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| # coding: utf-8 | |
| from typing import Dict, List, Union | |
| import torch | |
| from torch import nn | |
| from torch.cuda.amp.autocast_mode import autocast | |
| from trainer.trainer_utils import get_optimizer, get_scheduler | |
| from TTS.tts.layers.tacotron.capacitron_layers import CapacitronVAE | |
| from TTS.tts.layers.tacotron.gst_layers import GST | |
| from TTS.tts.layers.tacotron.tacotron2 import Decoder, Encoder, Postnet | |
| from TTS.tts.models.base_tacotron import BaseTacotron | |
| from TTS.tts.utils.measures import alignment_diagonal_score | |
| from TTS.tts.utils.speakers import SpeakerManager | |
| from TTS.tts.utils.text.tokenizer import TTSTokenizer | |
| from TTS.tts.utils.visual import plot_alignment, plot_spectrogram | |
| from TTS.utils.capacitron_optimizer import CapacitronOptimizer | |
| class Tacotron2(BaseTacotron): | |
| """Tacotron2 model implementation inherited from :class:`TTS.tts.models.base_tacotron.BaseTacotron`. | |
| Paper:: | |
| https://arxiv.org/abs/1712.05884 | |
| Paper abstract:: | |
| This paper describes Tacotron 2, a neural network architecture for speech synthesis directly from text. | |
| The system is composed of a recurrent sequence-to-sequence feature prediction network that maps character | |
| embeddings to mel-scale spectrograms, followed by a modified WaveNet model acting as a vocoder to synthesize | |
| timedomain waveforms from those spectrograms. Our model achieves a mean opinion score (MOS) of 4.53 comparable | |
| to a MOS of 4.58 for professionally recorded speech. To validate our design choices, we present ablation | |
| studies of key components of our system and evaluate the impact of using mel spectrograms as the input to | |
| WaveNet instead of linguistic, duration, and F0 features. We further demonstrate that using a compact acoustic | |
| intermediate representation enables significant simplification of the WaveNet architecture. | |
| Check :class:`TTS.tts.configs.tacotron2_config.Tacotron2Config` for model arguments. | |
| Args: | |
| config (TacotronConfig): | |
| Configuration for the Tacotron2 model. | |
| speaker_manager (SpeakerManager): | |
| Speaker manager for multi-speaker training. Uuse only for multi-speaker training. Defaults to None. | |
| """ | |
| def __init__( | |
| self, | |
| config: "Tacotron2Config", | |
| ap: "AudioProcessor" = None, | |
| tokenizer: "TTSTokenizer" = None, | |
| speaker_manager: SpeakerManager = None, | |
| ): | |
| super().__init__(config, ap, tokenizer, speaker_manager) | |
| self.decoder_output_dim = config.out_channels | |
| # pass all config fields to `self` | |
| # for fewer code change | |
| for key in config: | |
| setattr(self, key, config[key]) | |
| # init multi-speaker layers | |
| if self.use_speaker_embedding or self.use_d_vector_file: | |
| self.init_multispeaker(config) | |
| self.decoder_in_features += self.embedded_speaker_dim # add speaker embedding dim | |
| if self.use_gst: | |
| self.decoder_in_features += self.gst.gst_embedding_dim | |
| if self.use_capacitron_vae: | |
| self.decoder_in_features += self.capacitron_vae.capacitron_VAE_embedding_dim | |
| # embedding layer | |
| self.embedding = nn.Embedding(self.num_chars, 512, padding_idx=0) | |
| # base model layers | |
| self.encoder = Encoder(self.encoder_in_features) | |
| self.decoder = Decoder( | |
| self.decoder_in_features, | |
| self.decoder_output_dim, | |
| self.r, | |
| self.attention_type, | |
| self.attention_win, | |
| self.attention_norm, | |
| self.prenet_type, | |
