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sovits-new / so_vits_svc_fork /modules /encoders.py

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Duplicate from pivich/sovits-new

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	import torch
	from torch import nn

	from so_vits_svc_fork.modules import attentions as attentions
	from so_vits_svc_fork.modules import commons as commons
	from so_vits_svc_fork.modules import modules as modules


	class SpeakerEncoder(torch.nn.Module):
	def __init__(
	self,
	mel_n_channels=80,
	model_num_layers=3,
	model_hidden_size=256,
	model_embedding_size=256,
	):
	super().__init__()
	self.lstm = nn.LSTM(
	mel_n_channels, model_hidden_size, model_num_layers, batch_first=True
	)
	self.linear = nn.Linear(model_hidden_size, model_embedding_size)
	self.relu = nn.ReLU()

	def forward(self, mels):
	self.lstm.flatten_parameters()
	_, (hidden, _) = self.lstm(mels)
	embeds_raw = self.relu(self.linear(hidden[-1]))
	return embeds_raw / torch.norm(embeds_raw, dim=1, keepdim=True)

	def compute_partial_slices(self, total_frames, partial_frames, partial_hop):
	mel_slices = []
	for i in range(0, total_frames - partial_frames, partial_hop):
	mel_range = torch.arange(i, i + partial_frames)
	mel_slices.append(mel_range)

	return mel_slices

	def embed_utterance(self, mel, partial_frames=128, partial_hop=64):
	mel_len = mel.size(1)
	last_mel = mel[:, -partial_frames:]

	if mel_len > partial_frames:
	mel_slices = self.compute_partial_slices(
	mel_len, partial_frames, partial_hop
	)
	mels = list(mel[:, s] for s in mel_slices)
	mels.append(last_mel)
	mels = torch.stack(tuple(mels), 0).squeeze(1)

	with torch.no_grad():
	partial_embeds = self(mels)
	embed = torch.mean(partial_embeds, axis=0).unsqueeze(0)
	# embed = embed / torch.linalg.norm(embed, 2)
	else:
	with torch.no_grad():
	embed = self(last_mel)

	return embed


	class Encoder(nn.Module):
	def __init__(
	self,
	in_channels,
	out_channels,
	hidden_channels,
	kernel_size,
	dilation_rate,
	n_layers,
	gin_channels=0,
	):
	super().__init__()
	self.in_channels = in_channels
	self.out_channels = out_channels
	self.hidden_channels = hidden_channels
	self.kernel_size = kernel_size
	self.dilation_rate = dilation_rate
	self.n_layers = n_layers
	self.gin_channels = gin_channels

	self.pre = nn.Conv1d(in_channels, hidden_channels, 1)
	self.enc = modules.WN(
	hidden_channels,
	kernel_size,
	dilation_rate,
	n_layers,
	gin_channels=gin_channels,
	)
	self.proj = nn.Conv1d(hidden_channels, out_channels * 2, 1)

	def forward(self, x, x_lengths, g=None):
	# print(x.shape,x_lengths.shape)
	x_mask = torch.unsqueeze(commons.sequence_mask(x_lengths, x.size(2)), 1).to(
	x.dtype
	)
	x = self.pre(x) * x_mask
	x = self.enc(x, x_mask, g=g)
	stats = self.proj(x) * x_mask
	m, logs = torch.split(stats, self.out_channels, dim=1)
	z = (m + torch.randn_like(m) * torch.exp(logs)) * x_mask
	return z, m, logs, x_mask


	class TextEncoder(nn.Module):
	def __init__(
	self,
	out_channels,
	hidden_channels,
	kernel_size,
	n_layers,
	gin_channels=0,
	filter_channels=None,
	n_heads=None,
	p_dropout=None,
	):
	super().__init__()
	self.out_channels = out_channels
	self.hidden_channels = hidden_channels
	self.kernel_size = kernel_size
	self.n_layers = n_layers
	self.gin_channels = gin_channels
	self.proj = nn.Conv1d(hidden_channels, out_channels * 2, 1)
	self.f0_emb = nn.Embedding(256, hidden_channels)

	self.enc_ = attentions.Encoder(
	hidden_channels, filter_channels, n_heads, n_layers, kernel_size, p_dropout
	)

	def forward(self, x, x_mask, f0=None, noice_scale=1):
	x = x + self.f0_emb(f0).transpose(1, 2)
	x = self.enc_(x * x_mask, x_mask)
	stats = self.proj(x) * x_mask
	m, logs = torch.split(stats, self.out_channels, dim=1)
	z = (m + torch.randn_like(m) * torch.exp(logs) * noice_scale) * x_mask

	return z, m, logs, x_mask