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create_training_data.py
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create_training_data.py
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import argparse
from pathlib import Path
import pickle
import numpy as np
from p_tqdm import p_uimap, p_umap
from utils.logging_utils import SummaryManager
from data.text import TextToTokens
from data.datasets import DataReader
from utils.training_config_manager import TrainingConfigManager
from data.audio import Audio
from data.text.symbols import _alphabet
np.random.seed(42)
parser = argparse.ArgumentParser()
parser.add_argument('--config', type=str, required=True)
parser.add_argument('--skip_phonemes', action='store_true')
parser.add_argument('--skip_mels', action='store_true')
args = parser.parse_args()
for arg in vars(args):
print('{}: {}'.format(arg, getattr(args, arg)))
cm = TrainingConfigManager(args.config, aligner=True)
cm.create_remove_dirs()
metadatareader = DataReader.from_config(cm, kind='original', scan_wavs=True)
summary_manager = SummaryManager(model=None, log_dir=cm.log_dir / 'data_preprocessing', config=cm.config,
default_writer='data_preprocessing')
file_ids_from_wavs = list(metadatareader.wav_paths.keys())
print(f"Reading wavs from {metadatareader.wav_directory}")
print(f"Reading metadata from {metadatareader.metadata_path}")
print(f'\nFound {len(metadatareader.filenames)} metadata lines.')
print(f'\nFound {len(file_ids_from_wavs)} wav files.')
cross_file_ids = [fid for fid in file_ids_from_wavs if fid in metadatareader.filenames]
print(f'\nThere are {len(cross_file_ids)} wav file names that correspond to metadata lines.')
if not args.skip_mels:
def process_wav(wav_path: Path):
file_name = wav_path.stem
y, sr = audio.load_wav(str(wav_path))
pitch = audio.extract_pitch(y)
mel = audio.mel_spectrogram(y)
assert mel.shape[1] == audio.config['mel_channels'], len(mel.shape) == 2
assert mel.shape[0] == pitch.shape[0], f'{mel.shape[0]} == {pitch.shape[0]} (wav {y.shape})'
mel_path = (cm.mel_dir / file_name).with_suffix('.npy')
pitch_path = (cm.pitch_dir / file_name).with_suffix('.npy')
np.save(mel_path, mel)
np.save(pitch_path, pitch)
return {'fname': file_name, 'mel.len': mel.shape[0], 'pitch.path': pitch_path, 'pitch': pitch}
print(f"\nMels will be stored stored under")
print(f"{cm.mel_dir}")
audio = Audio.from_config(config=cm.config)
wav_files = [metadatareader.wav_paths[k] for k in cross_file_ids]
len_dict = {}
remove_files = []
mel_lens = []
pitches = {}
wav_iter = p_uimap(process_wav, wav_files)
for out_dict in wav_iter:
len_dict.update({out_dict['fname']: out_dict['mel.len']})
pitches.update({out_dict['pitch.path']: out_dict['pitch']})
if out_dict['mel.len'] > cm.config['max_mel_len'] or out_dict['mel.len'] < cm.config['min_mel_len']:
remove_files.append(out_dict['fname'])
else:
mel_lens.append(out_dict['mel.len'])
def normalize_pitch_vectors(pitch_vecs):
nonzeros = np.concatenate([v[np.where(v != 0.0)[0]]
for v in pitch_vecs.values()])
mean, std = np.mean(nonzeros), np.std(nonzeros)
return mean, std
def process_pitches(item: tuple):
fname, pitch = item
zero_idxs = np.where(pitch == 0.0)[0]
pitch -= mean
pitch /= std
pitch[zero_idxs] = 0.0
np.save(fname, pitch)
mean, std = normalize_pitch_vectors(pitches)
pickle.dump({'pitch_mean': mean, 'pitch_std': std}, open(cm.data_dir / 'pitch_stats.pkl', 'wb'))
pitch_iter = p_umap(process_pitches, pitches.items())
pickle.dump(len_dict, open(cm.data_dir / 'mel_len.pkl', 'wb'))
pickle.dump(remove_files, open(cm.data_dir / 'under-over_sized_mels.pkl', 'wb'))
summary_manager.add_histogram('Mel Lengths', values=np.array(mel_lens))
total_mel_len = np.sum(mel_lens)
total_wav_len = total_mel_len * audio.config['hop_length']
summary_manager.display_scalar('Total duration (hours)',
scalar_value=total_wav_len / audio.config['sampling_rate'] / 60. ** 2)
if not args.skip_phonemes:
remove_files = pickle.load(open(cm.data_dir / 'under-over_sized_mels.pkl', 'rb'))
phonemized_metadata_path = cm.phonemized_metadata_path
train_metadata_path = cm.train_metadata_path
test_metadata_path = cm.valid_metadata_path
print(f'\nReading metadata from {metadatareader.metadata_path}')
print(f'\nFound {len(metadatareader.filenames)} lines.')
