Exemple #1
0
class Denoiser(torch.nn.Module):
    """ Removes model bias from audio produced with waveglow """
    def __init__(self,
                 melgan,
                 filter_length=1024,
                 n_overlap=4,
                 win_length=1024,
                 mode='zeros'):
        super(Denoiser, self).__init__()
        self.stft = STFT(filter_length=filter_length,
                         hop_length=int(filter_length / n_overlap),
                         win_length=win_length).cuda()
        if mode == 'zeros':
            mel_input = torch.zeros((1, 80, 88)).cuda()
        elif mode == 'normal':
            mel_input = torch.randn((1, 80, 88)).cuda()
        else:
            raise Exception("Mode {} if not supported".format(mode))

        with torch.no_grad():
            bias_audio = melgan.inference(mel_input).float()  # [B, 1, T]

            bias_spec, _ = self.stft.transform(bias_audio.squeeze(0))

        self.register_buffer('bias_spec', bias_spec[:, :, 0][:, :, None])

    def forward(self, audio, strength=0.1):
        audio_spec, audio_angles = self.stft.transform(audio.cuda().float())
        audio_spec_denoised = audio_spec.cuda() - self.bias_spec * strength
        audio_spec_denoised = torch.clamp(audio_spec_denoised, 0.0)
        audio_denoised = self.stft.inverse(audio_spec_denoised,
                                           audio_angles.cuda())
        return audio_denoised
def main(config, epoch):
    root_dir = Path(config["experiments_dir"]) / config["name"]
    enhancement_dir = root_dir / "enhancements"
    checkpoints_dir = root_dir / "checkpoints"

    """============== 加载数据集 =============="""
    dataset = initialize_config(config["dataset"])
    dataloader = DataLoader(
        dataset=dataset,
        batch_size=1,
        num_workers=0,
    )

    """============== 加载模型断点("best","latest",通过数字指定) =============="""
    model = initialize_config(config["model"])
    device = torch.device("cuda:0") if torch.cuda.is_available() else torch.device("cpu")
    # device = torch.device("cpu")
    stft = STFT(
        filter_length=320,
        hop_length=160
    ).to("cpu")

    if epoch == "best":
        model_path = checkpoints_dir / "best_model.tar"
        model_checkpoint = torch.load(model_path.as_posix(), map_location=device)
        model_static_dict = model_checkpoint["model"]
        checkpoint_epoch = model_checkpoint['epoch']
    elif epoch == "latest":
        model_path = checkpoints_dir / "latest_model.tar"
        model_checkpoint = torch.load(model_path.as_posix(), map_location=device)
        model_static_dict = model_checkpoint["model"]
        checkpoint_epoch = model_checkpoint['epoch']
    else:
        model_path = checkpoints_dir / f"model_{str(epoch).zfill(4)}.pth"
        model_checkpoint = torch.load(model_path.as_posix(), map_location=device)
        model_static_dict = model_checkpoint
        checkpoint_epoch = epoch

    print(f"Loading model checkpoint, epoch = {checkpoint_epoch}")
    model.load_state_dict(model_static_dict)
    model.to(device)
    model.eval()

    """============== 增强语音 =============="""
    if epoch == "best" or epoch == "latest":
        results_dir = enhancement_dir / f"{epoch}_checkpoint_{checkpoint_epoch}_epoch"
    else:
        results_dir = enhancement_dir / f"checkpoint_{epoch}_epoch"

    results_dir.mkdir(parents=True, exist_ok=True)

    for i, (mixture, clean, _, names) in enumerate(dataloader):
        print(f"Enhance {i + 1}th speech")
        name = names[0]

        # Mixture mag and Clean mag
        print("\tSTFT...")
        mixture_D = stft.transform(mixture)
        mixture_real = mixture_D[:, :, :, 0]
        mixture_imag = mixture_D[:, :, :, 1]
        mixture_mag = torch.sqrt(mixture_real ** 2 + mixture_imag ** 2) # [1, T, F]

        print("\tEnhancement...")
        mixture_mag_chunks = torch.split(mixture_mag, mixture_mag.size()[1] // 5, dim=1)
        mixture_mag_chunks = mixture_mag_chunks[:-1]
        enhanced_mag_chunks = []
        for mixture_mag_chunk in tqdm(mixture_mag_chunks):
            mixture_mag_chunk = mixture_mag_chunk.to(device)
            enhanced_mag_chunks.append(model(mixture_mag_chunk).detach().cpu()) # [T, F]

        enhanced_mag = torch.cat(enhanced_mag_chunks, dim=0).unsqueeze(0) # [1, T, F]

        # enhanced_mag = enhanced_mag.detach().cpu().data.numpy()
        # mixture_mag = mixture_mag.cpu()

        enhanced_real = enhanced_mag * mixture_real[:, :enhanced_mag.size(1), :] / mixture_mag[:, :enhanced_mag.size(1), :]
        enhanced_imag = enhanced_mag * mixture_imag[:, :enhanced_mag.size(1), :] / mixture_mag[:, :enhanced_mag.size(1), :]

        enhanced_D = torch.stack([enhanced_real, enhanced_imag], 3)
        enhanced = stft.inverse(enhanced_D)

        enhanced = enhanced.detach().cpu().squeeze().numpy()

        sf.write(f"{results_dir}/{name}.wav", enhanced, 16000)