# -*- coding: utf-8 -*- # Copyright 2020 TensorFlowTTS Team. # # 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. """Perform preprocessing and raw feature extraction for LJSpeech Ultimate dataset.""" import os import re import numpy as np import soundfile as sf from dataclasses import dataclass from tensorflow_tts.processor import BaseProcessor from tensorflow_tts.utils import cleaners from tensorflow_tts.utils.utils import PROCESSOR_FILE_NAME from g2p_en import G2p as grapheme_to_phn valid_symbols = [ "AA", "AA0", "AA1", "AA2", "AE", "AE0", "AE1", "AE2", "AH", "AH0", "AH1", "AH2", "AO", "AO0", "AO1", "AO2", "AW", "AW0", "AW1", "AW2", "AY", "AY0", "AY1", "AY2", "B", "CH", "D", "DH", "EH", "EH0", "EH1", "EH2", "ER", "ER0", "ER1", "ER2", "EY", "EY0", "EY1", "EY2", "F", "G", "HH", "IH", "IH0", "IH1", "IH2", "IY", "IY0", "IY1", "IY2", "JH", "K", "L", "M", "N", "NG", "OW", "OW0", "OW1", "OW2", "OY", "OY0", "OY1", "OY2", "P", "R", "S", "SH", "T", "TH", "UH", "UH0", "UH1", "UH2", "UW", "UW0", "UW1", "UW2", "V", "W", "Y", "Z", "ZH", ] _pad = "pad" _eos = "eos" _punctuation = "!'(),.:;?" # Unlike LJSpeech, we do not use spaces since we are phoneme only and spaces lead to very bad attention performance with phonetic input. _special = "-" # Prepend "@" to ARPAbet symbols to ensure uniqueness (some are the same as uppercase letters): _arpabet = ["@" + s for s in valid_symbols] # Export all symbols: LJSPEECH_U_SYMBOLS = [_pad] + list(_special) + list(_punctuation) + _arpabet + [_eos] # Regular expression matching text enclosed in curly braces: _curly_re = re.compile(r"(.*?)\{(.+?)\}(.*)") _arpa_exempt = _punctuation + _special arpa_g2p = grapheme_to_phn() @dataclass class LJSpeechUltimateProcessor(BaseProcessor): """LJSpeech Ultimate processor.""" cleaner_names: str = "english_cleaners" positions = { "wave_file": 0, "text_norm": 1, } train_f_name: str = "filelist.txt" def create_items(self): if self.data_dir: with open( os.path.join(self.data_dir, self.train_f_name), encoding="utf-8" ) as f: self.items = [self.split_line(self.data_dir, line, "|") for line in f] def split_line(self, data_dir, line, split): parts = line.strip().split(split) wave_file = parts[self.positions["wave_file"]] text_norm = parts[self.positions["text_norm"]] wav_path = os.path.join(data_dir, wave_file) speaker_name = "ljspeech" return text_norm, wav_path, speaker_name def setup_eos_token(self): return _eos def save_pretrained(self, saved_path): os.makedirs(saved_path, exist_ok=True) self._save_mapper(os.path.join(saved_path, PROCESSOR_FILE_NAME), {}) def to_arpa(self, in_str): phn_arr = arpa_g2p(in_str) phn_arr = [x for x in phn_arr if x != " "] arpa_str = "{" in_chain = True # Iterative array-traverse approach to build ARPA string. Phonemes must be in curly braces, but not punctuation for token in phn_arr: if token in _arpa_exempt and in_chain: arpa_str += " }" in_chain = False if token not in _arpa_exempt and not in_chain: arpa_str += " {" in_chain = True arpa_str += " " + token if in_chain: arpa_str += " }" return arpa_str def get_one_sample(self, item): text, wav_path, speaker_name = item # Check if this line is already an ARPA string by searching for the trademark curly brace. If not, we apply if not "{" in text: text = self.to_arpa(text) # normalize audio signal to be [-1, 1], soundfile already norm. audio, rate = sf.read(wav_path) audio = audio.astype(np.float32) # convert text to ids text_ids = np.asarray(self.text_to_sequence(text), np.int32) sample = { "raw_text": text, "text_ids": text_ids, "audio": audio, "utt_id": os.path.split(wav_path)[-1].split(".")[0], "speaker_name": speaker_name, "rate": rate, } return sample def text_to_sequence(self, text): sequence = [] # Check for curly braces and treat their contents as ARPAbet: while len(text): m = _curly_re.match(text) if not m: sequence += self._symbols_to_sequence( self._clean_text(text, [self.cleaner_names]) ) break sequence += self._symbols_to_sequence( self._clean_text(m.group(1), [self.cleaner_names]) ) sequence += self._arpabet_to_sequence(m.group(2)) text = m.group(3) # add eos tokens sequence += [self.eos_id] return sequence def _clean_text(self, text, cleaner_names): for name in cleaner_names: cleaner = getattr(cleaners, name) if not cleaner: raise Exception("Unknown cleaner: %s" % name) text = cleaner(text) return text def _symbols_to_sequence(self, symbols): return [self.symbol_to_id[s] for s in symbols if self._should_keep_symbol(s)] def _arpabet_to_sequence(self, text): return self._symbols_to_sequence(["@" + s for s in text.split()]) def _should_keep_symbol(self, s): return s in self.symbol_to_id and s != "_" and s != "~"