private void ProcessRefVoice() { if (changed_reffile) { //refmfcc;// = new MFCCWrapper(mfcc_setting.TimeFrame, mfcc_setting.TimeShift, mfcc_setting.CepFilter, mfcc_setting.LowFreq, mfcc_setting.HighFreq, mfcc_setting.NumCeps); if (refmfcc.Load(refNameFile, 0) == (int)State.SUCCESSED) { refmfcc.Process(); } } DisplayRefCharts(); changed_reffile = false; }
private void ProcessYourVoice() { if (changed_yourfile) { //yourmfcc;// ;//= new MFCCWrapper(mfcc_setting.TimeFrame, mfcc_setting.TimeShift, mfcc_setting.CepFilter, mfcc_setting.LowFreq, mfcc_setting.HighFreq, mfcc_setting.NumCeps); if (yourmfcc.Load(yourNameFile, 0) == (int)State.SUCCESSED) { yourmfcc.Process(); } } DisplayYourCharts(); changed_yourfile = false; }
private void button1_Click(object sender, EventArgs e) { // WavFileWrapper wav = new WavFileWrapper(@"C:\Users\hungc\Desktop\Project\Binary\Voice Comparasion\Debug\Data\Test\sin100.wav"/*"C:\\Users\\hungc\\Desktop\\Project\\Binary\\TestExtractionLib\\Debug\\what_movies_have_you_seen_recently.wav"*/); WavFileWrapper wav = new WavFileWrapper(@"C:\Users\hungc\Desktop\Project\Binary\TestExtraction\Debug\what_movies_have_you_seen_recently.wav"); bool result = wav.Load(); wav.SelectedWave(11999, 12512); MFCCWrapper mfcc = new MFCCWrapper(wav, 512u, 0u, 20u, 0.0f, 8000.0f, 12u, 2); mfcc.Process(); WaveViewerForm wavView = new WaveViewerForm(); wavView.Data = wav.SelectedData; wavView.Show(); LineChartForm chart = new LineChartForm(Object.Enum.FormTag.NONE); chart.MaxValue = (int)mfcc.Mfcc[0].Max() + 1; chart.MinValue = (int)mfcc.Mfcc[0].Min() - 1; chart.Data = mfcc.Mfcc[0]; chart.Show(); }
private void button2_Click(object sender, EventArgs e) { OptionWrapper.SetLog(false); WavFileWrapper wav = new WavFileWrapper(@"C:\Users\hungc\Desktop\Project\Binary\Voice Comparasion\Debug\Data\Test\sin100.wav"); bool result = wav.Load(); wav.SelectedWave(0, 20000); MFCCWrapper mfcc = new MFCCWrapper(wav, 0.015f, 0.005f, 18, 0.0f, 4000, 12, 2); mfcc.Process(); MfccChartForm chart = new MfccChartForm(Object.Enum.FormTag.NONE); chart.Text = "MFCC"; chart.Data = mfcc.Mfcc; chart.Show(); /* * MfccChartForm chart2 = new MfccChartForm(Object.Enum.FormTag.NONE); * chart2.Text = "Bank Log"; * chart2.Data = mfcc.BandFilter; * chart2.Show(); * * MfccChartForm chart3 = new MfccChartForm(Object.Enum.FormTag.NONE); * chart3.Text = "FREQ"; * chart3.Data = mfcc.Freq; * chart3.Show(); * * MfccChartForm chart4 = new MfccChartForm(Object.Enum.FormTag.NONE); * chart4.Text = "Delta"; * chart4.Data = mfcc.DetalMfcc; * chart4.Show(); * * MfccChartForm chart5 = new MfccChartForm(Object.Enum.FormTag.NONE); * chart5.Text = "Double"; * chart5.Data = mfcc.DoubleDetalMfcc; * chart5.Show();*/ }
private void bgw_DoWork(object sender, DoWorkEventArgs e) { bool refpeak = false; if (rightChanged) { _refWav = new WavFileWrapper(refPath); //_refWav = new WavFileWrapper(@"C:\Users\Jimmy\Desktop\Human Voice Detector\HumanVoiceDetector\bin\Debug\Echo IVRresult_id=21774831&t=audio&r=1434196481.wav"); ; if (_refWav.Load()) { if (option.NormalizeAudio) { peakRef = _refWav.Peak(); refpeak = option.NormalizeAudio; } refmfcc = new