forked from mrq/DL-Art-School
113 lines
4.6 KiB
Python
113 lines
4.6 KiB
Python
import random
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import torch
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import torch.nn as nn
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import torch.nn.functional as F
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import torchaudio
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from trainer.inject import Injector
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from utils.util import opt_get
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class MelSpectrogramInjector(Injector):
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def __init__(self, opt, env):
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super().__init__(opt, env)
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from models.tacotron2.layers import TacotronSTFT
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# These are the default tacotron values for the MEL spectrogram.
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filter_length = opt_get(opt, ['filter_length'], 1024)
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hop_length = opt_get(opt, ['hop_length'], 256)
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win_length = opt_get(opt, ['win_length'], 1024)
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n_mel_channels = opt_get(opt, ['n_mel_channels'], 80)
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mel_fmin = opt_get(opt, ['mel_fmin'], 0)
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mel_fmax = opt_get(opt, ['mel_fmax'], 8000)
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sampling_rate = opt_get(opt, ['sampling_rate'], 22050)
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self.stft = TacotronSTFT(filter_length, hop_length, win_length, n_mel_channels, sampling_rate, mel_fmin, mel_fmax)
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def forward(self, state):
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inp = state[self.input]
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if len(inp.shape) == 3: # Automatically squeeze out the channels dimension if it is present (assuming mono-audio)
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inp = inp.squeeze(1)
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assert len(inp.shape) == 2
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self.stft = self.stft.to(inp.device)
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return {self.output: self.stft.mel_spectrogram(inp)}
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class TorchMelSpectrogramInjector(Injector):
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def __init__(self, opt, env):
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super().__init__(opt, env)
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# These are the default tacotron values for the MEL spectrogram.
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self.filter_length = opt_get(opt, ['filter_length'], 1024)
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self.hop_length = opt_get(opt, ['hop_length'], 256)
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self.win_length = opt_get(opt, ['win_length'], 1024)
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self.n_mel_channels = opt_get(opt, ['n_mel_channels'], 80)
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self.mel_fmin = opt_get(opt, ['mel_fmin'], 0)
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self.mel_fmax = opt_get(opt, ['mel_fmax'], 8000)
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self.sampling_rate = opt_get(opt, ['sampling_rate'], 22050)
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norm = opt_get(opt, ['normalize'], False)
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self.mel_stft = torchaudio.transforms.MelSpectrogram(n_fft=self.filter_length, hop_length=self.hop_length,
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win_length=self.win_length, power=2, normalized=norm,
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sample_rate=self.sampling_rate, f_min=self.mel_fmin,
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f_max=self.mel_fmax, n_mels=self.n_mel_channels,
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norm="slaney")
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self.mel_norm_file = opt_get(opt, ['mel_norm_file'], None)
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if self.mel_norm_file is not None:
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self.mel_norms = torch.load(self.mel_norm_file)
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else:
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self.mel_norms = None
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def forward(self, state):
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inp = state[self.input]
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if len(inp.shape) == 3: # Automatically squeeze out the channels dimension if it is present (assuming mono-audio)
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inp = inp.squeeze(1)
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assert len(inp.shape) == 2
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self.mel_stft = self.mel_stft.to(inp.device)
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mel = self.mel_stft(inp)
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# Perform dynamic range compression
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mel = torch.log(torch.clamp(mel, min=1e-5))
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if self.mel_norms is not None:
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self.mel_norms = self.mel_norms.to(mel.device)
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mel = mel / self.mel_norms.unsqueeze(0).unsqueeze(-1)
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return {self.output: mel}
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class RandomAudioCropInjector(Injector):
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def __init__(self, opt, env):
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super().__init__(opt, env)
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self.crop_sz = opt['crop_size']
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def forward(self, state):
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inp = state[self.input]
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len = inp.shape[-1]
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margin = len - self.crop_sz
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start = random.randint(0, margin)
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return {self.output: inp[:, :, start:start+self.crop_sz]}
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class AudioClipInjector(Injector):
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def __init__(self, opt, env):
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super().__init__(opt, env)
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self.clip_size = opt['clip_size']
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self.ctc_codes = opt['ctc_codes_key']
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self.output_ctc = opt['ctc_out_key']
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def forward(self, state):
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inp = state[self.input]
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ctc = state[self.ctc_codes]
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len = inp.shape[-1]
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if len > self.clip_size:
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proportion_inp_remaining = self.clip_size/len
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inp = inp[:, :, :self.clip_size]
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ctc = ctc[:,:int(proportion_inp_remaining*ctc.shape[-1])]
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return {self.output: inp, self.output_ctc: ctc}
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class AudioResampleInjector(Injector):
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def __init__(self, opt, env):
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super().__init__(opt, env)
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self.input_sr = opt['input_sample_rate']
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self.output_sr = opt['output_sample_rate']
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def forward(self, state):
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inp = state[self.input]
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return {self.output: torchaudio.functional.resample(inp, self.input_sr, self.output_sr)}
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