| self.prenet_dropout, | |
| self.use_forward_attn, | |
| self.transition_agent, | |
| self.forward_attn_mask, | |
| self.location_attn, | |
| self.attention_heads, | |
| self.separate_stopnet, | |
| self.max_decoder_steps, | |
| ) | |
| self.postnet = Postnet(self.out_channels) | |
| # setup prenet dropout | |
| self.decoder.prenet.dropout_at_inference = self.prenet_dropout_at_inference | |
| # global style token layers | |
| if self.gst and self.use_gst: | |
| self.gst_layer = GST( | |
| num_mel=self.decoder_output_dim, | |
| num_heads=self.gst.gst_num_heads, | |
| num_style_tokens=self.gst.gst_num_style_tokens, | |
| gst_embedding_dim=self.gst.gst_embedding_dim, | |
| ) | |
| # Capacitron VAE Layers | |
| if self.capacitron_vae and self.use_capacitron_vae: | |
| self.capacitron_vae_layer = CapacitronVAE( | |
| num_mel=self.decoder_output_dim, | |
| encoder_output_dim=self.encoder_in_features, | |
| capacitron_VAE_embedding_dim=self.capacitron_vae.capacitron_VAE_embedding_dim, | |
| speaker_embedding_dim=self.embedded_speaker_dim | |
| if self.capacitron_vae.capacitron_use_speaker_embedding | |
| else None, | |
| text_summary_embedding_dim=self.capacitron_vae.capacitron_text_summary_embedding_dim | |
| if self.capacitron_vae.capacitron_use_text_summary_embeddings | |
| else None, | |
| ) | |
| # backward pass decoder | |
| if self.bidirectional_decoder: | |
| self._init_backward_decoder() | |
| # setup DDC | |
| if self.double_decoder_consistency: | |
| self.coarse_decoder = Decoder( | |
| self.decoder_in_features, | |
| self.decoder_output_dim, | |
| self.ddc_r, | |
| self.attention_type, | |
| self.attention_win, | |
| self.attention_norm, | |
| self.prenet_type, | |
| self.prenet_dropout, | |
| self.use_forward_attn, | |
| self.transition_agent, | |
| self.forward_attn_mask, | |
| self.location_attn, | |
| self.attention_heads, | |
| self.separate_stopnet, | |
| self.max_decoder_steps, | |
| ) | |
| def shape_outputs(mel_outputs, mel_outputs_postnet, alignments): | |
| """Final reshape of the model output tensors.""" | |
| mel_outputs = mel_outputs.transpose(1, 2) | |
| mel_outputs_postnet = mel_outputs_postnet.transpose(1, 2) | |
| return mel_outputs, mel_outputs_postnet, alignments | |
| def forward( # pylint: disable=dangerous-default-value | |
| self, text, text_lengths, mel_specs=None, mel_lengths=None, aux_input={"speaker_ids": None, "d_vectors": None} | |
| ): | |
| """Forward pass for training with Teacher Forcing. | |
| Shapes: | |
| text: :math:`[B, T_in]` | |
| text_lengths: :math:`[B]` | |
| mel_specs: :math:`[B, T_out, C]` | |
| mel_lengths: :math:`[B]` | |
| aux_input: 'speaker_ids': :math:`[B, 1]` and 'd_vectors': :math:`[B, C]` | |
| """ | |
| aux_input = self._format_aux_input(aux_input) | |
| outputs = {"alignments_backward": None, "decoder_outputs_backward": None} | |
| # compute mask for padding | |
| # B x T_in_max (boolean) | |
| input_mask, output_mask = self.compute_masks(text_lengths, mel_lengths) | |
| # B x D_embed x T_in_max | |
| embedded_inputs = self.embedding(text).transpose(1, 2) | |
| # B x T_in_max x D_en | |
| encoder_outputs = self.encoder(embedded_inputs, text_lengths) | |
| if self.gst and self.use_gst: | |
| # B x gst_dim | |
| encoder_outputs = self.compute_gst(encoder_outputs, mel_specs) | |
| if self.use_speaker_embedding or self.use_d_vector_file: | |
| if not self.use_d_vector_file: | |
| # B x 1 x speaker_embed_dim | |
| embedded_speakers = self.speaker_embedding(aux_input["speaker_ids"])[:, None] | |
| else: | |
| # B x 1 x speaker_embed_dim | |