MFCCWrapper(_refWav, option.TimeFrame, option.TimeShift, option.CepFilter, option.LowFreq, option.HighFreq, option.NumCeps, 4); refmfcc.Process(); refpitch = new PitchWrapper(_refWav, option.PitchTimeFrame, option.PitchTimeShift, option.PitchLowFreq, option.PitchHighFreq, option.PitchType, option.DropUnPitch); if (option.UseMedian) { refpitch.SetMedianWindowSize(option.MedianWindow); } refpitch.Process(); rightChanged = false; // Debug.WriteLine("Process Ref file completed Time {0}", DateTime.Now); } } if (refmfcc != null && refmfcc.ProcessDone) { SetDataChart(FormTag.REF_WAVE); //Debug.WriteLine("Process Ref: Draw Wave Done {0}", DateTime.Now); SetDataChart(FormTag.REF_FREQ); //Debug.WriteLine("Process Ref: Draw Freq Done {0}", DateTime.Now); SetDataChart(FormTag.REF_MFCC); //Debug.WriteLine("Process Ref: Draw MFCC Done {0}", DateTime.Now); SetDataChart(FormTag.REF_DOUBLE); //Debug.WriteLine("Process Ref: Draw Double Done {0}", DateTime.Now); SetDataChart(FormTag.REF_DETAL); //Debug.WriteLine("Process Ref: Draw Detal Done {0}", DateTime.Now); SetDataChart(FormTag.REF_PITCH); //Debug.WriteLine("Process Ref: Draw Pitch Done {0}", DateTime.Now); } //Debug.WriteLine("Set data chart Ref Ref Done {0}", DateTime.Now); if (leftChanged) { _yourWav = new WavFileWrapper(yourPath); if (_yourWav.Load()) { yourmfcc = new MFCCWrapper(_yourWav, option.TimeFrame, option.TimeShift, option.CepFilter, option.LowFreq, option.HighFreq, option.NumCeps, 4); if (refpeak) { _yourWav.NormalizeWave(peakRef); } yourmfcc.Process(); yourpitch = new PitchWrapper(_yourWav, option.PitchTimeFrame, option.PitchTimeShift, option.PitchLowFreq, option.PitchHighFreq, option.PitchType, option.DropUnPitch); if (option.UseMedian) { yourpitch.SetMedianWindowSize(option.MedianWindow); } yourpitch.Process(); leftChanged = false; } } if (yourmfcc != null && yourmfcc.ProcessDone) { // TO DO: Process Bar SetDataChart(FormTag.YOUR_WAVE); SetDataChart(FormTag.YOUR_MFCC); SetDataChart(FormTag.YOUR_FREQ); SetDataChart(FormTag.YOUR_DOUBLE); SetDataChart(FormTag.YOUR_DETAL); SetDataChart(FormTag.YOUR_PITCH); } if (yourmfcc != null && refmfcc != null && yourmfcc.ProcessDone && refmfcc.ProcessDone) { // TO DO: Process Bar string log = string.Format("**********************************************************\nCompare : Your Path - {0}\n Ref Path - {1}\n", yourPath, refPath); log += "Distance of 2 Vec Delta MFCC: "; double dis = DTWUtilWrapper.DistanceOf2Vector(yourmfcc.Mfcc, refmfcc.Mfcc, false); double fac = yourmfcc.Mfcc.Count > refmfcc.Mfcc.Count ? refmfcc.Mfcc.Count : yourmfcc.Mfcc.Count; double cos = dis / fac; log += string.Format("Dis MFCC: {0:0.###} Cos {1:0.###} \n", cos, ScoreMath.Score(cos)); // TO DO: Process Bar log += "Distance of 2 Vec Pitch: "; double resPitch = DTWUtilWrapper.DistanceOf2Vector(yourpitch.Pitchs, refpitch.Pitchs, true); double facD = refpitch.Pitchs.Count > yourpitch.Pitchs.Count ? yourpitch.Pitchs.Count : refpitch.Pitchs.Count; double cosp = resPitch / facD; log += string.Format("{0:0.###} \n", cosp); List <double> res = DTWUtilWrapper.DistanceOf2Array3DHorizon(yourmfcc.Mfcc, refmfcc.Mfcc, false); _mfccViewer.MFCC = res; LogUtil.Info(log); ShowValueCostMFCC(string.Format("{0:0.###}", ScoreMath.Score(cos))); ShowValueCostPitch(string.Format("{0:0.###}", resPitch)); } }
