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| # Copyright 2020 Nagoya University (Tomoki Hayashi) | |
| # Apache 2.0 (http://www.apache.org/licenses/LICENSE-2.0) | |
| # Adapted by Florian Lux 2021 | |
| import torch | |
| import torch.nn.functional as F | |
| from Layers.STFT import STFT | |
| from Utility.utils import pad_list | |
| class EnergyCalculator(torch.nn.Module): | |
| def __init__(self, fs=16000, n_fft=1024, win_length=None, hop_length=256, window="hann", center=True, | |
| normalized=False, onesided=True, use_token_averaged_energy=True, reduction_factor=1): | |
| super().__init__() | |
| self.fs = fs | |
| self.n_fft = n_fft | |
| self.hop_length = hop_length | |
| self.win_length = win_length | |
| self.window = window | |
| self.use_token_averaged_energy = use_token_averaged_energy | |
| if use_token_averaged_energy: | |
| assert reduction_factor >= 1 | |
| self.reduction_factor = reduction_factor | |
| self.stft = STFT(n_fft=n_fft, win_length=win_length, hop_length=hop_length, window=window, center=center, normalized=normalized, onesided=onesided) | |
| def output_size(self): | |
| return 1 | |
| def get_parameters(self): | |
| return dict(fs=self.fs, n_fft=self.n_fft, hop_length=self.hop_length, window=self.window, win_length=self.win_length, center=self.stft.center, | |
| normalized=self.stft.normalized, use_token_averaged_energy=self.use_token_averaged_energy, reduction_factor=self.reduction_factor) | |
| def forward(self, input_waves, input_waves_lengths=None, feats_lengths=None, durations=None, | |
| durations_lengths=None, norm_by_average=True): | |
| # If not provided, we assume that the inputs have the same length | |
| if input_waves_lengths is None: | |
| input_waves_lengths = (input_waves.new_ones(input_waves.shape[0], dtype=torch.long) * input_waves.shape[1]) | |
| # Domain-conversion: e.g. Stft: time -> time-freq | |
| input_stft, energy_lengths = self.stft(input_waves, input_waves_lengths) | |
| assert input_stft.dim() >= 4, input_stft.shape | |
| assert input_stft.shape[-1] == 2, input_stft.shape | |
| # input_stft: (..., F, 2) -> (..., F) | |
| input_power = input_stft[..., 0] ** 2 + input_stft[..., 1] ** 2 | |
| # sum over frequency (B, N, F) -> (B, N) | |
| energy = torch.sqrt(torch.clamp(input_power.sum(dim=2), min=1.0e-10)) | |
| # (Optional): Adjust length to match with the mel-spectrogram | |
| if feats_lengths is not None: | |
| energy = [self._adjust_num_frames(e[:el].view(-1), fl) for e, el, fl in zip(energy, energy_lengths, feats_lengths)] | |
| energy_lengths = feats_lengths | |
| # (Optional): Average by duration to calculate token-wise energy | |
| if self.use_token_averaged_energy: | |
| energy = [self._average_by_duration(e[:el].view(-1), d) for e, el, d in zip(energy, energy_lengths, durations)] | |
| energy_lengths = durations_lengths | |
| # Padding | |
| if isinstance(energy, list): | |
| energy = pad_list(energy, 0.0) | |
| # Return with the shape (B, T, 1) | |
| if norm_by_average: | |
| average = energy[0][energy[0] != 0.0].mean() | |
| energy = energy / average | |
| return energy.unsqueeze(-1), energy_lengths | |
| def _average_by_duration(self, x, d): | |
| assert 0 <= len(x) - d.sum() < self.reduction_factor | |
| d_cumsum = F.pad(d.cumsum(dim=0), (1, 0)) | |
| x_avg = [x[start:end].mean() if len(x[start:end]) != 0 else x.new_tensor(0.0) for start, end in zip(d_cumsum[:-1], d_cumsum[1:])] | |
| return torch.stack(x_avg) | |
| def _adjust_num_frames(x, num_frames): | |
| if num_frames > len(x): | |
| x = F.pad(x, (0, num_frames - len(x))) | |
| elif num_frames < len(x): | |
| x = x[:num_frames] | |
| return x | |