
if (inputDevice != null)
{
inputDevice.Dispose(); // always dispose your IDisposables when you're done with them
}
if (outputDevice != null)
{
outputDevice.Dispose(); // always dispose your IDisposables when you're done with them
}
Console.ReadLine();
}
static void Main(string[] args)
{
var isCanceled = false;
Console.CancelKeyPress += (sender, eventArgs) =>
{
Console.WriteLine("Got the Ctrl-C");
isCanceled = true;
eventArgs.Cancel = true;
};
var deviceName = "X";
var vb = new VmClient();
var od = new OutputDevice(GetMidiOutputDevice(deviceName));
var id = new InputDevice(GetMidiInputDevice(deviceName));
for (int channel = 1; channel <= 8; channel++)
{
od.Send(new ChannelMessage(ChannelCommand.Controller, 0, channel, 0));
}
//UpdateCCVoiceMeter(vb, "Bus[0].Gain", 116);
//UpdateCCVoiceMeter(vb, "Bus[1].Gain", 89);
//UpdateCCVoiceMeter(vb, "Bus[2].Gain", 0);
//UpdateCCVoiceMeter(vb, "Bus[3].Gain", 127, 12.0f);
//UpdateCCVoiceMeter(vb, "Bus[4].Gain", 127, 12.0f);
//UpdateCCVoiceMeter(vb, "Strip[0].Gain", 102);
//UpdateCCVoiceMeter(vb, "Strip[1].Gain", 102);
//UpdateCCVoiceMeter(vb, "Strip[2].Gain", 127, 12.0f);
//UpdateCCVoiceMeter(vb, "Strip[3].Gain", 102);
//UpdateCCVoiceMeter(vb, "Strip[4].Gain", 102);
id.ChannelMessageReceived += (ob, e) =>
{
var m = e.Message;
if (m.MessageType == MessageType.Channel && m.Command == ChannelCommand.NoteOff)
{
float vmVal;
switch (m.Data1)
{
case 8:
ToggleVoiceMeeter(vb, "Strip[0].B1");
break;
case 16:
ToggleVoiceMeeter(vb, "Strip[0].B2");
break;
case 9:
ToggleVoiceMeeter(vb, "Strip[1].B1");
break;
case 17:
ToggleVoiceMeeter(vb, "Strip[1].B2");
break;
case 10:
ToggleVoiceMeeter(vb, "Strip[2].B1");
break;
case 18:
ToggleVoiceMeeter(vb, "Strip[2].B2");
break;
case 12:
ToggleVoiceMeeter(vb, "Strip[3].A1");
break;
case 20:
ToggleVoiceMeeter(vb, "Strip[3].A2");
break;
case 13:
ToggleVoiceMeeter(vb, "Strip[4].A1");
break;
case 21:
ToggleVoiceMeeter(vb, "Strip[4].A2");
break;
case 14:
ToggleVoiceMeeter(vb, "Bus[0].Mute");
break;
case 15:
ToggleVoiceMeeter(vb, "Bus[1].Mute");
break;
case 23:
ToggleVoiceMeeter(vb, "Bus[2].Mute");
break;
}
}
else if (m.MessageType == MessageType.Channel && m.Command == ChannelCommand.Controller)
{
switch (m.Data1)
{
case 1: // CC1
UpdateCCVoiceMeter(vb, "Strip[0].Gain", m.Data2);
break;
case 2: // CC2
UpdateCCVoiceMeter(vb, "Strip[1].Gain", m.Data2);
break;
case 3:
UpdateCCVoiceMeter(vb, "Strip[2].Gain", m.Data2);
//UpdateCCVoiceMeter(vb, "Strip[2].Gain", m.Data2, 12.0f);
break;
case 5:
UpdateCCVoiceMeter(vb, "Strip[3].Gain", m.Data2);
break;
case 6:
UpdateCCVoiceMeter(vb, "Strip[4].Gain", m.Data2);
break;
case 7:
UpdateCCVoiceMeter(vb, "Bus[0].Gain", m.Data2);
break;
case 8:
UpdateCCVoiceMeter(vb, "Bus[1].Gain", m.Data2);
break;
case 9:
UpdateCCVoiceMeter(vb, "Bus[2].Gain", m.Data2);
break;
}
}
};
id.StartRecording();
while (!isCanceled)
{
if (vb.Poll())
{
//strip 0
var vmVal = vb.GetParam($"Strip[0].B1");
od.Send(new ChannelMessage(ChannelCommand.NoteOn, 0, 0, (int)vmVal));
vmVal = vb.GetParam($"Strip[0].B2");
od.Send(new ChannelMessage(ChannelCommand.NoteOn, 0, 8, (int)vmVal));
//strip 1
vmVal = vb.GetParam($"Strip[1].B1");
