forked from mrq/DL-Art-School
move speech utils
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@ -147,7 +147,7 @@ def register_gpt_tts_hf(opt_net, opt):
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if __name__ == '__main__':
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gpt = GptTtsHf()
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gpt = GptTtsHf(model_dim=1024, heads=16)
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l = gpt(torch.randint(high=len(symbols), size=(2,100)),
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torch.randn(2,2,80,800),
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torch.randint(high=8192, size=(2,200)),
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0
codes/scripts/audio/gen/__init__.py
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0
codes/scripts/audio/gen/__init__.py
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@ -54,7 +54,7 @@ def load_discrete_vocoder_diffuser(trained_diffusion_steps=4000, desired_diffusi
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model_var_type='learned_range', loss_type='mse', betas=get_named_beta_schedule('linear', trained_diffusion_steps))
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def do_spectrogram_diffusion(diffusion_model, dvae_model, diffuser, mel_codes, conditioning_input, spectrogram_compression_factor=128, plt_spec=False, am=None):
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def do_spectrogram_diffusion(diffusion_model, dvae_model, diffuser, mel_codes, conditioning_input, spectrogram_compression_factor=128, plt_spec=False):
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"""
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Uses the specified diffusion model and DVAE model to convert the provided MEL & conditioning inputs into an audio clip.
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"""
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@ -62,11 +62,8 @@ def do_spectrogram_diffusion(diffusion_model, dvae_model, diffuser, mel_codes, c
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dvae_model.eval()
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with torch.no_grad():
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mel = dvae_model.decode(mel_codes)[0]
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if plt_spec:
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plot_spectrogram(mel[0].cpu())
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m=mel[:,:,:am.shape[-1]]
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print(torch.nn.MSELoss()(am,m))
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# Pad MEL to multiples of 4096//spectrogram_compression_factor
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msl = mel.shape[-1]
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@ -3,7 +3,7 @@ import argparse
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import torchaudio
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from data.audio.unsupervised_audio_dataset import load_audio
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from scripts.audio.speech_synthesis_utils import do_spectrogram_diffusion, \
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from scripts.audio.gen.speech_synthesis_utils import do_spectrogram_diffusion, \
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load_discrete_vocoder_diffuser, wav_to_mel, convert_mel_to_codes
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from utils.audio import plot_spectrogram
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from utils.util import load_model_from_config
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@ -19,17 +19,17 @@ def roundtrip_vocoding(dvae, vocoder, diffuser, clip, cond=None, plot_spec=False
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if plot_spec:
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plot_spectrogram(mel[0].cpu())
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codes = convert_mel_to_codes(dvae, mel)
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return do_spectrogram_diffusion(vocoder, dvae, diffuser, codes, cond, spectrogram_compression_factor=128, plt_spec=plot_spec, am=mel)
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return do_spectrogram_diffusion(vocoder, dvae, diffuser, codes, cond, spectrogram_compression_factor=128, plt_spec=plot_spec)
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if __name__ == '__main__':
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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='X:\\dlas\\experiments\\train_diffusion_vocoder_with_cond_new_dvae.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='Name of the diffusion model in opt.', default='X:\\dlas\\experiments\\train_diffusion_vocoder_with_cond_new_dvae_full\\models\\200_generator_ema.pth')
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parser.add_argument('-diffusion_model_path', type=str, help='Name of the diffusion model in opt.', default='X:\\dlas\\experiments\\train_diffusion_vocoder_with_cond_new_dvae_full\\models\\6100_generator_ema.pth')
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parser.add_argument('-dvae_model_name', type=str, help='Name of the DVAE model in opt.', default='dvae')
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parser.add_argument('-input_file', type=str, help='Path to the input audio file.', default='Z:\\clips\\books1\\3_dchha04 Romancing The Tribes\\00036.wav')
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parser.add_argument('-cond', type=str, help='Path to the conditioning input audio file.', default=None)
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parser.add_argument('-cond', type=str, help='Path to the conditioning input audio file.', default='Z:\\clips\\books1\\3042_18_Holden__000000000\\00037.wav')
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args = parser.parse_args()
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print("Loading DVAE..")
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@ -40,7 +40,10 @@ if __name__ == '__main__':
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print("Loading data..")
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diffuser = load_discrete_vocoder_diffuser()
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inp = load_audio(args.input_file, 22050).cuda()
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cond = None if args.cond is None else load_audio(args.cond, 22050).cuda()
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cond = inp if args.cond is None else load_audio(args.cond, 22050)
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if cond.shape[-1] > 44100+10000:
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cond = cond[:,10000:54100]
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cond = torchaudio.transforms.Resample(22050, 10025)(cond.cpu()).cuda()
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print("Performing inference..")
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roundtripped = roundtrip_vocoding(dvae, diffusion, diffuser, inp, cond).cpu()
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@ -61,12 +61,12 @@ class GaussianDiffusionInjector(Injector):
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def closest_multiple(inp, multiple):
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div = inp / multiple
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div = inp // multiple
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mod = inp % multiple
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if mod == 0:
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return inp
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else:
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return (div+1)*multiple
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return int((div+1)*multiple)
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# Performs inference using a network trained to predict a reverse diffusion process, which nets a image.
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