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PaddleSpeech/paddlespeech/t2s/models/vits/vits.py

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# Copyright (c) 2022 PaddlePaddle Authors. All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
# Modified from espnet(https://github.com/espnet/espnet)
"""VITS module"""
from typing import Any
from typing import Dict
from typing import Optional
import paddle
from paddle import nn
from typeguard import check_argument_types
from paddlespeech.t2s.models.hifigan import HiFiGANMultiPeriodDiscriminator
from paddlespeech.t2s.models.hifigan import HiFiGANMultiScaleDiscriminator
from paddlespeech.t2s.models.hifigan import HiFiGANMultiScaleMultiPeriodDiscriminator
from paddlespeech.t2s.models.hifigan import HiFiGANPeriodDiscriminator
from paddlespeech.t2s.models.hifigan import HiFiGANScaleDiscriminator
from paddlespeech.t2s.models.vits.generator import VITSGenerator
from paddlespeech.t2s.modules.nets_utils import initialize
AVAILABLE_GENERATERS = {
"vits_generator": VITSGenerator,
}
AVAILABLE_DISCRIMINATORS = {
"hifigan_period_discriminator":
HiFiGANPeriodDiscriminator,
"hifigan_scale_discriminator":
HiFiGANScaleDiscriminator,
"hifigan_multi_period_discriminator":
HiFiGANMultiPeriodDiscriminator,
"hifigan_multi_scale_discriminator":
HiFiGANMultiScaleDiscriminator,
"hifigan_multi_scale_multi_period_discriminator":
HiFiGANMultiScaleMultiPeriodDiscriminator,
}
class VITS(nn.Layer):
"""VITS module (generator + discriminator).
This is a module of VITS described in `Conditional Variational Autoencoder
with Adversarial Learning for End-to-End Text-to-Speech`_.
.. _`Conditional Variational Autoencoder with Adversarial Learning for End-to-End
Text-to-Speech`: https://arxiv.org/abs/2006.04558
"""
def __init__(
self,
# generator related
idim: int,
odim: int,
sampling_rate: int=22050,
generator_type: str="vits_generator",
generator_params: Dict[str, Any]={
"hidden_channels": 192,
"spks": None,
"langs": None,
"spk_embed_dim": None,
"global_channels": -1,
"segment_size": 32,
"text_encoder_attention_heads": 2,
"text_encoder_ffn_expand": 4,
"text_encoder_blocks": 6,
"text_encoder_positionwise_layer_type": "conv1d",
"text_encoder_positionwise_conv_kernel_size": 1,
"text_encoder_positional_encoding_layer_type": "rel_pos",
"text_encoder_self_attention_layer_type": "rel_selfattn",
"text_encoder_activation_type": "swish",
"text_encoder_normalize_before": True,
"text_encoder_dropout_rate": 0.1,
"text_encoder_positional_dropout_rate": 0.0,
"text_encoder_attention_dropout_rate": 0.0,
"text_encoder_conformer_kernel_size": 7,
"use_macaron_style_in_text_encoder": True,
"use_conformer_conv_in_text_encoder": True,
"decoder_kernel_size": 7,
"decoder_channels": 512,
"decoder_upsample_scales": [8, 8, 2, 2],
"decoder_upsample_kernel_sizes": [16, 16, 4, 4],
"decoder_resblock_kernel_sizes": [3, 7, 11],
"decoder_resblock_dilations": [[1, 3, 5], [1, 3, 5], [1, 3, 5]],
"use_weight_norm_in_decoder": True,
"posterior_encoder_kernel_size": 5,
"posterior_encoder_layers": 16,
"posterior_encoder_stacks": 1,
"posterior_encoder_base_dilation": 1,
"posterior_encoder_dropout_rate": 0.0,
"use_weight_norm_in_posterior_encoder": True,
"flow_flows": 4,
"flow_kernel_size": 5,
"flow_base_dilation": 1,
"flow_layers": 4,
"flow_dropout_rate": 0.0,
"use_weight_norm_in_flow": True,
"use_only_mean_in_flow": True,
"stochastic_duration_predictor_kernel_size": 3,
"stochastic_duration_predictor_dropout_rate": 0.5,
"stochastic_duration_predictor_flows": 4,
"stochastic_duration_predictor_dds_conv_layers": 3,
},
# discriminator related
discriminator_type: str="hifigan_multi_scale_multi_period_discriminator",
discriminator_params: Dict[str, Any]={
"scales": 1,
"scale_downsample_pooling": "AvgPool1D",
"scale_downsample_pooling_params": {
"kernel_size": 4,
"stride": 2,
"padding": 2,
},
"scale_discriminator_params": {
"in_channels": 1,
"out_channels": 1,
"kernel_sizes": [15, 41, 5, 3],
"channels": 128,
"max_downsample_channels": 1024,
"max_groups": 16,
"bias": True,
"downsample_scales": [2, 2, 4, 4, 1],
"nonlinear_activation": "leakyrelu",
"nonlinear_activation_params": {
"negative_slope": 0.1
},
"use_weight_norm": True,
"use_spectral_norm": False,
},
"follow_official_norm": False,
"periods": [2, 3, 5, 7, 11],
"period_discriminator_params": {
"in_channels": 1,
"out_channels": 1,
"kernel_sizes": [5, 3],
"channels": 32,
"downsample_scales": [3, 3, 3, 3, 1],
"max_downsample_channels": 1024,
"bias": True,
"nonlinear_activation": "leakyrelu",
"nonlinear_activation_params": {
"negative_slope": 0.1
},
"use_weight_norm": True,
"use_spectral_norm": False,
},
},
cache_generator_outputs: bool=True,
init_type: str="xavier_uniform", ):
"""Initialize VITS module.
