DL-Art-School/codes/scripts/audio/gen/use_diffuse_tts.py

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import argparse
import os
import torch
import torchaudio
from data.audio.unsupervised_audio_dataset import load_audio
from scripts.audio.gen.speech_synthesis_utils import do_spectrogram_diffusion, \
load_discrete_vocoder_diffuser, wav_to_mel, convert_mel_to_codes
from utils.audio import plot_spectrogram
from utils.util import load_model_from_config
def ceil_multiple(base, multiple):
res = base % multiple
if res == 0:
return base
return base + (multiple - res)
if __name__ == '__main__':
parser = argparse.ArgumentParser()
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parser.add_argument('-opt', type=str, help='Path to options YAML file used to train the diffusion model', default='../options/train_diffusion_tts_medium.yml')
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parser.add_argument('-diffusion_model_name', type=str, help='Name of the diffusion model in opt.', default='generator')
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parser.add_argument('-diffusion_model_path', type=str, help='Path to saved model weights', default='X:\\dlas\\experiments\\train_diffusion_tts_medium\\models\\5200_generator.pth')
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parser.add_argument('-aligned_codes', type=str, help='Comma-delimited list of integer codes that defines text & prosody. Get this by apply W2V to an existing audio clip or from a bespoke generator.',
default='0,0,0,0,10,10,0,4,0,7,0,17,4,4,0,25,5,0,13,13,0,22,4,4,0,21,15,15,7,0,0,14,4,4,6,8,4,4,0,0,12,5,0,0,5,0,4,4,22,22,8,16,16,0,4,4,4,0,0,0,0,0,0,0') # Default: 'i am very glad to see you', libritts/train-clean-100/103/1241/103_1241_000017_000001.wav.
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parser.add_argument('-cond', type=str, help='Path to the conditioning input audio file.', default='Y:\\clips\\books1\\754_Dan Simmons - The Rise Of Endymion 356 of 450\\00026.wav')
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parser.add_argument('-diffusion_steps', type=int, help='Number of diffusion steps to perform to create the generate. Lower steps reduces quality, but >40 is generally pretty good.', default=100)
parser.add_argument('-output_path', type=str, help='Where to store outputs.', default='../results/use_diffuse_tts')
args = parser.parse_args()
os.makedirs(args.output_path, exist_ok=True)
print("Loading Diffusion Model..")
diffusion = load_model_from_config(args.opt, args.diffusion_model_name, also_load_savepoint=False, load_path=args.diffusion_model_path)
aligned_codes_compression_factor = 221 # Derived empirically for 11025Hz sample rate. Adjust if sample rate increases.
print("Loading data..")
aligned_codes = torch.tensor([int(s) for s in args.aligned_codes.split(',')]).cuda()
diffuser = load_discrete_vocoder_diffuser(desired_diffusion_steps=args.diffusion_steps)
cond = load_audio(args.cond, 11025).cuda()
if cond.shape[-1] > 44000:
cond = cond[:,:44000]
with torch.no_grad():
print("Performing inference..")
diffusion.eval()
# Pad MEL to multiples of 4096//spectrogram_compression_factor
msl = aligned_codes.shape[-1]
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dsl = 2048 // aligned_codes_compression_factor
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gap = dsl - (msl % dsl)
if gap > 0:
aligned_codes = torch.nn.functional.pad(aligned_codes, (0, gap)) # This still isn't a perfect multiple, but it's close.
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output_shape = (1, 1, ceil_multiple(aligned_codes.shape[-1]*aligned_codes_compression_factor, 2048))
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output = diffuser.p_sample_loop(diffusion, output_shape, model_kwargs={'tokens': aligned_codes.unsqueeze(0),
'conditioning_input': cond.unsqueeze(0)})
torchaudio.save(os.path.join(args.output_path, 'output.wav'), output.cpu().squeeze(0), 11025)