public MidiEntry(MidiEntry midiEntry) { _frequency = midiEntry._frequency; _stepsize = midiEntry._stepsize; _audiogain = midiEntry._audiogain; _bandbreite = midiEntry._bandbreite; _detectorType = midiEntry._detectorType; _startstop = midiEntry._startstop; }
public void leftVfo(int freq) { var midiEntry = new MidiEntry(); long step = 1; midiEntry.Frequency = _controlInterface.Frequency; midiEntry.Stepsize = _controlInterface.StepSize; switch (steppi) { case 1: step = 1; break; case 2: step = 100; break; case 3: step = 1000; break; case 4: step = 10000; break; case 5: step = midiEntry.Stepsize; break; case 6: step = midiEntry.Stepsize; break; default: step = midiEntry.Stepsize; break; } if (freq == 1) { _controlInterface.Frequency = midiEntry.Frequency + step; } else { _controlInterface.Frequency = midiEntry.Frequency - step; } }
public void bandbreite(int pegel) { var midiEntry = new MidiEntry(); midiEntry.Bandbreite = _controlInterface.FilterBandwidth; if (pegel == 127 && midiEntry.Bandbreite > 10) { _controlInterface.FilterBandwidth = midiEntry.Bandbreite - 10; } else if (pegel != 127 && midiEntry.Bandbreite < 32000) { _controlInterface.FilterBandwidth = midiEntry.Bandbreite + 10; } }
public void fineTunigFreq(int pegel) { var midiEntry = new MidiEntry(); midiEntry.Frequency = _controlInterface.Frequency; if (pegel == 127) { _controlInterface.Frequency = midiEntry.Frequency - 1; } else { _controlInterface.Frequency = midiEntry.Frequency + 1; } }
private void lautleise(double pegel) { var midiEntry = new MidiEntry(); double range = 34.0; double max_in = 127.0; double min_scal = 26.0; var scal = min_scal + (range / max_in * pegel); if (pegel != 0) { midiEntry.Audiogain = (int)Math.Truncate(scal); _controlInterface.AudioGain = midiEntry.Audiogain; } }
private void startStop(int pegel) { var midiEntry = new MidiEntry(); midiEntry.Startstop = _controlInterface.IsPlaying; if (pegel == 127) { if (midiEntry.Startstop == true) { _controlInterface.StopRadio(); } else { _controlInterface.StartRadio(); } } }
public void bandType(int pegel) { var midiEntry = new MidiEntry(); midiEntry.DetectorType = _controlInterface.DetectorType; if (pegel == 1) { switch (midiEntry.DetectorType) { case DetectorType.NFM: _controlInterface.DetectorType = DetectorType.AM; break; case DetectorType.AM: _controlInterface.DetectorType = DetectorType.LSB; break; case DetectorType.LSB: _controlInterface.DetectorType = DetectorType.USB; break; case DetectorType.USB: _controlInterface.DetectorType = DetectorType.WFM; break; case DetectorType.WFM: _controlInterface.DetectorType = DetectorType.DSB; break; case DetectorType.DSB: _controlInterface.DetectorType = DetectorType.CW; break; case DetectorType.CW: _controlInterface.DetectorType = DetectorType.RAW; break; case DetectorType.RAW: _controlInterface.DetectorType = DetectorType.NFM; break; } } else { switch (midiEntry.DetectorType) { case DetectorType.NFM: _controlInterface.DetectorType = DetectorType.RAW; break; case DetectorType.RAW: _controlInterface.DetectorType = DetectorType.CW; break; case DetectorType.CW: _controlInterface.DetectorType = DetectorType.DSB; break; case DetectorType.DSB: _controlInterface.DetectorType = DetectorType.WFM; break; case DetectorType.WFM: _controlInterface.DetectorType = DetectorType.USB; break; case DetectorType.USB: _controlInterface.DetectorType = DetectorType.LSB; break; case DetectorType.LSB: _controlInterface.DetectorType = DetectorType.AM; break; case DetectorType.AM: _controlInterface.DetectorType = DetectorType.NFM; break; } } }