od.Send(new ChannelMessage(ChannelCommand.NoteOn, 0, 1, (int)vmVal));
vmVal = vb.GetParam($"Strip[1].B2");
od.Send(new ChannelMessage(ChannelCommand.NoteOn, 0, 9, vmVal == 1 ? 2 : 0));
//strip 2
vmVal = vb.GetParam($"Strip[2].B1");
od.Send(new ChannelMessage(ChannelCommand.NoteOn, 0, 2, (int)vmVal));
vmVal = vb.GetParam($"Strip[2].B2");
od.Send(new ChannelMessage(ChannelCommand.NoteOn, 0, 10, vmVal == 1 ? 2 : 0));
//strip 3
vmVal = vb.GetParam($"Strip[3].A1");
od.Send(new ChannelMessage(ChannelCommand.NoteOn, 0, 4, (int)vmVal));
vmVal = vb.GetParam($"Strip[3].A2");
od.Send(new ChannelMessage(ChannelCommand.NoteOn, 0, 12, (int)vmVal));
//strip 4
vmVal = vb.GetParam($"Strip[4].A1");
od.Send(new ChannelMessage(ChannelCommand.NoteOn, 0, 5, (int)vmVal));
vmVal = vb.GetParam($"Strip[4].A2");
od.Send(new ChannelMessage(ChannelCommand.NoteOn, 0, 13, (int)vmVal));
//Bus 0
vmVal = vb.GetParam($"Bus[0].Mute");
od.Send(new ChannelMessage(ChannelCommand.NoteOn, 0, 6, vmVal == 1 ? 2 : 0));
vmVal = vb.GetParam($"Bus[1].Mute");
od.Send(new ChannelMessage(ChannelCommand.NoteOn, 0, 7, vmVal == 1 ? 2 : 0));
vmVal = vb.GetParam($"Bus[2].Mute");
od.Send(new ChannelMessage(ChannelCommand.NoteOn, 0, 15, vmVal == 1 ? 2 : 0));
}
Thread.Sleep(20);
}
id.Dispose();
od.Dispose();
vb.Dispose();
}
/// <summary>
/// Callback called when data dump is received from device
/// </summary>
private void OnSysExMessageReceived(object sender, SysExMessageEventArgs e)
{
switch (e.Message.Length)
{
case ExpectedCommonDumpLength + SysExUtils.DumpPaddingSize:
_logger.Receive("Received Patch.Common");
_commonDump = e.Message;
break;
case ExpectedModifiersDumpLength + SysExUtils.DumpPaddingSize:
_logger.Receive("Received Patch.Modifiers");
_modifiersDump = e.Message;
break;
case ExpectedPartialDumpLength + SysExUtils.DumpPaddingSize:
{
// At 11 byte we have partial number, so we check value at that byte
var partial = (DigitalPartial)e.Message[10];
switch (partial)
{
case DigitalPartial.First:
_logger.Receive($"Received Patch.PartialOne");
_partialsDump[0] = e.Message;
break;
case DigitalPartial.Second:
_logger.Receive($"Received Patch.PartialTwo");
_partialsDump[1] = e.Message;
break;
case DigitalPartial.Third:
_logger.Receive($"Received Patch.PartialThree");
_partialsDump[2] = e.Message;
break;
default:
throw new ArgumentOutOfRangeException(nameof(partial), partial, null);
}
break;
}
default:
throw new InvalidDumpSizeException();
}
_dumpCount++;
if (_dumpCount == 5)
{
_timer.Stop();
_device.StopRecording();
_device.Dispose();
DataDumpReceived?.Invoke(this, new DigitalPatchDumpReceivedEventArgs(
new Patch(_commonDump, _partialsDump, _modifiersDump)
));
}
}
public void Shutdown()
{
inDevice.Close();
inDevice.Dispose();
}
public void Dispose()
{
input.Dispose();
output.Dispose();
}
public void Dispose()
{
Input.StopRecording();
Input.Dispose();
Link.Dispose();
}
public void GlobalCleanup()
{
_inputDevice.EventReceived -= OnEventReceived;
_inputDevice.Dispose();
_outputDevice.Dispose();
}
public void Dispose()
{
Deactivate();
_device.Dispose();
}
public void Dispose()
{
MidiIn.StopRecording();
MidiIn.Dispose();
MidiOut.Dispose();
}
