private void AnalyzeRaw(ChunkArgs e) { // logger.Debug(string.Format("ANALYZE RAW Real: {0} Step: {1} Bits: {2} Sample rate: {3} Data length: {4} Fft Length: {5}", _real, _step, _converter.BitRate, e.SamplingRate, e.RawData.Length, _fftLength)); if (_real) { // NetRadio.Devices.G3XDdc.Signal.G3XDdcIfProvider for (var n = 0; n < e.RawData.Length; n += _step) { var f = _converter.Convert(e.RawData, n); Add(f, 0); } } else { // NetRadio.Devices.G3XDdc.Signal.G3XDdcDdc1StreamProvider for (var n = 0; n < e.RawData.Length; n += _step * 2) { var r = _converter.Convert(e.RawData, n); var i = _converter.Convert(e.RawData, n + _step); Add(r, i); } } if (ForceInstantFft) { CalculateFft(); } }
private void AudioChunkRecieved(object sender, ChunkArgs e) { _stopLock.WaitOne(); if (_writer != null) { _writer.Write(e.RawData, 0, e.RawData.Length); } }
void G313AudioProvider_IfChunkRecieved(object sender, ChunkArgs e) { if (DataChunkRecieved == null) { return; } DataChunkRecieved(this, e); }
private void DataChunkRecieved(object sender, ChunkArgs e) { logger.Debug(string.Format(" DATA CHUNK RECIEVED - {7,7} : Source: {0,-55} Real: {1,-5} Step: {2} Bits: {3} Sample rate: {4,-10} Data length: {5,-7} Fft Length: {6,-6}", sender.ToString(), _real, _step, _converter.BitRate, e.SamplingRate, e.RawData.Length, _fftLength, _pushCount + 1)); lock (_bufferLock) { _pushCount++; _rawArgs = e; } }
private void AudioChunkRecieved(object sender, ChunkArgs e) { _buffer.AddSamples(e.RawData, 0, e.RawData.Length); if (_bufferedLength < _preBufferLength) { _bufferedLength += e.RawData.Length / (float)_byteRate; } else { _bufferLock.Set(); } }