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artst-tts-demo / artst /data /multitask_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 bisect

	import logging
	import numpy as np
	from torch.utils.data.dataloader import default_collate
	from fairseq.data import data_utils

	from fairseq.data.fairseq_dataset import FairseqDataset

	logger = logging.getLogger(__name__)

	class MultitaskDataset(FairseqDataset):
	@staticmethod
	def cumsum(sequence):
	r, s = [], 0
	for e in sequence:
	curr_len = len(e)
	r.append(curr_len + s)
	s += curr_len
	return r

	def __init__(self, datasets, sample_ratios=1, batch_ratio=None):
	super(MultitaskDataset, self).__init__()
	assert len(datasets) > 0, "datasets should not be an empty iterable"
	self.datasets = list(datasets)
	if isinstance(sample_ratios, int):
	sample_ratios = [sample_ratios] * len(self.datasets)
	if batch_ratio is not None:
	logger.info('batch ratio is ' + str(batch_ratio))
	self.batch_ratio = batch_ratio
	else:
	self.batch_ratio = None
	else:
	logger.info('set sample ratio to ' + str(sample_ratios))
	if batch_ratio is not None:
	logger.info('batch ratio is ' + str(batch_ratio))
	self.batch_ratio = batch_ratio
	else:
	self.batch_ratio = None
	self.sample_ratios = sample_ratios
	self._ordered_indices = None
	self._update_size()

	def __len__(self):
	return self.cumulative_sizes[-1]

	def __getitem__(self, idx):
	dataset_idx, sample_idx = self._get_dataset_and_sample_index(idx)
	sample = self.datasets[dataset_idx][sample_idx]
	if isinstance(sample, dict):
	sample["dataset_idx"] = dataset_idx
	else:
	sample = sample + (dataset_idx,)
	return sample

	def _update_size(self):
	self.cumulative_sizes = self.cumsum(self.datasets)
	self.real_sizes = [len(d) for d in self.datasets]

	def _get_dataset_and_sample_index(self, idx: int):
	dataset_idx = bisect.bisect_right(self.cumulative_sizes, idx)
	if dataset_idx == 0:
	sample_idx = idx
	else:
	sample_idx = idx - self.cumulative_sizes[dataset_idx - 1]
	sample_idx = sample_idx % self.real_sizes[dataset_idx]
	return dataset_idx, sample_idx

	def collater(self, samples, **extra_args):
	# For now only supports datasets with same underlying collater implementations
	if samples is not None and len(samples) > 0:
	if isinstance(samples[0], dict):
	dataset_idx = samples[0]["dataset_idx"]
	else:
	dataset_idx = samples[0][-1]
	samples = [sample[:-1] for sample in samples]
	else:
	dataset_idx = 0

	if hasattr(self.datasets[dataset_idx], "collater"):
	return self.datasets[dataset_idx].collater(samples, **extra_args)
	else:
	return default_collate(samples, **extra_args)

	def size(self, idx: int):
	"""
	Return an example's size as a float or tuple.
	"""
	dataset_idx, sample_idx = self._get_dataset_and_sample_index(idx)
	return self.datasets[dataset_idx].size(sample_idx)

	def num_tokens(self, index: int):
	return np.max(self.size(index))

	def attr(self, attr: str, index: int):
	dataset_idx = bisect.bisect_right(self.cumulative_sizes, index)
	return getattr(self.datasets[dataset_idx], attr, None)

	@property
	def sizes(self):
	_dataset_sizes = []
	for ds in self.datasets:
	if isinstance(ds.sizes, np.ndarray):
	_dataset_sizes.append(ds.sizes)
	else:
	# Only support underlying dataset with single size array.
	assert isinstance(ds.sizes, list)
	_dataset_sizes.append(ds.sizes[0])
	return np.concatenate(_dataset_sizes)

	@property
	def supports_prefetch(self):
	return all(d.supports_prefetch for d in self.datasets)

	def ordered_indices(self):
	# ordered_indices = []
	# for i, dataset in enumerate(self.datasets):
	# indice = dataset.ordered_indices()
	# ordered_indices.append(indice)
	if self._ordered_indices is None:
	# Call the underlying dataset's ordered_indices() here, so that we
	# get the same random ordering as we would have from using the
	# underlying sub-datasets directly.
	self._ordered_indices = [
	dataset.ordered_indices()
	for dataset in self.datasets
	]
	return np.arange(len(self))

	def prefetch(self, indices):
	frm = 0
	for to, ds in zip(self.cumulative_sizes, self.datasets):
	real_size = len(ds)
	if getattr(ds, "supports_prefetch", False):
	ds.prefetch([(i - frm) % real_size for i in indices if frm <= i < to])
	frm = to