private void bgw_DoWork(object sender, DoWorkEventArgs e) { bool refpeak = false; if (_refChanged) { _refWav = new WavFileWrapper(refPath); if (_refWav.Load()) { _refMfcc = new MFCCWrapper(_refWav, option.TimeFrame, option.TimeShift, option.CepFilter, option.LowFreq, option.HighFreq, option.NumCeps, 4); if (option.NormalizeAudio) { refpeak = option.NormalizeAudio; peakRef = _refWav.Peak(); } _refMfcc.Process(); _refPitch = new PitchWrapper(_refWav, option.PitchTimeFrame, option.PitchTimeShift, option.PitchLowFreq, option.PitchHighFreq, option.PitchType, option.DropUnPitch); if (option.UseMedian) { _refPitch.SetMedianWindowSize(option.MedianWindow); } _refPitch.Process(); /// Debug.WriteLine("Process Ref file completed Time {0}", DateTime.Now); } } if (_refMfcc != null && _refMfcc.ProcessDone) { SetDataChart(FormTag.REF_WAVE); Debug.WriteLine("Process Ref: Draw Wave Done {0}", DateTime.Now); SetDataChart(FormTag.REF_FREQ); Debug.WriteLine("Process Ref: Draw Freq Done {0}", DateTime.Now); SetDataChart(FormTag.REF_MFCC); Debug.WriteLine("Process Ref: Draw MFCC Done {0}", DateTime.Now); SetDataChart(FormTag.REF_DOUBLE); Debug.WriteLine("Process Ref: Draw Double Done {0}", DateTime.Now); SetDataChart(FormTag.REF_DETAL); Debug.WriteLine("Process Ref: Draw Detal Done {0}", DateTime.Now); SetDataChart(FormTag.REF_PITCH); Debug.WriteLine("Process Ref: Draw Pitch Done {0}", DateTime.Now); } Debug.WriteLine("Set data chart Ref Ref Done {0}", DateTime.Now); if (_yourChanged) { _yourWav = new WavFileWrapper(_yourPath); if (_yourWav.Load()) { int size = _yourWav.FullData.Count; uint startPnt = (uint)(_startSelected * size); uint endPnt = (uint)(_endSelected * size); Debug.WriteLine("Select Data voice: Start {0} End {1}", startPnt, endPnt); _yourWav.SelectedWave(startPnt, endPnt); if (refpeak) { _yourWav.NormalizeWave(peakRef); } _yourMfcc = new MFCCWrapper(_yourWav, option.TimeFrame, option.TimeShift, option.CepFilter, option.LowFreq, option.HighFreq, option.NumCeps, 4); _yourMfcc.Process(); _yourPitch = new PitchWrapper(_yourWav, option.PitchTimeFrame, option.PitchTimeShift, option.PitchLowFreq, option.PitchHighFreq, option.PitchType, option.DropUnPitch); if (option.UseMedian) { _yourPitch.SetMedianWindowSize(option.MedianWindow); } _yourPitch.Process(); } } if (_yourMfcc != null && _yourMfcc.ProcessDone) { // TO DO: Process Bar SetDataChart(FormTag.YOUR_WAVE); SetDataChart(FormTag.YOUR_MFCC); SetDataChart(FormTag.YOUR_FREQ); SetDataChart(FormTag.YOUR_DOUBLE); SetDataChart(FormTag.YOUR_DETAL); SetDataChart(FormTag.YOUR_PITCH); } if (_yourMfcc != null && _refMfcc != null && _yourMfcc.ProcessDone && _refMfcc.ProcessDone) { //// TO DO: Process Bar //string log = string.Format("\nCompare : Your Path - {0}\n Ref Path - {1}\n", _yourPath, refPath); //// TO DO: Process Bar //log += "Distance of 2 Vec Pitch: "; //float resPitch = DTWUtilWrapper.DistanceOf2Vector(_yourPitch.Pitchs, _refPitch.Pitchs, true); //log += string.Format("{0:0.