180 lines
6.7 KiB
Python
180 lines
6.7 KiB
Python
import math
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import torch
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from torch import nn
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from TTS.tts.layers.generic.gated_conv import GatedConvBlock
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from TTS.tts.layers.generic.res_conv_bn import ResidualConv1dBNBlock
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from TTS.tts.layers.generic.time_depth_sep_conv import TimeDepthSeparableConvBlock
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from TTS.tts.layers.glow_tts.duration_predictor import DurationPredictor
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from TTS.tts.layers.glow_tts.glow import ResidualConv1dLayerNormBlock
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from TTS.tts.layers.glow_tts.transformer import RelativePositionTransformer
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from TTS.tts.utils.helpers import sequence_mask
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class Encoder(nn.Module):
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"""Glow-TTS encoder module.
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::
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embedding -> <prenet> -> encoder_module -> <postnet> --> proj_mean
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|-> proj_var
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|-> concat -> duration_predictor
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↑
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speaker_embed
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Args:
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num_chars (int): number of characters.
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out_channels (int): number of output channels.
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hidden_channels (int): encoder's embedding size.
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hidden_channels_ffn (int): transformer's feed-forward channels.
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kernel_size (int): kernel size for conv layers and duration predictor.
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dropout_p (float): dropout rate for any dropout layer.
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mean_only (bool): if True, output only mean values and use constant std.
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use_prenet (bool): if True, use pre-convolutional layers before transformer layers.
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c_in_channels (int): number of channels in conditional input.
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Shapes:
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- input: (B, T, C)
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::
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suggested encoder params...
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for encoder_type == 'rel_pos_transformer'
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encoder_params={
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'kernel_size':3,
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'dropout_p': 0.1,
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'num_layers': 6,
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'num_heads': 2,
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'hidden_channels_ffn': 768, # 4 times the hidden_channels
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'input_length': None
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}
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for encoder_type == 'gated_conv'
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encoder_params={
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'kernel_size':5,
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'dropout_p': 0.1,
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'num_layers': 9,
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}
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for encoder_type == 'residual_conv_bn'
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encoder_params={
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"kernel_size": 4,
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"dilations": [1, 2, 4, 1, 2, 4, 1, 2, 4, 1, 2, 4, 1],
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"num_conv_blocks": 2,
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"num_res_blocks": 13
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}
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for encoder_type == 'time_depth_separable'
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encoder_params={
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"kernel_size": 5,
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'num_layers': 9,
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}
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"""
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def __init__(
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self,
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num_chars,
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out_channels,
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hidden_channels,
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hidden_channels_dp,
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encoder_type,
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encoder_params,
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dropout_p_dp=0.1,
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mean_only=False,
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use_prenet=True,
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c_in_channels=0,
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):
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super().__init__()
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# class arguments
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self.num_chars = num_chars
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self.out_channels = out_channels
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self.hidden_channels = hidden_channels
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self.hidden_channels_dp = hidden_channels_dp
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self.dropout_p_dp = dropout_p_dp
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self.mean_only = mean_only
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self.use_prenet = use_prenet
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self.c_in_channels = c_in_channels
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self.encoder_type = encoder_type
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# embedding layer
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self.emb = nn.Embedding(num_chars, hidden_channels)
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nn.init.normal_(self.emb.weight, 0.0, hidden_channels**-0.5)
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# init encoder module
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if encoder_type.lower() == "rel_pos_transformer":
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if use_prenet:
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self.prenet = ResidualConv1dLayerNormBlock(
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hidden_channels, hidden_channels, hidden_channels, kernel_size=5, num_layers=3, dropout_p=0.5
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)
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self.encoder = RelativePositionTransformer(
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hidden_channels, hidden_channels, hidden_channels, **encoder_params
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)
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elif encoder_type.lower() == "gated_conv":
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self.encoder = GatedConvBlock(hidden_channels, **encoder_params)
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elif encoder_type.lower() == "residual_conv_bn":
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if use_prenet:
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self.prenet = nn.Sequential(nn.Conv1d(hidden_channels, hidden_channels, 1), nn.ReLU())
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self.encoder = ResidualConv1dBNBlock(hidden_channels, hidden_channels, hidden_channels, **encoder_params)
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self.postnet = nn.Sequential(
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nn.Conv1d(self.hidden_channels, self.hidden_channels, 1), nn.BatchNorm1d(self.hidden_channels)
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)
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elif encoder_type.lower() == "time_depth_separable":
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if use_prenet:
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self.prenet = ResidualConv1dLayerNormBlock(
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hidden_channels, hidden_channels, hidden_channels, kernel_size=5, num_layers=3, dropout_p=0.5
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)
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self.encoder = TimeDepthSeparableConvBlock(
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hidden_channels, hidden_channels, hidden_channels, **encoder_params
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)
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else:
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raise ValueError(" [!] Unkown encoder type.")
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# final projection layers
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self.proj_m = nn.Conv1d(hidden_channels, out_channels, 1)
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if not mean_only:
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self.proj_s = nn.Conv1d(hidden_channels, out_channels, 1)
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# duration predictor
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self.duration_predictor = DurationPredictor(
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hidden_channels + c_in_channels, hidden_channels_dp, 3, dropout_p_dp
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)
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def forward(self, x, x_lengths, g=None):
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"""
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Shapes:
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- x: :math:`[B, C, T]`
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- x_lengths: :math:`[B]`
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- g (optional): :math:`[B, 1, T]`
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"""
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# embedding layer
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# [B ,T, D]
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x = self.emb(x) * math.sqrt(self.hidden_channels)
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# [B, D, T]
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x = torch.transpose(x, 1, -1)
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# compute input sequence mask
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x_mask = torch.unsqueeze(sequence_mask(x_lengths, x.size(2)), 1).to(x.dtype)
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# prenet
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if hasattr(self, "prenet") and self.use_prenet:
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x = self.prenet(x, x_mask)
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# encoder
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x = self.encoder(x, x_mask)
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# postnet
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if hasattr(self, "postnet"):
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x = self.postnet(x) * x_mask
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# set duration predictor input
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if g is not None:
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g_exp = g.expand(-1, -1, x.size(-1))
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x_dp = torch.cat([x.detach(), g_exp], 1)
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else:
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x_dp = x.detach()
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# final projection layer
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x_m = self.proj_m(x) * x_mask
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if not self.mean_only:
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x_logs = self.proj_s(x) * x_mask
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else:
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x_logs = torch.zeros_like(x_m)
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# duration predictor
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logw = self.duration_predictor(x_dp, x_mask)
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return x_m, x_logs, logw, x_mask
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