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Fork of https://github.com/alokprasad/fastspeech_squeezewave to also fix denoising in squeezewave
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fastspeech_squeezewave/FastSpeech/synthesis.py

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Original Fastspeech and Squeezewave
4 years ago
 
  1. import torch
  2. import torch.nn as nn
  3. import matplotlib
  4. import matplotlib.pyplot as plt
  5. import numpy as np
  6. import time
  7. import os
  8. 

  9. from fastspeech import FastSpeech
  10. from text import text_to_sequence
  11. import hparams as hp
  12. import utils
  13. import audio as Audio
  14. import glow
  15. import waveglow
  16. 

  17. device = torch.device('cuda' if torch.cuda.is_available() else 'cpu')
  18. 

  19. 

  20. def get_FastSpeech(num):
  21.     checkpoint_path = "checkpoint_" + str(num) + ".pth.tar"
  22.     model = nn.DataParallel(FastSpeech()).to(device)
  23.     model.load_state_dict(torch.load(os.path.join(
  24.         hp.checkpoint_path, checkpoint_path))['model'])
  25.     model.eval()
  26. 

  27.     return model
  28. 

  29. 

  30. def synthesis(model, text, alpha=1.0):
  31.     text = np.array(text_to_sequence(text, hp.text_cleaners))
  32.     text = np.stack([text])
  33. 

  34.     src_pos = np.array([i+1 for i in range(text.shape[1])])
  35.     src_pos = np.stack([src_pos])
  36.     with torch.no_grad():
  37.         sequence = torch.autograd.Variable(
  38.             torch.from_numpy(text)).cuda().long()
  39.         src_pos = torch.autograd.Variable(
  40.             torch.from_numpy(src_pos)).cuda().long()
  41. 

  42.         mel, mel_postnet = model.module.forward(sequence, src_pos, alpha=alpha)
  43. 

  44.         return mel[0].cpu().transpose(0, 1), \
  45.             mel_postnet[0].cpu().transpose(0, 1), \
  46.             mel.transpose(1, 2), \
  47.             mel_postnet.transpose(1, 2)
  48. 

  49. 

  50. if __name__ == "__main__":
  51.     # Test
  52.     num = 112000
  53.     alpha = 1.0
  54.     model = get_FastSpeech(num)
  55.     words = "Let’s go out to the airport. The plane landed ten minutes ago."
  56. 

  57.     mel, mel_postnet, mel_torch, mel_postnet_torch = synthesis(
  58.         model, words, alpha=alpha)
  59. 

  60.     if not os.path.exists("results"):
  61.         os.mkdir("results")
  62.     Audio.tools.inv_mel_spec(mel_postnet, os.path.join(
  63.         "results", words + "_" + str(num) + "_griffin_lim.wav"))
  64. 

  65.     wave_glow = utils.get_WaveGlow()
  66.     waveglow.inference.inference(mel_postnet_torch, wave_glow, os.path.join(
  67.         "results", words + "_" + str(num) + "_waveglow.wav"))
  68. 

  69.     tacotron2 = utils.get_Tacotron2()
  70.     mel_tac2, _, _ = utils.load_data_from_tacotron2(words, tacotron2)
  71.     waveglow.inference.inference(torch.stack([torch.from_numpy(
  72.         mel_tac2).cuda()]), wave_glow, os.path.join("results", "tacotron2.wav"))
  73. 

  74.     utils.plot_data([mel.numpy(), mel_postnet.numpy(), mel_tac2])