python/FunASR-XL.git

			@@ -41,6 +41,7 @@
			drop_last=False,
			is_training: bool = True,
			sort_size: int = 1024,
			start_step: int = 0,
			**kwargs,
			):

			@@ -70,7 +71,10 @@
			self.max_token_length = kwargs.get("max_token_length", 2048)
			self.min_token_length = kwargs.get("min_token_length", 0)
			self.length_scale_source = kwargs.get("length_scale_source", 1.0)

			self.start_step = start_step
			self.batch_num = 1
			if self.start_step > 0:
			logging.info(f"Warning, start_step > 0, dataloader start from step: {self.start_step}")
			# super().__init__(dataset, num_replicas=num_replicas, rank=rank,
			# shuffle=shuffle, drop_last=drop_last)

			@@ -92,7 +96,7 @@
			max_len_in_batch = 0 # Tracks the max sample length within the current batch

			for idx in sorted_indices:


			# original_sample_length = self.dataset.get_source_len(idx)
			# if (
			# original_sample_length < self.min_token_length
			@@ -142,14 +146,19 @@
			# Allocate the batches to the current rank
			start_idx = self.rank * batches_per_rank
			end_idx = start_idx + batches_per_rank
			rank_batches = buffer_batches[start_idx:end_idx]
			rank_batches = buffer_batches[start_idx + self.start_step : end_idx]

			self.batch_num = len(rank_batches)

			logging.info(
			f"rank: {self.rank}, dataloader start from step: {self.start_step}, batch_num: {end_idx-start_idx}, batch_num_after_step: {len(rank_batches)}"
			)
			# Return an iterator over the batches for the current rank
			return iter(rank_batches)

			def __len__(self):
			# Calculate the number of batches per epoch for the current rank
			return 1
			return self.batch_num

			def set_epoch(self, epoch):
			# Set the epoch for shuffling