public void Process(Audio item, AudioInfo info) { var tempogram = new Tempogram(); //get maximum values Samples samples = new EnvelopeProcessor(factory).Build(info.Samples, 32, false); var newSamples = new Samples() { Values = new float[samples.Values.Length], Bitrate = samples.Bitrate }; var intensity = 0; for (int i = 0; i < samples.Values.Length - 1; i++) { var diff = samples.Values[i + 1] - samples.Values[i]; samples.Values[i] = diff > 0 ? diff : 0; //разница между всеми амплитудами newSamples.Values[i] = diff; if (diff > minAmplitudeChangeForIntensityRate) { intensity++; } } samples.Values[samples.Values.Length - 1] = 0; newSamples.Values[samples.Values.Length - 1] = 0; var durationOfTrack = samples.Values.Length / samples.Bitrate;//time of sound var maxShift = (int)(samples.Values.Length * (maxRithmDuration / durationOfTrack)); var autoCorr1 = AutoCorr(samples.Values, maxShift, 5); var autoCorr2 = AutoCorr(newSamples.Values, maxShift, 2); var lengthCorr1 = (float)autoCorr1.Length; var log2 = Math.Log(2); var list1 = new List <KeyValuePair <float, float> >(); var list2 = new List <KeyValuePair <float, float> >(); for (int i = 0; i < lengthCorr1; i++) { var j = i / (float)lengthCorr1; j = (float)(Math.Log(j + 1) / log2); list1.Add(new KeyValuePair <float, float>(j, autoCorr1[i])); var v = autoCorr2[i]; list2.Add(new KeyValuePair <float, float>(j, v > 0 ? v : 0)); } tempogram.LongTempogram.Build(list1); tempogram.ShortTempogram.Build(list2); tempogram.Intensity = (float)intensity / durationOfTrack; CalcTempo(tempogram); //save to audio item item.Data.Add(tempogram); }
public void Process(Audio item, AudioInfo info) { var tempogram = new Tempogram(); //get maximum values Samples samples = new EnvelopeProcessor(factory).Build(info.Samples, 32, false); var newSamples = new Samples() { Values = new float[samples.Values.Length], Bitrate = samples.Bitrate }; var intensity = 0; for (int i = 0; i < samples.Values.Length - 1; i++) { var diff = samples.Values[i + 1] - samples.Values[i]; samples.Values[i] = diff > 0 ? diff : 0; //разница между всеми амплитудами newSamples.Values[i] = diff; if (diff > minAmplitudeChangeForIntensityRate) { intensity++; } } samples.Values[samples.Values.Length - 1] = 0; newSamples.Values[samples.Values.Length - 1] = 0; var durationOfTrack = samples.Values.Length / samples.Bitrate;//time of sound var maxShift = (int)(samples.Values.Length * (maxRithmDuration / durationOfTrack)); var autoCorr1 = AutoCorr(samples.Values, maxShift, 5); var autoCorr2 = AutoCorr(newSamples.Values, maxShift, 2); var lengthCorr1 = (float)autoCorr1.Length; var log2 = Math.Log(2); var list1 = new List<KeyValuePair<float, float>>(); var list2 = new List<KeyValuePair<float, float>>(); for (int i = 0; i < lengthCorr1; i++) { var j = i / (float)lengthCorr1; j = (float)(Math.Log(j + 1) / log2); list1.Add(new KeyValuePair<float, float>(j, autoCorr1[i])); var v = autoCorr2[i]; list2.Add(new KeyValuePair<float, float>(j, v > 0 ? v : 0)); } tempogram.LongTempogram.Build(list1); tempogram.ShortTempogram.Build(list2); tempogram.Intensity = (float)intensity / durationOfTrack; CalcTempo(tempogram); //save to audio item item.Data.Add(tempogram); }