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DiffSpeech / utils /audio /__init__.py

RayeRen

init

d1b91e7 almost 3 years ago

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	import librosa
	import numpy as np
	import pyloudnorm as pyln

	from utils.audio.vad import trim_long_silences


	def librosa_pad_lr(x, fsize, fshift, pad_sides=1):
	'''compute right padding (final frame) or both sides padding (first and final frames)
	'''
	assert pad_sides in (1, 2)
	# return int(fsize // 2)
	pad = (x.shape[0] // fshift + 1) * fshift - x.shape[0]
	if pad_sides == 1:
	return 0, pad
	else:
	return pad // 2, pad // 2 + pad % 2


	def amp_to_db(x):
	return 20 * np.log10(np.maximum(1e-5, x))


	def db_to_amp(x):
	return 10.0 ** (x * 0.05)


	def normalize(S, min_level_db):
	return (S - min_level_db) / -min_level_db


	def denormalize(D, min_level_db):
	return (D * -min_level_db) + min_level_db


	def librosa_wav2spec(wav_path,
	fft_size=1024,
	hop_size=256,
	win_length=1024,
	window="hann",
	num_mels=80,
	fmin=80,
	fmax=-1,
	eps=1e-6,
	sample_rate=22050,
	loud_norm=False,
	trim_long_sil=False):
	if isinstance(wav_path, str):
	if trim_long_sil:
	wav, _, _ = trim_long_silences(wav_path, sample_rate)
	else:
	wav, _ = librosa.core.load(wav_path, sr=sample_rate)
	else:
	wav = wav_path

	if loud_norm:
	meter = pyln.Meter(sample_rate) # create BS.1770 meter
	loudness = meter.integrated_loudness(wav)
	wav = pyln.normalize.loudness(wav, loudness, -22.0)
	if np.abs(wav).max() > 1:
	wav = wav / np.abs(wav).max()

	# get amplitude spectrogram
	x_stft = librosa.stft(wav, n_fft=fft_size, hop_length=hop_size,
	win_length=win_length, window=window, pad_mode="constant")
	linear_spc = np.abs(x_stft) # (n_bins, T)

	# get mel basis
	fmin = 0 if fmin == -1 else fmin
	fmax = sample_rate / 2 if fmax == -1 else fmax
	mel_basis = librosa.filters.mel(sample_rate, fft_size, num_mels, fmin, fmax)

	# calculate mel spec
	mel = mel_basis @ linear_spc
	mel = np.log10(np.maximum(eps, mel)) # (n_mel_bins, T)
	l_pad, r_pad = librosa_pad_lr(wav, fft_size, hop_size, 1)
	wav = np.pad(wav, (l_pad, r_pad), mode='constant', constant_values=0.0)
	wav = wav[:mel.shape[1] * hop_size]

	# log linear spec
	linear_spc = np.log10(np.maximum(eps, linear_spc))
	return {'wav': wav, 'mel': mel.T, 'linear': linear_spc.T, 'mel_basis': mel_basis}