Args:
idim (int): Input vocabrary size.
odim (int): Acoustic feature dimension. The actual output channels will
be 1 since VITS is the end-to-end text-to-wave model but for the
compatibility odim is used to indicate the acoustic feature dimension.
sampling_rate (int): Sampling rate, not used for the training but it will
be referred in saving waveform during the inference.
generator_type (str): Generator type.
generator_params (Dict[str, Any]): Parameter dict for generator.
discriminator_type (str): Discriminator type.
discriminator_params (Dict[str, Any]): Parameter dict for discriminator.
cache_generator_outputs (bool): Whether to cache generator outputs.
"""
assert check_argument_types()
super().__init__()
# initialize parameters
initialize(self, init_type)
# define modules
generator_class = AVAILABLE_GENERATERS[generator_type]
if generator_type == "vits_generator":
# NOTE: Update parameters for the compatibility.
# The idim and odim is automatically decided from input data,
# where idim represents #vocabularies and odim represents
# the input acoustic feature dimension.
generator_params.update(vocabs=idim, aux_channels=odim)
self.generator = generator_class(
**generator_params, )
discriminator_class = AVAILABLE_DISCRIMINATORS[discriminator_type]
self.discriminator = discriminator_class(
**discriminator_params, )
nn.initializer.set_global_initializer(None)
# cache
self.cache_generator_outputs = cache_generator_outputs
self._cache = None
# store sampling rate for saving wav file
# (not used for the training)
self.fs = sampling_rate
# store parameters for test compatibility
self.spks = self.generator.spks
self.langs = self.generator.langs
self.spk_embed_dim = self.generator.spk_embed_dim
self.reuse_cache_gen = True
self.reuse_cache_dis = True
def forward(
self,
text: paddle.Tensor,
text_lengths: paddle.Tensor,
feats: paddle.Tensor,
feats_lengths: paddle.Tensor,
sids: Optional[paddle.Tensor]=None,
spembs: Optional[paddle.Tensor]=None,
lids: Optional[paddle.Tensor]=None,
forward_generator: bool=True, ) -> Dict[str, Any]:
"""Perform generator forward.
Args:
text (Tensor): Text index tensor (B, T_text).
text_lengths (Tensor): Text length tensor (B,).
feats (Tensor): Feature tensor (B, T_feats, aux_channels).
feats_lengths (Tensor): Feature length tensor (B,).
sids (Optional[Tensor]): Speaker index tensor (B,) or (B, 1).
spembs (Optional[Tensor]): Speaker embedding tensor (B, spk_embed_dim).
lids (Optional[Tensor]): Language index tensor (B,) or (B, 1).
forward_generator (bool): Whether to forward generator.
Returns:
"""
if forward_generator:
return self._forward_generator(
text=text,
text_lengths=text_lengths,
feats=feats,
feats_lengths=feats_lengths,
sids=sids,
spembs=spembs,
lids=lids, )
else:
return self._forward_discrminator(
text=text,
text_lengths=text_lengths,
feats=feats,
feats_lengths=feats_lengths,
sids=sids,
spembs=spembs,
lids=lids, )
def _forward_generator(
self,
text: paddle.Tensor,
text_lengths: paddle.Tensor,
feats: paddle.Tensor,
feats_lengths: paddle.Tensor,
sids: Optional[paddle.Tensor]=None,
spembs: Optional[paddle.Tensor]=None,
lids: Optional[paddle.Tensor]=None, ) -> Dict[str, Any]:
"""Perform generator forward.
Args:
text (Tensor): Text index tensor (B, T_text).
text_lengths (Tensor): Text length tensor (B,).
feats (Tensor): Feature tensor (B, T_feats, aux_channels).
feats_lengths (Tensor): Feature length tensor (B,).
sids (Optional[Tensor]): Speaker index tensor (B,) or (B, 1).
spembs (Optional[Tensor]): Speaker embedding tensor (B, spk_embed_dim).
lids (Optional[Tensor]): Language index tensor (B,) or (B, 1).
