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artst-tts-demo / artst /data /speech_to_class_dataset.py

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	# --------------------------------------------------------
	# ArTST: Arabic Text and Speech Transformer (https://arxiv.org/abs/2310.16621)
	# Github source: https://github.com/mbzuai-nlp/ArTST
	# Based on speecht5, fairseq and espnet code bases
	# https://github.com/microsoft/SpeechT5/tree/main/SpeechT5; https://github.com/pytorch/fairseq; https://github.com/espnet/espnet
	# --------------------------------------------------------

	import logging
	import os
	from typing import Any, List, Optional

	import numpy as np

	import torch
	import torch.nn.functional as F
	from fairseq.data import data_utils, Dictionary
	from fairseq.data.fairseq_dataset import FairseqDataset

	logger = logging.getLogger(__name__)


	def load_audio(manifest_path, max_keep, min_keep):
	"""manifest tsv: wav_path, wav_nframe, wav_class

	Args
	manifest_path: str
	max_keep: int
	min_keep: int

	Return
	root, names, inds, tot, sizes, classes
	"""
	n_long, n_short = 0, 0
	names, inds, sizes, classes = [], [], [], []
	with open(manifest_path) as f:
	root = f.readline().strip()
	for ind, line in enumerate(f):
	items = line.strip().split("\t")
	assert len(items) >= 2, line
	sz = int(items[1])
	if min_keep is not None and sz < min_keep:
	n_short += 1
	elif max_keep is not None and sz > max_keep:
	n_long += 1
	else:
	names.append(items[0])
	if len(items) > 2:
	classes.append(items[2])
	inds.append(ind)
	sizes.append(sz)
	tot = ind + 1
	logger.info(
	(
	f"max_keep={max_keep}, min_keep={min_keep}, "
	f"loaded {len(names)}, skipped {n_short} short and {n_long} long, "
	f"longest-loaded={max(sizes)}, shortest-loaded={min(sizes)}"
	)
	)
	if len(classes) == 0:
	logger.warn("no classes loaded only if inference")
	return root, names, inds, tot, sizes, classes


	def sample_from_feature(x: np.ndarray, max_segment_length: int = 300):
	"""Load a segment within 300-400/51200-76800 frames or the corresponding samples from a utterance.

	Args:
	x (np.ndarray): feature or waveform (frames[, features]), e.g., log mel filter bank or waveform
	max_segment_length (int, optional): maximum segment length. Defaults to 400.

	Returns:
	np.ndarray: segmented features
	"""
	if len(x) <= max_segment_length:
	return x
	start = np.random.randint(0, x.shape[0] - max_segment_length)
	return x[start: start + max_segment_length]


	class SpeechToClassDataset(FairseqDataset):
	def __init__(
	self,
	manifest_path: str,
	sample_rate: float,
	label_processors: Optional[List[Any]] = None,
	max_keep_sample_size: Optional[int] = None,
	min_keep_sample_size: Optional[int] = None,
	shuffle: bool = True,
	normalize: bool = False,
	tgt_dict: Optional[Dictionary] = None,
	max_length: Optional[int] = None
	):
	self.audio_root, self.audio_names, inds, tot, self.wav_sizes, self.wav_classes = load_audio(
	manifest_path, max_keep_sample_size, min_keep_sample_size
	)
	self.sample_rate = sample_rate
	self.shuffle = shuffle

	self.label_processors = label_processors

	self.normalize = normalize
	self.tgt_dict = tgt_dict
	self.max_length = max_length
	logger.info(
	f"max_length={max_length}, normalize={normalize}"
	)

	def get_audio(self, index):
	import soundfile as sf

	wav_path = os.path.join(self.audio_root, self.audio_names[index])
	wav, cur_sample_rate = sf.read(wav_path)
	if self.max_length is not None:
	wav = sample_from_feature(wav, self.max_length)
	wav = torch.from_numpy(wav).float()
	wav = self.postprocess(wav, cur_sample_rate)
	return wav

	def get_label(self, index):
	label = self.wav_classes[index]

	if self.label_processors is not None:
	label = self.label_processors(label)
	return label