	def batch_by_size(
	self,
	indices,
	max_tokens=None,
	max_sentences=None,
	required_batch_size_multiple=1,
	):
	if not hasattr(self, "max_tokens"):
	self.max_tokens = max_tokens
	if not hasattr(self, "max_sentences"):
	self.max_sentences = max_sentences
	if not hasattr(self, "required_batch_size_multiple"):
	self.required_batch_size_multiple = required_batch_size_multiple
	batch_samplers = []
	for i, dataset in enumerate(self.datasets):
	batch_sampler = dataset.batch_by_size(
	self._ordered_indices[i],
	max_tokens=max_tokens if self.batch_ratio is None else max_tokens * self.batch_ratio[i],
	max_sentences=max_sentences,
	required_batch_size_multiple=required_batch_size_multiple,
	)
	if i > 0:
	for batch in batch_sampler:
	batch += self.cumulative_sizes[i - 1]
	if self.sample_ratios[i] != 1.0:
	batch_sampler = np.array(batch_sampler)
	batch_sampler = np.random.choice(batch_sampler, int(len(batch_sampler) * self.sample_ratios[i]))
	batch_sampler = list(batch_sampler)
	logger.info('Adjust batch by ratio ' + str(self.sample_ratios[i]) + ' and the number of batch is ' + str(int(len(batch_sampler))) + ' for dataset ' + str(i))
	batch_samplers.extend(batch_sampler)
	return batch_samplers

	def filter_indices_by_size(self, indices, max_positions):
	"""
	Filter each sub-dataset independently, then update the round robin to work
	on the filtered sub-datasets.
	"""
	if not hasattr(self, "max_positions"):
	self.max_positions = max_positions
	ignored_some = False
	for i in range(len(self.datasets)):
	# ignored = []
	self._ordered_indices[i], ignored = self.datasets[i].filter_indices_by_size(
	self._ordered_indices[i], self.max_positions[i]
	)
	if len(ignored) > 0:
	ignored_some = True
	logger.warning(
	f"{len(ignored)} samples from {i} have invalid sizes and will be skipped, "
	f"max_positions={self.max_positions[i]}, first few sample ids={ignored[:10]}"
	)

	logger.info('update dataset size')
	self._update_size()

	# Since we are modifying in place the _ordered_indices,
	# it's not possible anymore to return valid ignored indices.
	# Hopefully the extra debug information print above should be enough to debug.
	# Ideally we would receive ignore_invalid_inputs so that we could have
	# a proper error message.
	return (np.arange(len(self)), [0] if ignored_some else [])

	@property
	def can_reuse_epoch_itr_across_epochs(self):
	return all(d.can_reuse_epoch_itr_across_epochs for d in self.datasets)

	def set_epoch(self, epoch):
	super().set_epoch(epoch)
	for ds in self.datasets:
	if hasattr(ds, "set_epoch"):
	ds.set_epoch(epoch)

	def shuffle_batches(self, batches, seed):
	logger.info("shuffle batches")
	new_batches_fromlist = []
	new_batches_notlist = []
	new_batches = []
	with data_utils.numpy_seed(seed):
	np.random.shuffle(batches)
	for batch in batches:
	if isinstance(batch, list):
	# np.random.shuffle(batch)
	new_batches_fromlist.append(batch)
	else:
	new_batches_notlist.append(batch)
	logger.info("Get " + str(len(new_batches_fromlist)) + " chunk from speech sides")
	logger.info("Get " + str(sum([len(batch_list) for batch_list in new_batches_fromlist])) + " batches from speech sides")
	logger.info("Get " + str(len(new_batches_notlist)) + " batches from text sides")
	if len(new_batches_fromlist) == 0:
	return new_batches_notlist
	st_ratio = int(len(new_batches_notlist) / len(new_batches_fromlist))
	logger.info("Get st_ratio " + str(st_ratio))
	last_idx = 0
	for i in range(len(new_batches_fromlist)):
	if i == len(new_batches_fromlist) - 1:
	new_batches_fromlist[i].extend(new_batches_notlist[last_idx:])
	else:
	new_batches_fromlist[i].extend(new_batches_notlist[last_idx : last_idx + st_ratio])
	np.random.shuffle(new_batches_fromlist[i])
	new_batches.extend(new_batches_fromlist[i])
	last_idx = last_idx + st_ratio
	logger.info("Finish shuffle")
	return new_batches

	def reset_batch_sampler(self):
	logger.info("reset batch sampler")
	self._ordered_indices = [
	self.datasets[i].ordered_indices()
	for i in range(len(self.datasets))
	]
	self.filter_indices_by_size(None, None)

	batch_samplers = self.batch_by_size(
	None,
	self.max_tokens,
	self.max_sentences,
	self.required_batch_size_multiple
	)
	return batch_samplers