| embedded_speakers = torch.unsqueeze(aux_input["d_vectors"], 1) | |
| encoder_outputs = self._concat_speaker_embedding(encoder_outputs, embedded_speakers) | |
| # capacitron | |
| if self.capacitron_vae and self.use_capacitron_vae: | |
| # B x capacitron_VAE_embedding_dim | |
| encoder_outputs, *capacitron_vae_outputs = self.compute_capacitron_VAE_embedding( | |
| encoder_outputs, | |
| reference_mel_info=[mel_specs, mel_lengths], | |
| text_info=[embedded_inputs.transpose(1, 2), text_lengths] | |
| if self.capacitron_vae.capacitron_use_text_summary_embeddings | |
| else None, | |
| speaker_embedding=embedded_speakers if self.capacitron_vae.capacitron_use_speaker_embedding else None, | |
| ) | |
| else: | |
| capacitron_vae_outputs = None | |
| encoder_outputs = encoder_outputs * input_mask.unsqueeze(2).expand_as(encoder_outputs) | |
| # B x mel_dim x T_out -- B x T_out//r x T_in -- B x T_out//r | |
| decoder_outputs, alignments, stop_tokens = self.decoder(encoder_outputs, mel_specs, input_mask) | |
| # sequence masking | |
| if mel_lengths is not None: | |
| decoder_outputs = decoder_outputs * output_mask.unsqueeze(1).expand_as(decoder_outputs) | |
| # B x mel_dim x T_out | |
| postnet_outputs = self.postnet(decoder_outputs) | |
| postnet_outputs = decoder_outputs + postnet_outputs | |
| # sequence masking | |
| if output_mask is not None: | |
| postnet_outputs = postnet_outputs * output_mask.unsqueeze(1).expand_as(postnet_outputs) | |
| # B x T_out x mel_dim -- B x T_out x mel_dim -- B x T_out//r x T_in | |
| decoder_outputs, postnet_outputs, alignments = self.shape_outputs(decoder_outputs, postnet_outputs, alignments) | |
| if self.bidirectional_decoder: | |
| decoder_outputs_backward, alignments_backward = self._backward_pass(mel_specs, encoder_outputs, input_mask) | |
| outputs["alignments_backward"] = alignments_backward | |
| outputs["decoder_outputs_backward"] = decoder_outputs_backward | |
| if self.double_decoder_consistency: | |
| decoder_outputs_backward, alignments_backward = self._coarse_decoder_pass( | |
| mel_specs, encoder_outputs, alignments, input_mask | |
| ) | |
| outputs["alignments_backward"] = alignments_backward | |
| outputs["decoder_outputs_backward"] = decoder_outputs_backward | |
| outputs.update( | |
| { | |
| "model_outputs": postnet_outputs, | |
| "decoder_outputs": decoder_outputs, | |
| "alignments": alignments, | |
| "stop_tokens": stop_tokens, | |
| "capacitron_vae_outputs": capacitron_vae_outputs, | |
| } | |
| ) | |
| return outputs | |
| def inference(self, text, aux_input=None): | |
| """Forward pass for inference with no Teacher-Forcing. | |
| Shapes: | |
| text: :math:`[B, T_in]` | |
| text_lengths: :math:`[B]` | |
| """ | |
| aux_input = self._format_aux_input(aux_input) | |
| embedded_inputs = self.embedding(text).transpose(1, 2) | |
| encoder_outputs = self.encoder.inference(embedded_inputs) | |
| if self.gst and self.use_gst: | |
| # B x gst_dim | |
| encoder_outputs = self.compute_gst(encoder_outputs, aux_input["style_mel"], aux_input["d_vectors"]) | |
| if self.capacitron_vae and self.use_capacitron_vae: | |
| if aux_input["style_text"] is not None: | |
| style_text_embedding = self.embedding(aux_input["style_text"]) | |
| style_text_length = torch.tensor([style_text_embedding.size(1)], dtype=torch.int64).to( | |
| encoder_outputs.device | |
| ) # pylint: disable=not-callable | |
| reference_mel_length = ( | |
| torch.tensor([aux_input["style_mel"].size(1)], dtype=torch.int64).to(encoder_outputs.device) | |
| if aux_input["style_mel"] is not None | |
| else None | |