Returns:
"""
# setup
feats = feats.transpose([0, 2, 1])
# calculate generator outputs
self.reuse_cache_gen = True
if not self.cache_generator_outputs or self._cache is None:
self.reuse_cache_gen = False
outs = self.generator(
text=text,
text_lengths=text_lengths,
feats=feats,
feats_lengths=feats_lengths,
sids=sids,
spembs=spembs,
lids=lids, )
else:
outs = self._cache
# store cache
if self.training and self.cache_generator_outputs and not self.reuse_cache_gen:
self._cache = outs
return outs
def _forward_discrminator(
self,
text: paddle.Tensor,
text_lengths: paddle.Tensor,
feats: paddle.Tensor,
feats_lengths: paddle.Tensor,
sids: Optional[paddle.Tensor]=None,
spembs: Optional[paddle.Tensor]=None,
lids: Optional[paddle.Tensor]=None, ) -> Dict[str, Any]:
"""Perform discriminator forward.
Args:
text (Tensor): Text index tensor (B, T_text).
text_lengths (Tensor): Text length tensor (B,).
feats (Tensor): Feature tensor (B, T_feats, aux_channels).
feats_lengths (Tensor): Feature length tensor (B,).
sids (Optional[Tensor]): Speaker index tensor (B,) or (B, 1).
spembs (Optional[Tensor]): Speaker embedding tensor (B, spk_embed_dim).
lids (Optional[Tensor]): Language index tensor (B,) or (B, 1).
Returns:
"""
# setup
feats = feats.transpose([0, 2, 1])
# calculate generator outputs
self.reuse_cache_dis = True
if not self.cache_generator_outputs or self._cache is None:
self.reuse_cache_dis = False
outs = self.generator(
text=text,
text_lengths=text_lengths,
feats=feats,
feats_lengths=feats_lengths,
sids=sids,
spembs=spembs,
lids=lids, )
else:
outs = self._cache
# store cache
if self.cache_generator_outputs and not self.reuse_cache_dis:
self._cache = outs
return outs
def inference(
self,
text: paddle.Tensor,
feats: Optional[paddle.Tensor]=None,
sids: Optional[paddle.Tensor]=None,
spembs: Optional[paddle.Tensor]=None,
lids: Optional[paddle.Tensor]=None,
durations: Optional[paddle.Tensor]=None,
noise_scale: float=0.667,
noise_scale_dur: float=0.8,
alpha: float=1.0,
max_len: Optional[int]=None,
use_teacher_forcing: bool=False, ) -> Dict[str, paddle.Tensor]:
"""Run inference.
Args:
text (Tensor): Input text index tensor (T_text,).
feats (Tensor): Feature tensor (T_feats, aux_channels).
sids (Tensor): Speaker index tensor (1,).
spembs (Optional[Tensor]): Speaker embedding tensor (spk_embed_dim,).
lids (Tensor): Language index tensor (1,).
durations (Tensor): Ground-truth duration tensor (T_text,).
noise_scale (float): Noise scale value for flow.
noise_scale_dur (float): Noise scale value for duration predictor.
alpha (float): Alpha parameter to control the speed of generated speech.
max_len (Optional[int]): Maximum length.
use_teacher_forcing (bool): Whether to use teacher forcing.
Returns:
Dict[str, Tensor]:
* wav (Tensor): Generated waveform tensor (T_wav,).
* att_w (Tensor): Monotonic attention weight tensor (T_feats, T_text).
* duration (Tensor): Predicted duration tensor (T_text,).
"""
# setup
text = text[None]
text_lengths = paddle.to_tensor(paddle.shape(text)[1])
if durations is not None:
durations = paddle.reshape(durations, [1, 1, -1])
# inference
if use_teacher_forcing:
assert feats is not None
feats = feats[None].transpose([0, 2, 1])
feats_lengths = paddle.to_tensor([paddle.shape(feats)[2]])
wav, att_w, dur = self.generator.inference(
text=text,
text_lengths=text_lengths,
feats=feats,
feats_lengths=feats_lengths,
sids=sids,
spembs=spembs,
lids=lids,
max_len=max_len,
use_teacher_forcing=use_teacher_forcing, )
else:
wav, att_w, dur = self.generator.inference(
text=text,
text_lengths=text_lengths,
sids=sids,
spembs=spembs,
lids=lids,
dur=durations,
noise_scale=noise_scale,
noise_scale_dur=noise_scale_dur,
alpha=alpha,
max_len=max_len, )
return dict(
wav=paddle.reshape(wav, [-1]), att_w=att_w[0], duration=dur[0])