###}", resPitch); //// TO DO: Process Bar //log += "Compute DistanceOf2Array3DHorizon:"; //List<float> res = DTWUtilWrapper.DistanceOf2Array3DHorizon(_yourMfcc.DetalMfcc, _refMfcc.DetalMfcc, true); //_mfccViewer.MFCC = res; //log += "Distance of 2 Vec Delta MFCC: "; //float resMFCC = DTWUtilWrapper.DistanceOf2Array3D(_yourMfcc.Mfcc, _refMfcc.Mfcc, true); //log += string.Format("{0:0.###}", resMFCC); ////float sum = 0.0f; ////for (int i = 0; i < res.Count; i++) ////{ //// log += string.Format(" {0}: {1}", i, res[i]); //// sum += res[i]; ////} ////ShowValueCostMFCC(string.Format("{0:0.###}", res / res.Count)); //LogUtil.Info(log); ////ShowValueCostPitch(string.Format("{0:0.###}", resPitch)); // TO DO: Process Bar string log = string.Format("**********************************************************\nCompare : Your Path - {0}\n Ref Path - {1}\n", _yourPath, refPath); log += "Distance of 2 Vec Delta MFCC: "; //float resMFCC = DTWUtilWrapper.DistanceOf2Array3D(yourmfcc.Mfcc, refmfcc.Mfcc, true); double dis = DTWUtilWrapper.DistanceOf2Vector(_yourMfcc.Mfcc, _refMfcc.Mfcc, false); double fac = _yourMfcc.Mfcc.Count > _refMfcc.Mfcc.Count ? _refMfcc.Mfcc.Count : _yourMfcc.Mfcc.Count; double cos = dis / fac; //log += string.Format("Dis MFCC: {0:0.###} Score MFCC: {1:0.###}\n", 10 *dis / fac, -4.51297 * Math.Log10(-0.083653 * dis / fac + 1)); log += string.Format("Dis MFCC: {0:0.###} Cos {1:0.###} \n", cos, ScoreMath.Score(cos)); // TO DO: Process Bar log += "Distance of 2 Vec Pitch: "; double resPitch = DTWUtilWrapper.DistanceOf2Vector(_yourPitch.Pitchs, _refPitch.Pitchs, true); double facD = _refPitch.Pitchs.Count > _yourPitch.Pitchs.Count ? _yourPitch.Pitchs.Count : _refPitch.Pitchs.Count; double cosp = resPitch / facD; log += string.Format("{0:0.###} \n", cosp); // log += string.Format(" Score {0:0.###} {1:0.###} {2:0.###} \n", ); // TO DO: Process Bar //log += "Distance of Component MFCC:\n"; List <double> res = DTWUtilWrapper.DistanceOf2Array3DHorizon(_yourMfcc.Mfcc, _refMfcc.Mfcc, false); _mfccViewer.MFCC = res; //for (int i = 0; i < res.Count; i++) { // log += string.Format(" {0}: {1}\n", i, res[i]); //} LogUtil.Info(log); ShowValueCostMFCC(string.Format("{0:0.###}", ScoreMath.Score(cos))); ShowValueCostPitch(string.Format("{0:0.###}", resPitch)); } }
public string Reg(string path, int start, int end) { if (_words == null || _words.Count == 0) { return(" Models Failed"); } WavFileWrapper Wav = new WavFileWrapper(path); LogUtil.Info("*******************Reg*******************\n"); LogUtil.Info("Load Wave: {0}\n", path); if (Wav.Load()) { Wav.NormalizeWave(1.0f); LogUtil.Info("Load Wave: {0} -- OK\n", path); if (VCContext.Instance.MFCCOptions.ShiftSampleToZero) { LogUtil.Info("Shift Sample To Zero: -- -- OK\n"); Wav.ShifToZero(); } Wav.SelectedWave((uint)start, (uint)end); MFCCWrapper Mfcc = new MFCCWrapper(Wav, VCContext.Instance.MFCCOptions.TimeFrame, VCContext.Instance.MFCCOptions.TimeShift, VCContext.Instance.MFCCOptions.CepFilter, VCContext.Instance.MFCCOptions.LowFreq, VCContext.Instance.MFCCOptions.HighFreq, VCContext.Instance.MFCCOptions.NumCeps, 2); bool res = Mfcc.Process(); List <List <double> > data = null; if (res) { switch (VCContext.Instance.MFCCOptions.TrainCofficientType) { case 0: data = Mfcc.Mfcc; break; case 1: data = Mfcc.DetalMfcc; break; case 2: data = Mfcc.DoubleDetalMfcc; break; default: