# Copyright (c) 2017-present, Facebook, Inc. # All rights reserved. # # This source code is licensed under the license found in the LICENSE file in # the root directory of this source tree. An additional grant of patent rights # can be found in the PATENTS file in the same directory.abs import csv import logging import os.path as op from typing import List, Optional import numpy as np import torch from fairseq.data import Dictionary from fairseq.data.audio.speech_to_text_dataset import S2TDataConfig from fairseq.data.audio.text_to_speech_dataset import ( TextToSpeechDataset, TextToSpeechDatasetCreator, ) logger = logging.getLogger(__name__) class FrmTextToSpeechDataset(TextToSpeechDataset): def __init__( self, split: str, is_train_split: bool, data_cfg: S2TDataConfig, audio_paths: List[str], n_frames: List[int], src_texts: Optional[List[str]] = None, tgt_texts: Optional[List[str]] = None, speakers: Optional[List[str]] = None, src_langs: Optional[List[str]] = None, tgt_langs: Optional[List[str]] = None, ids: Optional[List[str]] = None, tgt_dict: Optional[Dictionary] = None, pre_tokenizer=None, bpe_tokenizer=None, n_frames_per_step=1, speaker_to_id=None, do_chunk=False, chunk_bound=-1, chunk_init=50, chunk_incr=5, add_eos=True, dedup=True, ref_fpu=-1, ): # It assumes texts are encoded at a fixed frame-rate super().__init__( split=split, is_train_split=is_train_split, data_cfg=data_cfg, audio_paths=audio_paths, n_frames=n_frames, src_texts=src_texts, tgt_texts=tgt_texts, speakers=speakers, src_langs=src_langs, tgt_langs=tgt_langs, ids=ids, tgt_dict=tgt_dict, pre_tokenizer=pre_tokenizer, bpe_tokenizer=bpe_tokenizer, n_frames_per_step=n_frames_per_step, speaker_to_id=speaker_to_id, ) self.do_chunk = do_chunk self.chunk_bound = chunk_bound self.chunk_init = chunk_init self.chunk_incr = chunk_incr self.add_eos = add_eos self.dedup = dedup self.ref_fpu = ref_fpu self.chunk_size = -1 if do_chunk: assert self.chunk_incr >= 0 assert self.pre_tokenizer is None def __getitem__(self, index): index, source, target, speaker_id, _, _, _ = super().__getitem__(index) if target[-1].item() == self.tgt_dict.eos_index: target = target[:-1] fpu = source.size(0) / target.size(0) # frame-per-unit fps = self.n_frames_per_step assert ( self.ref_fpu == -1 or abs((fpu * fps - self.ref_fpu) / self.ref_fpu) < 0.1 ), f"{fpu*fps} != {self.ref_fpu}" # only chunk training split if self.is_train_split and self.do_chunk and self.chunk_size > 0: lang = target[: int(self.data_cfg.prepend_tgt_lang_tag)] text = target[int(self.data_cfg.prepend_tgt_lang_tag) :] size = len(text) chunk_size = min(self.chunk_size, size) chunk_start = np.random.randint(size - chunk_size + 1) text = text[chunk_start : chunk_start + chunk_size] target = torch.cat((lang, text), 0) f_size = int(np.floor(chunk_size * fpu)) f_start = int(np.floor(chunk_start * fpu)) assert f_size > 0 source = source[f_start : f_start + f_size, :] if self.dedup: target = torch.unique_consecutive(target) if self.add_eos: eos_idx = self.tgt_dict.eos_index target = torch.cat((target, torch.LongTensor([eos_idx])), 0) return index, source, target, speaker_id def set_epoch(self, epoch): if self.is_train_split and self.do_chunk: old = self.chunk_size self.chunk_size = self.chunk_init + epoch * self.chunk_incr if self.chunk_bound > 0: self.chunk_size = min(self.chunk_size, self.chunk_bound) logger.info( ( f"{self.split}: setting chunk size " f"from {old} to {self.chunk_size}" ) ) class FrmTextToSpeechDatasetCreator(TextToSpeechDatasetCreator): # inherit for key names @classmethod def from_tsv( cls, root: str, data_cfg: S2TDataConfig, split: str, tgt_dict, pre_tokenizer, bpe_tokenizer, is_train_split: bool, n_frames_per_step: int, speaker_to_id, do_chunk: bool = False, chunk_bound: int = -1, chunk_init: int = 50, chunk_incr: int = 5, add_eos: bool = True, dedup: bool = True, ref_fpu: float = -1, ) -> FrmTextToSpeechDataset: tsv_path = op.join(root, f"{split}.tsv") if not op.isfile(tsv_path): raise FileNotFoundError(f"Dataset not found: {tsv_path}") with open(tsv_path) as f: reader = csv.DictReader( f, delimiter="\t", quotechar=None, doublequote=False, lineterminator="\n", quoting=csv.QUOTE_NONE, ) s = [dict(e) for e in reader] assert len(s) > 0 ids = [ss[cls.KEY_ID] for ss in s] audio_paths = [op.join(data_cfg.audio_root, ss[cls.KEY_AUDIO]) for ss in s] n_frames = [int(ss[cls.KEY_N_FRAMES]) for ss in s] tgt_texts = [ss[cls.KEY_TGT_TEXT] for ss in s] src_texts = [ss.get(cls.KEY_SRC_TEXT, cls.DEFAULT_SRC_TEXT) for ss in s] speakers = [ss.get(cls.KEY_SPEAKER, cls.DEFAULT_SPEAKER) for ss in s] src_langs = [ss.get(cls.KEY_SRC_LANG, cls.DEFAULT_LANG) for ss in s] tgt_langs = [ss.get(cls.KEY_TGT_LANG, cls.DEFAULT_LANG) for ss in s] return FrmTextToSpeechDataset( split=split, is_train_split=is_train_split, data_cfg=data_cfg, audio_paths=audio_paths, n_frames=n_frames, src_texts=src_texts, tgt_texts=tgt_texts, speakers=speakers, src_langs=src_langs, tgt_langs=tgt_langs, ids=ids, tgt_dict=tgt_dict, pre_tokenizer=pre_tokenizer, bpe_tokenizer=bpe_tokenizer, n_frames_per_step=n_frames_per_step, speaker_to_id=speaker_to_id, do_chunk=do_chunk, chunk_bound=chunk_bound, chunk_init=chunk_init, chunk_incr=chunk_incr, add_eos=add_eos, dedup=dedup, ref_fpu=ref_fpu, )