// Scan and open all the available output ports. void ScanPorts() { for (var i = 0; i < _probe.PortCount; i++) { var name = _probe.GetPortName(i); Debug.Log("MIDI-out port found: " + name); _ports.Add(IsRealPort(name) ? new MidiOutPort(i) : null); } }
void RescanOutPorts() { DisposeOutPorts(); for (var i = 0; i < _outProbe.PortCount; i++) { var name = _outProbe.GetPortName(i); _outPorts.Add((name != null && name.Contains(_settings.MidiOutFilter)) ? new MidiOutPort(i) : null); } }
// Scan and open all the available output ports. void RescanInPorts() { DisposeInPorts(); for (var i = 0; i < _inProbe.PortCount; i++) { var name = _inProbe.GetPortName(i); _inPorts.Add((name != null && name.Contains(_settings.MidiInFilter)) ? new MidiInPort(i) { OnNoteOn = OnNoteOn, OnNoteOff = OnNoteOff, OnControlChange = OnControlChange } : null); } }
// Scan and open all the available output ports. void ScanPorts() { for (var i = 0; i < _probe.PortCount; i++) { var name = _probe.GetPortName(i); Debug.Log("MIDI-in port found: " + name); _ports.Add(IsRealPort(name) ? new MidiInPort(i) { OnNoteOn = (byte channel, byte note, byte velocity) => Debug.Log(string.Format("{0} [{1}] On {2} ({3})", name, channel, note, velocity)), OnNoteOff = (byte channel, byte note) => Debug.Log(string.Format("{0} [{1}] Off {2}", name, channel, note)), OnControlChange = (byte channel, byte number, byte value) => Debug.Log(string.Format("{0} [{1}] CC {2} ({3})", name, channel, number, value)) } : null ); } }
// Scan and open all the available output ports. void ScanPorts() { for (var i = 0; i < _probe.PortCount; i++) { var name = _probe.GetPortName(i); Debug.Log("MIDI-in port found: " + name); _ports.Add(IsRealPort(name) ? new MidiInPort(i) { OnNoteOn = (byte channel, byte note, byte velocity) => //note = value //Debug.Log(string.Format("NAME : {0} CHANNEL : [{1}] NOTE : On {2} VELOCITY : ({3})", name, channel, note, velocity)), { int cellX, cellY; NoteToCell(note, out cellX, out cellY); if (character.CanStopLeak()) { leakingAreas.StopLeakInputs(cellX, cellY); } else { lastX = note % 16 == 8 ? note / 16 : -1; StartCoroutine(MoveCharToXY()); } }, OnNoteOff = (byte channel, byte note) => StartCoroutine(RessetCoordinates()), OnControlChange = (byte channel, byte number, byte value) => { //number = value{ lastY = number - 104; StartCoroutine(MoveCharToXY()); } } : null ); } }
private void ScanPorts() { for (var i = 0; i < probe.PortCount; i++) { var name = probe.GetPortName(i); Debug.Log("MIDI-in port found: " + name); ports.Add(IsRealPort(name) ? new MidiInPort(i) { OnNoteOn = (byte channel, byte note, byte velocity) => { onMidiSubject.OnNext( new MidiData { midiType = MidiType.Note, Number = note, Value = 127 }); }, OnNoteOff = (byte channel, byte note) => { onMidiSubject.OnNext(new MidiData { midiType = MidiType.Note, Number = note, Value = 0 }); }, OnControlChange = (byte channel, byte number, byte value) => { onMidiSubject.OnNext( new MidiData { midiType = MidiType.CC, Number = number, Value = value }); }, } : null ); } }