data = Mfcc.Mfcc; break; } LogUtil.Info("Load Wave: {0} Process MFCC -- OK\n", path); int reg = 0; double max = _models[reg].LogProbability(data); LogUtil.Info("HModel = {0} Log Value = {1}\n", _words[reg], max); for (int i = 1; i < _models.Count; i++) { double cur = _models[i].LogProbability(data); LogUtil.Info("HModel = {0} Log Value = {1}\n", _words[i], cur); if (max < cur) { max = cur; reg = i; } } LogUtil.Info("HModel = {0} Log Value = {1} Reg = {2}\n", _words[reg], max, _words[reg]); return(_words[reg]); } else { LogUtil.Info("Load Wave: {0} -- FAILED\n", path); } } return("NONE"); }
public bool Train() { _words = new List <string>(); _hmms = new List <string>(); _models = new List <HMMWrapper>(); foreach (TrainFilesCarrier.TrainFileRow ent in tbEntry) { if (!_words.Contains(ent.Word)) { _words.Add(ent.Word); LogUtil.Info("Word : {0}\n", ent.Word); } } foreach (string word in _words) { List <string> files = new List <string>(); LogUtil.Info("List File for Word : {0}\n", word); VCDir.CreateDirectory(VCDir.Instance.TrainDirMFCC + word); VCDir.CreateDirectory(VCDir.Instance.TrainDirHMM); foreach (TrainFilesCarrier.TrainFileRow ent in tbEntry) { if (word.Equals(ent.Word)) { string audio = VCDir.Instance.TrainDirAudio + ent.Path; string mfcc = VCDir.Instance.TrainDirMFCC + ent.Path; WavFileWrapper Wav = new WavFileWrapper(audio); if (Wav.Load()) { Wav.NormalizeWave(1.0f); if (VCContext.Instance.MFCCOptions.ShiftSampleToZero) { Wav.ShifToZero(); } Wav.SelectedWave((uint)ent.Start, (uint)ent.End); MFCCWrapper Mfcc = new MFCCWrapper(Wav, VCContext.Instance.MFCCOptions.TimeFrame, VCContext.Instance.MFCCOptions.TimeShift, VCContext.Instance.MFCCOptions.CepFilter, VCContext.Instance.MFCCOptions.LowFreq, VCContext.Instance.MFCCOptions.HighFreq, VCContext.Instance.MFCCOptions.NumCeps, 2); Mfcc.UserStandardization = VCContext.Instance.MFCCOptions.UseStandardization; bool res = Mfcc.Process(); res &= Mfcc.SaveMFCC(mfcc + ".Mfcc" + ".xml"); res &= Mfcc.SaveDeltaMFCC(mfcc + ".Delta" + ".xml"); res &= Mfcc.SaveDoubleMFCC(mfcc + ".Double" + ".xml"); if (res) { switch (VCContext.Instance.MFCCOptions.TrainCofficientType) { case 0: files.Add(mfcc + ".Mfcc" + ".xml"); break; case 1: files.Add(mfcc + ".Delta" + ".xml"); break; case 2: files.Add(mfcc + ".Double" + ".xml"); break; } } LogUtil.Info("File : W - {0} Path - {1} MFCC process - {2}\n", ent.Word, VCDir.Instance.TrainDirMFCC + ent.Path + ".xml", (res) ? "Completed" : "Failed"); } } } HMMWrapper hmm = new HMMWrapper(VCContext.Instance.MFCCOptions.TrainHMMState, VCContext.Instance.MFCCOptions.TrainGMMComponent, VCContext.Instance.MFCCOptions.TrainGMMCovVar); bool ok = hmm.Trainning(files); LogUtil.Info("Train word: {0} - {1}\n", word, (ok)? "Completed": "Failed"); if (ok) { hmm.Save(VCDir.Instance.TrainDirHMM + word + ".xml"); _models.Add(hmm); _hmms.Add(word + ".xml"); LogUtil.Info("Save {0} Model to {1}\n", word, VCDir.Instance.TrainDirHMM + word + ".xml"); } } Save(VCDir.Instance.TrainXmlFile); return(true); }
