TTS / TTSModel.py

Update TTSModel.py

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	import re
	import logging
	import torch
	import torchaudio
	import random
	import speechbrain as sb
	import torch as nn
	from speechbrain.utils.fetching import fetch
	from speechbrain.inference.interfaces import Pretrained
	from speechbrain.inference.text import GraphemeToPhoneme


	logger = logging.getLogger(__name__)


	class TTSModel(Pretrained):
	"""
	A ready-to-use wrapper for Transformer TTS (text -> mel_spec).
	Arguments
	---------
	hparams
	Hyperparameters (from HyperPyYAML)"""

	HPARAMS_NEEDED = ["model", "blank_index", "padding_mask", "lookahead_mask", "mel_spec_feats", "label_encoder"]
	MODULES_NEEDED = ["modules"]

	def __init__(self, args, *kwargs):
	super().__init__(args, *kwargs)
	self.label_encoder = self.hparams.label_encoder
	self.label_encoder.update_from_iterable(self.hparams["lexicon"], sequence_input=False)
	self.g2p = GraphemeToPhoneme.from_hparams("speechbrain/soundchoice-g2p")


	def text_to_phoneme(self, text):
	"""
	Generates phoneme sequences for the given text using a Grapheme-to-Phoneme (G2P) model.

	Args:
	text (str): The input text.

	Returns:
	list: List of phoneme sequences for the words in the text.
	"""
	abbreviation_expansions = {
	"Mr.": "Mister",
	"Mrs.": "Misess",
	"Dr.": "Doctor",
	"No.": "Number",
	"St.": "Saint",
	"Co.": "Company",
	"Jr.": "Junior",
	"Maj.": "Major",
	"Gen.": "General",
	"Drs.": "Doctors",
	"Rev.": "Reverend",
	"Lt.": "Lieutenant",
	"Hon.": "Honorable",
	"Sgt.": "Sergeant",
	"Capt.": "Captain",
	"Esq.": "Esquire",
	"Ltd.": "Limited",
	"Col.": "Colonel",
	"Ft.": "Fort"
	}

	# Expand abbreviations
	for abbreviation, expansion in abbreviation_expansions.items():
	text = text.replace(abbreviation, expansion)

	phonemes = self.g2p(text)
	phonemes = self.label_encoder.encode_sequence(phonemes)
	phoneme_seq = torch.LongTensor(phonemes)

	return phoneme_seq, len(phoneme_seq)

	def encode_batch(self, texts):
	"""Computes mel-spectrogram for a list of texts

	Texts must be sorted in decreasing order on their lengths

	Arguments
	---------
	texts: List[str]
	texts to be encoded into spectrogram

	Returns
	-------
	tensors of output spectrograms, output lengths and alignments
	"""
	with torch.no_grad():
	phoneme_seqs = [self.text_to_phoneme(text)[0] for text in texts]
	phoneme_seqs_padded, input_lengths = self.pad_sequences(phoneme_seqs)

	encoded_phoneme = self.mods.encoder_emb(phoneme_seqs_padded)
	encoder_emb = self.mods.enc_pre_net(encoded_phoneme)
	pos_emb_enc = self.mods.pos_emb_enc(encoder_emb)
	encoder_emb = encoder_emb + pos_emb_enc


	stop_generated = False
	decoder_input = torch.zeros(1, 80, 1, device=self.device)
	stop_tokens_logits = []
	max_generation_length = 1000
	sequence_length = 0

	result = []
	result.append(decoder_input)

	src_mask = torch.zeros(encoder_emb.size(1), encoder_emb.size(1), device=self.device)
	src_key_padding_mask = self.hparams.padding_mask(encoder_emb, self.hparams.blank_index)


	while not stop_generated and sequence_length < max_generation_length:
	encoded_mel = self.mods.dec_pre_net(decoder_input)
	pos_emb_dec = self.mods.pos_emb_dec(encoded_mel)
	decoder_emb = encoded_mel + pos_emb_dec

	decoder_output = self.mods.Seq2SeqTransformer(
	encoder_emb, decoder_emb, src_mask=src_mask,
	src_key_padding_mask=src_key_padding_mask)

	mel_output = self.mods.mel_lin(decoder_output)

	stop_token_logit = self.mods.stop_lin(decoder_output).squeeze(-1)

	post_mel_outputs = self.mods.postnet(mel_output.to(self.device))
	refined_mel_output = mel_output + post_mel_outputs.to(self.device)
	refined_mel_output = refined_mel_output.transpose(1, 2)

	stop_tokens_logits.append(stop_token_logit)
	stop_token_probs = torch.sigmoid(stop_token_logit)

	if torch.any(stop_token_probs[:, -1] >= self.hparams.stop_threshold):
	stop_generated = True

	decoder_input = refined_mel_output
	result.append(decoder_input)
	sequence_length += 1

	results = torch.cat(result, dim=2)
	stop_tokens_logits = torch.cat(stop_tokens_logits, dim=1)

	return results

	def pad_sequences(self, sequences):
	"""Pad sequences to the maximum length sequence in the batch.

	Arguments
	---------
	sequences: List[torch.Tensor]
	The sequences to pad

	Returns
	-------
	Padded sequences and original lengths
	"""
	max_length = max([len(seq) for seq in sequences])
	padded_seqs = torch.zeros(len(sequences), max_length, dtype=torch.long)
	lengths = []
	for i, seq in enumerate(sequences):
	length = len(seq)
	padded_seqs[i, :length] = seq
	lengths.append(length)
	return padded_seqs, torch.tensor(lengths)

	def encode_text(self, text):
	"""Runs inference for a single text str"""
	return self.encode_batch(text)

	def forward(self, texts):
	"Encodes the input texts."
	return self.encode_batch(texts)