akhaliq3
spaces demo
24829a1
raw
history blame
2.21 kB
import math
import numpy as np
import librosa
import vocoder.hparams as hp
from scipy.signal import lfilter
import soundfile as sf
def label_2_float(x, bits) :
return 2 * x / (2**bits - 1.) - 1.
def float_2_label(x, bits) :
assert abs(x).max() <= 1.0
x = (x + 1.) * (2**bits - 1) / 2
return x.clip(0, 2**bits - 1)
def load_wav(path) :
return librosa.load(str(path), sr=hp.sample_rate)[0]
def save_wav(x, path) :
sf.write(path, x.astype(np.float32), hp.sample_rate)
def split_signal(x) :
unsigned = x + 2**15
coarse = unsigned // 256
fine = unsigned % 256
return coarse, fine
def combine_signal(coarse, fine) :
return coarse * 256 + fine - 2**15
def encode_16bits(x) :
return np.clip(x * 2**15, -2**15, 2**15 - 1).astype(np.int16)
mel_basis = None
def linear_to_mel(spectrogram):
global mel_basis
if mel_basis is None:
mel_basis = build_mel_basis()
return np.dot(mel_basis, spectrogram)
def build_mel_basis():
return librosa.filters.mel(hp.sample_rate, hp.n_fft, n_mels=hp.num_mels, fmin=hp.fmin)
def normalize(S):
return np.clip((S - hp.min_level_db) / -hp.min_level_db, 0, 1)
def denormalize(S):
return (np.clip(S, 0, 1) * -hp.min_level_db) + hp.min_level_db
def amp_to_db(x):
return 20 * np.log10(np.maximum(1e-5, x))
def db_to_amp(x):
return np.power(10.0, x * 0.05)
def spectrogram(y):
D = stft(y)
S = amp_to_db(np.abs(D)) - hp.ref_level_db
return normalize(S)
def melspectrogram(y):
D = stft(y)
S = amp_to_db(linear_to_mel(np.abs(D)))
return normalize(S)
def stft(y):
return librosa.stft(y=y, n_fft=hp.n_fft, hop_length=hp.hop_length, win_length=hp.win_length)
def pre_emphasis(x):
return lfilter([1, -hp.preemphasis], [1], x)
def de_emphasis(x):
return lfilter([1], [1, -hp.preemphasis], x)
def encode_mu_law(x, mu) :
mu = mu - 1
fx = np.sign(x) * np.log(1 + mu * np.abs(x)) / np.log(1 + mu)
return np.floor((fx + 1) / 2 * mu + 0.5)
def decode_mu_law(y, mu, from_labels=True) :
if from_labels:
y = label_2_float(y, math.log2(mu))
mu = mu - 1
x = np.sign(y) / mu * ((1 + mu) ** np.abs(y) - 1)
return x