public void SetPin(GpIO target, bool isOn) { _log.Info(string.Format("Set GpIO : {0} [{1}]", target, isOn ? "On" : "Off")); }
public void SetPin(GpIO target, bool isOn) { var targetFound = _configuration.Targets.FirstOrDefault(x => x.Pin == target); SetPin(targetFound, isOn); }
private ProcessorPin GetPin(GpIO gpIo) { switch (gpIo) { case GpIO.GPIO2: return ProcessorPin.Pin2; case GpIO.GPIO3: return ProcessorPin.Pin3; case GpIO.GPIO4: return ProcessorPin.Pin4; case GpIO.GPIO17: return ProcessorPin.Pin17; case GpIO.GPIO27: return ProcessorPin.Pin27; case GpIO.GPIO22: return ProcessorPin.Pin22; case GpIO.GPIO10: return ProcessorPin.Pin10; case GpIO.GPIO9: return ProcessorPin.Pin9; case GpIO.GPIO11: return ProcessorPin.Pin11; case GpIO.GPIO7: return ProcessorPin.Pin7; case GpIO.GPIO8: return ProcessorPin.Pin8; case GpIO.GPIO25: return ProcessorPin.Pin25; case GpIO.GPIO24: return ProcessorPin.Pin24; case GpIO.GPIO23: return ProcessorPin.Pin23; case GpIO.GPIO18: return ProcessorPin.Pin18; case GpIO.GPIO15: return ProcessorPin.Pin15; case GpIO.GPIO14: return ProcessorPin.Pin14; default: throw new ArgumentOutOfRangeException(); } }
public SequencesGpIo(GpIO pin, bool isOn) : this() { Pin = (int) pin; IsOn = isOn; }
public void AddButton(GpIO p1Pin24, bool b) { _buttons.Add(new Button() {Pin = p1Pin24, IsToggle = false}); }
public Target(PinName target, GpIO pin, bool isReverse = false) { _target = target; _pin = pin; _isReverse = isReverse; }