| | |
|---|
| | | import numpy as np |
|---|
| | | import torch |
|---|
| | | import torchaudio |
|---|
| | | import librosa |
|---|
| | | import torchaudio.compliance.kaldi as kaldi |
|---|
| | | |
|---|
| | | |
|---|
| | |
|---|
| | | waveform = torch.from_numpy(waveform.reshape(1, -1)) |
|---|
| | | else: |
|---|
| | | # load pcm from wav, and resample |
|---|
| | | waveform, audio_sr = torchaudio.load(wav_file) |
|---|
| | | try: |
|---|
| | | waveform, audio_sr = torchaudio.load(wav_file) |
|---|
| | | except: |
|---|
| | | waveform, audio_sr = librosa.load(wav_file, dtype='float32') |
|---|
| | | if waveform.ndim == 2: |
|---|
| | | waveform = waveform[:, 0] |
|---|
| | | waveform = torch.tensor(np.expand_dims(waveform, axis=0)) |
|---|
| | | waveform = waveform * (1 << 15) |
|---|
| | | waveform = torch_resample(waveform, audio_sr, model_sr) |
|---|
| | | |
|---|
| | |
|---|
| | | |
|---|
| | | |
|---|
| | | def wav2num_frame(wav_path, frontend_conf): |
|---|
| | | waveform, sampling_rate = torchaudio.load(wav_path) |
|---|
| | | try: |
|---|
| | | waveform, sampling_rate = torchaudio.load(wav_path) |
|---|
| | | except: |
|---|
| | | waveform, sampling_rate = librosa.load(wav_path) |
|---|
| | | waveform = torch.tensor(np.expand_dims(waveform, axis=0)) |
|---|
| | | speech_length = (waveform.shape[1] / sampling_rate) * 1000. |
|---|
| | | n_frames = (waveform.shape[1] * 1000.0) / (sampling_rate * frontend_conf["frame_shift"] * frontend_conf["lfr_n"]) |
|---|
| | | feature_dim = frontend_conf["n_mels"] * frontend_conf["lfr_m"] |
|---|
| | |
|---|
| | | wav_path = os.path.join(split_dir, str(i + 1), "wav.scp") |
|---|
| | | text_path = os.path.join(split_dir, str(i + 1), "text") |
|---|
| | | f_data.write(wav_path + " " + text_path + "\n") |
|---|
| | | |
|---|
| | | def filter_wav_text(data_dir, dataset): |
|---|
| | | wav_file = os.path.join(data_dir,dataset,"wav.scp") |
|---|
| | | text_file = os.path.join(data_dir, dataset, "text") |
|---|
| | | with open(wav_file) as f_wav, open(text_file) as f_text: |
|---|
| | | wav_lines = f_wav.readlines() |
|---|
| | | text_lines = f_text.readlines() |
|---|
| | | os.rename(wav_file, "{}.bak".format(wav_file)) |
|---|
| | | os.rename(text_file, "{}.bak".format(text_file)) |
|---|
| | | wav_dict = {} |
|---|
| | | for line in wav_lines: |
|---|
| | | parts = line.strip().split() |
|---|
| | | if len(parts) != 2: |
|---|
| | | continue |
|---|
| | | sample_name, wav_path = parts |
|---|
| | | wav_dict[sample_name] = wav_path |
|---|
| | | text_dict = {} |
|---|
| | | for line in text_lines: |
|---|
| | | parts = line.strip().split() |
|---|
| | | if len(parts) < 2: |
|---|
| | | continue |
|---|
| | | sample_name = parts[0] |
|---|
| | | text_dict[sample_name] = " ".join(parts[1:]).lower() |
|---|
| | | filter_count = 0 |
|---|
| | | with open(wav_file, "w") as f_wav, open(text_file, "w") as f_text: |
|---|
| | | for sample_name, wav_path in wav_dict.items(): |
|---|
| | | if sample_name in text_dict.keys(): |
|---|
| | | f_wav.write(sample_name + " " + wav_path + "\n") |
|---|
| | | f_text.write(sample_name + " " + text_dict[sample_name] + "\n") |
|---|
| | | else: |
|---|
| | | filter_count += 1 |
|---|
| | | print("{}/{} samples in {} are filtered because of the mismatch between wav.scp and text".format(len(wav_lines), filter_count, dataset)) |
|---|
