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utils.py
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utils.py
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import torch
import torch.nn as nn
import torch.nn.functional as F
import numpy as np
import os
import hparams
def process_text(train_text_path):
with open(train_text_path, "r", encoding="utf-8") as f:
txt = []
for line in f.readlines():
txt.append(line)
return txt
def get_param_num(model):
num_param = sum(param.numel() for param in model.parameters())
return num_param
def get_mask_from_lengths(lengths, max_len=None):
if max_len == None:
max_len = torch.max(lengths).item()
ids = torch.arange(0, max_len, out=torch.cuda.LongTensor(max_len))
mask = (ids < lengths.unsqueeze(1)).bool()
return mask
def get_WaveGlow():
waveglow_path = os.path.join("waveglow", "pretrained_model")
waveglow_path = os.path.join(waveglow_path, "waveglow_256channels.pt")
wave_glow = torch.load(waveglow_path)['model']
wave_glow = wave_glow.remove_weightnorm(wave_glow)
wave_glow.cuda().eval()
for m in wave_glow.modules():
if 'Conv' in str(type(m)):
setattr(m, 'padding_mode', 'zeros')
return wave_glow
def pad_1D(inputs, PAD=0):
def pad_data(x, length, PAD):
x_padded = np.pad(x, (0, length - x.shape[0]),
mode='constant',
constant_values=PAD)
return x_padded
max_len = max((len(x) for x in inputs))
padded = np.stack([pad_data(x, max_len, PAD) for x in inputs])
return padded
def pad_1D_tensor(inputs, PAD=0):
def pad_data(x, length, PAD):
x_padded = F.pad(x, (0, length - x.shape[0]))
return x_padded
max_len = max((len(x) for x in inputs))
padded = torch.stack([pad_data(x, max_len, PAD) for x in inputs])
return padded
def pad_2D(inputs, maxlen=None):
def pad(x, max_len):
PAD = 0
if np.shape(x)[0] > max_len:
raise ValueError("not max_len")
s = np.shape(x)[1]
x_padded = np.pad(x, (0, max_len - np.shape(x)[0]),
mode='constant',
constant_values=PAD)
return x_padded[:, :s]
if maxlen:
output = np.stack([pad(x, maxlen) for x in inputs])
else:
max_len = max(np.shape(x)[0] for x in inputs)
output = np.stack([pad(x, max_len) for x in inputs])
return output
def pad_2D_tensor(inputs, maxlen=None):
def pad(x, max_len):
if x.size(0) > max_len:
raise ValueError("not max_len")
s = x.size(1)
x_padded = F.pad(x, (0, 0, 0, max_len-x.size(0)))
return x_padded[:, :s]
if maxlen:
output = torch.stack([pad(x, maxlen) for x in inputs])
else:
max_len = max(x.size(0) for x in inputs)
output = torch.stack([pad(x, max_len) for x in inputs])
return output
def pad(input_ele, mel_max_length=None):
if mel_max_length:
out_list = list()
max_len = mel_max_length
for i, batch in enumerate(input_ele):
one_batch_padded = F.pad(
batch, (0, 0, 0, max_len-batch.size(0)), "constant", 0.0)
out_list.append(one_batch_padded)
out_padded = torch.stack(out_list)
return out_padded
else:
out_list = list()
max_len = max([input_ele[i].size(0)for i in range(len(input_ele))])
for i, batch in enumerate(input_ele):
one_batch_padded = F.pad(
batch, (0, 0, 0, max_len-batch.size(0)), "constant", 0.0)
out_list.append(one_batch_padded)
out_padded = torch.stack(out_list)
return out_padded