filter_metadata = []
for fname in cross_file_ids:
item = metadatareader.text_dict[fname]
non_p = [c for c in item if c in _alphabet]
if len(non_p) < 1:
filter_metadata.append(fname)
if len(filter_metadata) > 0:
print(f'Removing {len(filter_metadata)} suspiciously short line(s):')
for fname in filter_metadata:
print(f'{fname}: {metadatareader.text_dict[fname]}')
print(f'\nRemoving {len(remove_files)} line(s) due to mel filtering.')
remove_files += filter_metadata
metadata_file_ids = [fname for fname in cross_file_ids if fname not in remove_files]
metadata_len = len(metadata_file_ids)
sample_items = np.random.choice(metadata_file_ids, 5)
test_len = cm.config['n_test']
train_len = metadata_len - test_len
print(f'\nMetadata contains {metadata_len} lines.')
print(f'\nFiles will be stored under {cm.data_dir}')
print(f' - all: {phonemized_metadata_path}')
print(f' - {train_len} training lines: {train_metadata_path}')
print(f' - {test_len} validation lines: {test_metadata_path}')
print('\nMetadata samples:')
for i in sample_items:
print(f'{i}:{metadatareader.text_dict[i]}')
summary_manager.add_text(f'{i}/text', text=metadatareader.text_dict[i])
# run cleaner on raw text
text_proc = TextToTokens.default(cm.config['phoneme_language'], add_start_end=False,
with_stress=cm.config['with_stress'], model_breathing=cm.config['model_breathing'],
njobs=1)
def process_phonemes(file_id):
text = metadatareader.text_dict[file_id]
try:
phon = text_proc.phonemizer(text)
except Exception as e:
print(f'{e}\nFile id {file_id}')
raise BrokenPipeError
return (file_id, phon)
print('\nPHONEMIZING')
phonemized_data = {}
phon_iter = p_uimap(process_phonemes, metadata_file_ids)
for (file_id, phonemes) in phon_iter:
phonemized_data.update({file_id: phonemes})
print('\nPhonemized metadata samples:')
for i in sample_items:
print(f'{i}:{phonemized_data[i]}')
summary_manager.add_text(f'{i}/phonemes', text=phonemized_data[i])
new_metadata = [f'{k}|{v}\n' for k, v in phonemized_data.items()]
shuffled_metadata = np.random.permutation(new_metadata)
train_metadata = shuffled_metadata[0:train_len]
test_metadata = shuffled_metadata[-test_len:]
with open(phonemized_metadata_path, 'w+', encoding='utf-8') as file:
file.writelines(new_metadata)
with open(train_metadata_path, 'w+', encoding='utf-8') as file:
file.writelines(train_metadata)
with open(test_metadata_path, 'w+', encoding='utf-8') as file:
file.writelines(test_metadata)
# some checks
assert metadata_len == len(set(list(phonemized_data.keys()))), \
f'Length of metadata ({metadata_len}) does not match the length of the phoneme array ({len(set(list(phonemized_data.keys())))}). Check for empty text lines in metadata.'
assert len(train_metadata) + len(test_metadata) == metadata_len, \
f'Train and/or validation lengths incorrect. ({len(train_metadata)} + {len(test_metadata)} != {metadata_len})'
print('\nDone')