private void bgw_DoWork(object sender, DoWorkEventArgs e) { bool reg = (bool)e.Argument; if (_yourChanged) { _yourWav = new WavFileWrapper(_yourPath); if (_yourWav.Load()) { _yourWav.NormalizeWave(1.0); option = VCContext.Instance.MFCCOptions; LogUtil.Info("Load Wave: {0} -- OK\n", _yourPath); if (option.ShiftSampleToZero) { LogUtil.Info("Shift Sample To Zero: -- -- OK\n"); _yourWav.ShifToZero(); } int size = _yourWav.FullData.Count; uint startPnt = (uint)(_startSelected * size); uint endPnt = (uint)(_endSelected * size); Debug.WriteLine("Select Data voice: Start {0} End {1}", startPnt, endPnt); _yourWav.SelectedWave(startPnt, endPnt); _yourMfcc = new MFCCWrapper(_yourWav, option.TimeFrame, option.TimeShift, option.CepFilter, option.LowFreq, option.HighFreq, option.NumCeps, 4); _yourMfcc.UserStandardization = option.UseStandardization; _yourMfcc.Process(); _yourPitch = new PitchWrapper(_yourWav, option.PitchTimeFrame, option.PitchTimeShift, option.PitchLowFreq, option.PitchHighFreq, option.PitchType, option.DropUnPitch); if (option.UseMedian) { _yourPitch.SetMedianWindowSize(option.MedianWindow); } _yourPitch.Process(); } } if (_yourMfcc != null && _yourMfcc.ProcessDone) { // TO DO: Process Bar SetDataChart(FormTag.YOUR_WAVE); SetDataChart(FormTag.YOUR_MFCC); SetDataChart(FormTag.YOUR_FREQ); SetDataChart(FormTag.YOUR_DOUBLE); SetDataChart(FormTag.YOUR_DETAL); SetDataChart(FormTag.YOUR_PITCH); } e.Result = reg; if (reg) { if (_yourMfcc != null) { List <List <double> > data = null; switch (VCContext.Instance.MFCCOptions.TrainCofficientType) { case 0: data = _yourMfcc.Mfcc; break; case 1: data = _yourMfcc.DetalMfcc; break; case 2: data = _yourMfcc.DoubleDetalMfcc; break; } Action act = new Action(() => { reg_lb.Text = _trainTask.Reg(data); }); Invoke(act); } } }
private void showWaveSound() { _yourWav = new WavFileWrapper(_yourPath); if (_yourWav.Load()) { waveViewer.WaveData = _yourWav.FullData; waveViewer.FitToScreen(); vadVoice(); if (_regMode) { uint size = (uint)_yourWav.FullData.Count; uint begin = (uint)(_startSelected * size); uint end = (uint)(_endSelected * size); _yourWav.NormalizeWave(1.0f); option = VCContext.Instance.MFCCOptions; LogUtil.Info("Load Wave: {0} -- OK\n", _yourPath); if (option.ShiftSampleToZero) { LogUtil.Info("Shift Sample To Zero: -- -- OK\n"); _yourWav.ShifToZero(); } Debug.WriteLine("Select Data voice: Start {0} End {1}", begin, end); _yourWav.SelectedWave(begin, end); _yourMfcc = new MFCCWrapper(_yourWav, option.TimeFrame, option.TimeShift, option.CepFilter, option.LowFreq, option.HighFreq, option.NumCeps, 4); _yourMfcc.UserStandardization = option.UseStandardization; if (_yourMfcc != null && _yourMfcc.Process()) { List <List <double> > data = null; switch (VCContext.Instance.MFCCOptions.TrainCofficientType) { case 0: data = _yourMfcc.Mfcc; break; case 1: data = _yourMfcc.DetalMfcc; break; case 2: data = _yourMfcc.DoubleDetalMfcc; break; } Action act = new Action(() => { reg_lb.Text = _trainTask.Reg(data); }); Invoke(act); } else { MessageBox.Show(" Cant Extraction file {0}\n", _yourPath); } } } }
