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preprocess.py
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preprocess.py
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import glob
from random import Random
from utils.display import *
from utils.dsp import *
from utils import hparams as hp
from multiprocessing import Pool, cpu_count
from utils.paths import Paths
import pickle
import argparse
from utils.text import clean_text
from utils.text.recipes import ljspeech
from utils.files import get_files, pickle_binary
from pathlib import Path
# Helper functions for argument types
def valid_n_workers(num):
n = int(num)
if n < 1:
raise argparse.ArgumentTypeError('%r must be an integer greater than 0' % num)
return n
parser = argparse.ArgumentParser(description='Preprocessing for WaveRNN and Tacotron')
parser.add_argument('--path', '-p', help='directly point to dataset path (overrides hparams.wav_path')
parser.add_argument('--extension', '-e', metavar='EXT', default='.wav', help='file extension to search for in dataset folder')
parser.add_argument('--num_workers', '-w', metavar='N', type=valid_n_workers, default=cpu_count()-1, help='The number of worker threads to use for preprocessing')
parser.add_argument('--hp_file', metavar='FILE', default='hparams.py', help='The file to use for the hyperparameters')
args = parser.parse_args()
hp.configure(args.hp_file) # Load hparams from file
if args.path is None:
args.path = hp.wav_path
extension = args.extension
path = args.path
def convert_file(path: Path):
y = load_wav(path)
peak = np.abs(y).max()
if hp.peak_norm or peak > 1.0:
y /= peak
mel = melspectrogram(y)
if hp.voc_mode == 'RAW':
quant = encode_mu_law(y, mu=2**hp.bits) if hp.mu_law else float_2_label(y, bits=hp.bits)
elif hp.voc_mode == 'MOL':
quant = float_2_label(y, bits=16)
return mel.astype(np.float32), quant.astype(np.int64)
def process_wav(path: Path):
wav_id = path.stem
m, x = convert_file(path)
np.save(paths.mel/f'{wav_id}.npy', m, allow_pickle=False)
np.save(paths.quant/f'{wav_id}.npy', x, allow_pickle=False)
text = text_dict[wav_id]
text = clean_text(text)
return wav_id, m.shape[-1], text
wav_files = get_files(path, extension)
paths = Paths(hp.data_path, hp.voc_model_id, hp.tts_model_id)
print(f'\n{len(wav_files)} {extension[1:]} files found in "{path}"\n')
if len(wav_files) == 0:
print('Please point wav_path in hparams.py to your dataset,')
print('or use the --path option.\n')
else:
text_dict = ljspeech(path)
n_workers = max(1, args.num_workers)
simple_table([
('Sample Rate', hp.sample_rate),
('Bit Depth', hp.bits),
('Mu Law', hp.mu_law),
('Hop Length', hp.hop_length),
('CPU Usage', f'{n_workers}/{cpu_count()}'),
('Num Validation', hp.n_val)
])
pool = Pool(processes=n_workers)
dataset = []
cleaned_texts = []
for i, (item_id, length, cleaned_text) in enumerate(pool.imap_unordered(process_wav, wav_files), 1):
if item_id in text_dict:
dataset += [(item_id, length)]
cleaned_texts += [(item_id, cleaned_text)]
bar = progbar(i, len(wav_files))
message = f'{bar} {i}/{len(wav_files)} '
stream(message)
random = Random(hp.seed)
random.shuffle(dataset)
train_dataset = dataset[hp.n_val:]
val_dataset = dataset[:hp.n_val]
# sort val dataset longest to shortest
val_dataset.sort(key=lambda d: -d[1])
for id, text in cleaned_texts:
text_dict[id] = text
pickle_binary(text_dict, paths.data/'text_dict.pkl')
pickle_binary(train_dataset, paths.data/'train_dataset.pkl')
pickle_binary(val_dataset, paths.data/'val_dataset.pkl')
print('\n\nCompleted. Ready to run "python train_tacotron.py" or "python train_wavernn.py". \n')