| ) # pylint: disable=not-callable | |
| # B x capacitron_VAE_embedding_dim | |
| encoder_outputs, *_ = self.compute_capacitron_VAE_embedding( | |
| encoder_outputs, | |
| reference_mel_info=[aux_input["style_mel"], reference_mel_length] | |
| if aux_input["style_mel"] is not None | |
| else None, | |
| text_info=[style_text_embedding, style_text_length] if aux_input["style_text"] is not None else None, | |
| speaker_embedding=aux_input["d_vectors"] | |
| if self.capacitron_vae.capacitron_use_speaker_embedding | |
| else None, | |
| ) | |
| if self.num_speakers > 1: | |
| if not self.use_d_vector_file: | |
| embedded_speakers = self.speaker_embedding(aux_input["speaker_ids"])[None] | |
| # reshape embedded_speakers | |
| if embedded_speakers.ndim == 1: | |
| embedded_speakers = embedded_speakers[None, None, :] | |
| elif embedded_speakers.ndim == 2: | |
| embedded_speakers = embedded_speakers[None, :] | |
| else: | |
| embedded_speakers = aux_input["d_vectors"] | |
| encoder_outputs = self._concat_speaker_embedding(encoder_outputs, embedded_speakers) | |
| decoder_outputs, alignments, stop_tokens = self.decoder.inference(encoder_outputs) | |
| postnet_outputs = self.postnet(decoder_outputs) | |
| postnet_outputs = decoder_outputs + postnet_outputs | |
| decoder_outputs, postnet_outputs, alignments = self.shape_outputs(decoder_outputs, postnet_outputs, alignments) | |
| outputs = { | |
| "model_outputs": postnet_outputs, | |
| "decoder_outputs": decoder_outputs, | |
| "alignments": alignments, | |
| "stop_tokens": stop_tokens, | |
| } | |
| return outputs | |
| def before_backward_pass(self, loss_dict, optimizer) -> None: | |
| # Extracting custom training specific operations for capacitron | |
| # from the trainer | |
| if self.use_capacitron_vae: | |
| loss_dict["capacitron_vae_beta_loss"].backward() | |
| optimizer.first_step() | |
| def train_step(self, batch: Dict, criterion: torch.nn.Module): | |
| """A single training step. Forward pass and loss computation. | |
| Args: | |
| batch ([Dict]): A dictionary of input tensors. | |
| criterion ([type]): Callable criterion to compute model loss. | |
| """ | |
| text_input = batch["text_input"] | |
| text_lengths = batch["text_lengths"] | |
| mel_input = batch["mel_input"] | |
| mel_lengths = batch["mel_lengths"] | |
| stop_targets = batch["stop_targets"] | |
| stop_target_lengths = batch["stop_target_lengths"] | |
| speaker_ids = batch["speaker_ids"] | |
| d_vectors = batch["d_vectors"] | |
| aux_input = {"speaker_ids": speaker_ids, "d_vectors": d_vectors} | |
| outputs = self.forward(text_input, text_lengths, mel_input, mel_lengths, aux_input) | |
| # set the [alignment] lengths wrt reduction factor for guided attention | |
| if mel_lengths.max() % self.decoder.r != 0: | |
| alignment_lengths = ( | |
| mel_lengths + (self.decoder.r - (mel_lengths.max() % self.decoder.r)) | |
| ) // self.decoder.r | |
| else: | |
| alignment_lengths = mel_lengths // self.decoder.r | |
| # compute loss | |
| with autocast(enabled=False): # use float32 for the criterion | |
| loss_dict = criterion( | |
| outputs["model_outputs"].float(), | |
| outputs["decoder_outputs"].float(), | |
| mel_input.float(), | |
| None, | |
| outputs["stop_tokens"].float(), | |
| stop_targets.float(), | |
| stop_target_lengths, | |
| outputs["capacitron_vae_outputs"] if self.capacitron_vae else None, | |
| mel_lengths, | |
| None if outputs["decoder_outputs_backward"] is None else outputs["decoder_outputs_backward"].float(), | |
| outputs["alignments"].float(), | |
| alignment_lengths, | |