private void bgw_DoWork(object sender, DoWorkEventArgs e) { bool refpeak = false; if (refChanged) { _refWav = new WavFileWrapper(refPath); //_refWav = new WavFileWrapper(@"C:\Users\Jimmy\Desktop\Human Voice Detector\HumanVoiceDetector\bin\Debug\Echo IVRresult_id=21774831&t=audio&r=1434196481.wav"); ; if (_refWav.Load()) { refmfcc = new MFCCWrapper(_refWav, option.TimeFrame, option.TimeShift, option.CepFilter, option.LowFreq, option.HighFreq, option.NumCeps, 4); if (option.NormalizeAudio) { refpeak = option.NormalizeAudio; } refmfcc.Process(); refpitch = new PitchWrapper(_refWav, option.PitchTimeFrame, option.PitchTimeShift, option.PitchLowFreq, option.PitchHighFreq, option.PitchType); refpitch.Process(); // Debug.WriteLine("Process Ref file completed Time {0}", DateTime.Now); } } if (refmfcc != null && refmfcc.ProcessDone) { SetDataChart(FormTag.REF_WAVE); //Debug.WriteLine("Process Ref: Draw Wave Done {0}", DateTime.Now); SetDataChart(FormTag.REF_FREQ); //Debug.WriteLine("Process Ref: Draw Freq Done {0}", DateTime.Now); SetDataChart(FormTag.REF_MFCC); //Debug.WriteLine("Process Ref: Draw MFCC Done {0}", DateTime.Now); SetDataChart(FormTag.REF_DOUBLE); //Debug.WriteLine("Process Ref: Draw Double Done {0}", DateTime.Now); SetDataChart(FormTag.REF_DETAL); //Debug.WriteLine("Process Ref: Draw Detal Done {0}", DateTime.Now); SetDataChart(FormTag.REF_PITCH); //Debug.WriteLine("Process Ref: Draw Pitch Done {0}", DateTime.Now); } Debug.WriteLine("Set data chart Ref Ref Done {0}", DateTime.Now); if (yourChanged) { _yourWav = new WavFileWrapper(yourPath); if (_yourWav.Load()) { yourmfcc = new MFCCWrapper(_yourWav, option.TimeFrame, option.TimeShift, option.CepFilter, option.LowFreq, option.HighFreq, option.NumCeps, 4); if (widthWave != 0) { uint startPnt = (uint)((float)startSelected / widthWave * _yourWav.FullData.Count()); uint endPnt = (uint)((float)endSelected / widthWave * _yourWav.FullData.Count()); _yourWav.SelectedWave(startPnt, endPnt); } if (refpeak) { _yourWav.NormalizeWave(peakRef); } yourmfcc.Process(); yourpitch = new PitchWrapper(_yourWav, option.PitchTimeFrame, option.PitchTimeShift, option.PitchLowFreq, option.PitchHighFreq, option.PitchType); yourpitch.Process(); } } if (yourmfcc != null && yourmfcc.ProcessDone) { // TO DO: Process Bar SetDataChart(FormTag.YOUR_WAVE); SetDataChart(FormTag.YOUR_MFCC); SetDataChart(FormTag.YOUR_FREQ); SetDataChart(FormTag.YOUR_DOUBLE); SetDataChart(FormTag.YOUR_DETAL); SetDataChart(FormTag.YOUR_PITCH); } if (yourmfcc != null && refmfcc != null && yourmfcc.ProcessDone && refmfcc.ProcessDone) { // TO DO: Process Bar string log = string.Format("\nCompare : Your Path - {0}\n Ref Path - {1}\n", yourPath, refPath); log += "Distance of 2 Vec Delta MFCC: "; float resMFCC = DTWUtilWrapper.DistanceOf2Array3D(yourmfcc.Mfcc, refmfcc.Mfcc); ShowValueCostMFCC(string.Format("{0:0.###}", resMFCC)); log += string.Format("{0:0.###}", resMFCC); // TO DO: Process Bar log += "Distance of 2 Vec Pitch: "; float resPitch = DTWUtilWrapper.DistanceOf2Vector(yourpitch.Pitchs, refpitch.Pitchs); log += string.Format("{0:0.###}", resPitch); // TO DO: Process Bar log += "Compute DistanceOf2Array3DHorizon:"; List <float> res = DTWUtilWrapper.DistanceOf2Array3DHorizon(yourmfcc.Mfcc, refmfcc.Mfcc); _mfccViewer.MFCC = res; for (int i = 0; i < res.Count; i++) { log += string.Format(" {0}: {1}", i, res[i]); } LogUtil.WriteLog(LogLevel.INFO, log); ShowValueCostPitch(string.Format("{0:0.###}", resPitch)); } }