	def __getitem__(self, index):
	wav = self.get_audio(index)
	label = None
	if len(self.wav_classes) == len(self.audio_names):
	label = self.get_label(index)
	return {"id": index, "source": wav, "label": label}

	def __len__(self):
	return len(self.wav_sizes)

	def collater(self, samples):
	samples = [s for s in samples if s["source"] is not None]
	if len(samples) == 0:
	return {}

	audios = [s["source"] for s in samples]
	audio_sizes = [len(s) for s in audios]

	audio_size = max(audio_sizes)
	collated_audios, padding_mask = self.collater_audio(
	audios, audio_size
	)

	decoder_label = None
	decoder_target = None
	decoder_target_lengths = None
	if samples[0]["label"] is not None:
	targets_by_label = [
	[s["label"] for s in samples]
	]
	targets_list, lengths_list, ntokens_list = self.collater_label(targets_by_label)

	decoder_label = [
	(targets_list[0][i, :lengths_list[0][i]]).long()
	for i in range(targets_list[0].size(0))
	]

	decoder_target = data_utils.collate_tokens(
	decoder_label,
	self.tgt_dict.pad(),
	self.tgt_dict.eos(),
	left_pad=False,
	move_eos_to_beginning=False,
	)
	decoder_target_lengths = torch.tensor(
	[x.size(0) for x in decoder_label], dtype=torch.long
	)
	prev_output_tokens = data_utils.collate_tokens(
	[torch.LongTensor([-1]) for _ in samples],
	self.tgt_dict.pad(),
	self.tgt_dict.eos(),
	left_pad=False,
	move_eos_to_beginning=True,
	)

	net_input = {
	"source": collated_audios,
	"padding_mask": padding_mask,
	"prev_output_tokens": prev_output_tokens,
	"task_name": "s2c",
	}
	batch = {
	"id": torch.LongTensor([s["id"] for s in samples]),
	"net_input": net_input,
	"target": decoder_target,
	"target_lengths": decoder_target_lengths,
	"task_name": "s2c",
	"ntokens": len(samples),
	}

	return batch

	def collater_audio(self, audios, audio_size):
	collated_audios = audios[0].new_zeros(len(audios), audio_size)
	padding_mask = (
	torch.BoolTensor(collated_audios.shape).fill_(False)
	)
	for i, audio in enumerate(audios):
	diff = len(audio) - audio_size
	if diff == 0:
	collated_audios[i] = audio
	elif diff < 0:
	collated_audios[i] = torch.cat([audio, audio.new_full((-diff,), 0.0)])
	padding_mask[i, diff:] = True
	else:
	raise Exception("Diff should not be larger than 0")
	return collated_audios, padding_mask

	def collater_seq_label(self, targets, pad):
	lengths = torch.LongTensor([len(t) for t in targets])
	ntokens = lengths.sum().item()
	targets = data_utils.collate_tokens(targets, pad_idx=pad, left_pad=False)
	return targets, lengths, ntokens

	def collater_label(self, targets_by_label):
	targets_list, lengths_list, ntokens_list = [], [], []
	itr = zip(targets_by_label, [self.tgt_dict.pad()])
	for targets, pad in itr:
	targets, lengths, ntokens = self.collater_seq_label(targets, pad)
	targets_list.append(targets)
	lengths_list.append(lengths)
	ntokens_list.append(ntokens)
	return targets_list, lengths_list, ntokens_list

	def num_tokens(self, index):
	return self.size(index)

	def size(self, index):
	return self.wav_sizes[index]

	@property
	def sizes(self):
	return np.array(self.wav_sizes)

	def ordered_indices(self):
	if self.shuffle:
	order = [np.random.permutation(len(self))]
	else:
	order = [np.arange(len(self))]

	order.append(self.wav_sizes)
	return np.lexsort(order)[::-1]

	def postprocess(self, wav, cur_sample_rate):
	if wav.dim() == 2:
	wav = wav.mean(-1)
	assert wav.dim() == 1, wav.dim()

	if cur_sample_rate != self.sample_rate:
	raise Exception(f"sr {cur_sample_rate} != {self.sample_rate}")

	if self.normalize:
	with torch.no_grad():
	wav = F.layer_norm(wav, wav.shape)
	return wav