| None if outputs["alignments_backward"] is None else outputs["alignments_backward"].float(), | |
| text_lengths, | |
| ) | |
| # compute alignment error (the lower the better ) | |
| align_error = 1 - alignment_diagonal_score(outputs["alignments"]) | |
| loss_dict["align_error"] = align_error | |
| return outputs, loss_dict | |
| def get_optimizer(self) -> List: | |
| if self.use_capacitron_vae: | |
| return CapacitronOptimizer(self.config, self.named_parameters()) | |
| return get_optimizer(self.config.optimizer, self.config.optimizer_params, self.config.lr, self) | |
| def get_scheduler(self, optimizer: object): | |
| opt = optimizer.primary_optimizer if self.use_capacitron_vae else optimizer | |
| return get_scheduler(self.config.lr_scheduler, self.config.lr_scheduler_params, opt) | |
| def before_gradient_clipping(self): | |
| if self.use_capacitron_vae: | |
| # Capacitron model specific gradient clipping | |
| model_params_to_clip = [] | |
| for name, param in self.named_parameters(): | |
| if param.requires_grad: | |
| if name != "capacitron_vae_layer.beta": | |
| model_params_to_clip.append(param) | |
| torch.nn.utils.clip_grad_norm_(model_params_to_clip, self.capacitron_vae.capacitron_grad_clip) | |
| def _create_logs(self, batch, outputs, ap): | |
| """Create dashboard log information.""" | |
| postnet_outputs = outputs["model_outputs"] | |
| alignments = outputs["alignments"] | |
| alignments_backward = outputs["alignments_backward"] | |
| mel_input = batch["mel_input"] | |
| pred_spec = postnet_outputs[0].data.cpu().numpy() | |
| gt_spec = mel_input[0].data.cpu().numpy() | |
| align_img = alignments[0].data.cpu().numpy() | |
| figures = { | |
| "prediction": plot_spectrogram(pred_spec, ap, output_fig=False), | |
| "ground_truth": plot_spectrogram(gt_spec, ap, output_fig=False), | |
| "alignment": plot_alignment(align_img, output_fig=False), | |
| } | |
| if self.bidirectional_decoder or self.double_decoder_consistency: | |
| figures["alignment_backward"] = plot_alignment(alignments_backward[0].data.cpu().numpy(), output_fig=False) | |
| # Sample audio | |
| audio = ap.inv_melspectrogram(pred_spec.T) | |
| return figures, {"audio": audio} | |
| def train_log( | |
| self, batch: dict, outputs: dict, logger: "Logger", assets: dict, steps: int | |
| ) -> None: # pylint: disable=no-self-use | |
| """Log training progress.""" | |
| figures, audios = self._create_logs(batch, outputs, self.ap) | |
| logger.train_figures(steps, figures) | |
| logger.train_audios(steps, audios, self.ap.sample_rate) | |
| def eval_step(self, batch: dict, criterion: nn.Module): | |
| return self.train_step(batch, criterion) | |
| def eval_log(self, batch: dict, outputs: dict, logger: "Logger", assets: dict, steps: int) -> None: | |
| figures, audios = self._create_logs(batch, outputs, self.ap) | |
| logger.eval_figures(steps, figures) | |
| logger.eval_audios(steps, audios, self.ap.sample_rate) | |
| def init_from_config(config: "Tacotron2Config", samples: Union[List[List], List[Dict]] = None): | |
| """Initiate model from config | |
| Args: | |
| config (Tacotron2Config): Model config. | |
| samples (Union[List[List], List[Dict]]): Training samples to parse speaker ids for training. | |
| Defaults to None. | |
| """ | |
| from TTS.utils.audio import AudioProcessor | |
| ap = AudioProcessor.init_from_config(config) | |
| tokenizer, new_config = TTSTokenizer.init_from_config(config) | |
| speaker_manager = SpeakerManager.init_from_config(new_config, samples) | |
| return Tacotron2(new_config, ap, tokenizer, speaker_manager) | |