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Grounded-Segment-Anything / VISAM /datasets /data_prefetcher.py

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	# ------------------------------------------------------------------------
	# Copyright (c) 2022 megvii-research. All Rights Reserved.
	# ------------------------------------------------------------------------
	# Modified from Deformable DETR (https://github.com/fundamentalvision/Deformable-DETR)
	# Copyright (c) 2020 SenseTime. All Rights Reserved.
	# ------------------------------------------------------------------------
	# Modified from DETR (https://github.com/facebookresearch/detr)
	# Copyright (c) Facebook, Inc. and its affiliates. All Rights Reserved
	# ------------------------------------------------------------------------


	import torch
	from functools import partial
	from models.structures import Instances

	def to_cuda(samples, targets, device):
	samples = samples.to(device, non_blocking=True)
	targets = [{k: v.to(device, non_blocking=True) for k, v in t.items()} for t in targets]
	return samples, targets


	def tensor_to_cuda(tensor: torch.Tensor, device):
	return tensor.to(device)


	def is_tensor_or_instances(data):
	return isinstance(data, torch.Tensor) or isinstance(data, Instances)


	def data_apply(data, check_func, apply_func):
	if isinstance(data, dict):
	for k in data.keys():
	if check_func(data[k]):
	data[k] = apply_func(data[k])
	elif isinstance(data[k], dict) or isinstance(data[k], list):
	data_apply(data[k], check_func, apply_func)
	else:
	raise ValueError()
	elif isinstance(data, list):
	for i in range(len(data)):
	if check_func(data[i]):
	data[i] = apply_func(data[i])
	elif isinstance(data[i], dict) or isinstance(data[i], list):
	data_apply(data[i], check_func, apply_func)
	else:
	raise ValueError("invalid type {}".format(type(data[i])))
	else:
	raise ValueError("invalid type {}".format(type(data)))
	return data


	def data_dict_to_cuda(data_dict, device):
	return data_apply(data_dict, is_tensor_or_instances, partial(tensor_to_cuda, device=device))


	class data_prefetcher():
	def __init__(self, loader, device, prefetch=True):
	self.loader = iter(loader)
	self.prefetch = prefetch
	self.device = device
	if prefetch:
	self.stream = torch.cuda.Stream()
	self.preload()

	def preload(self):
	try:
	self.next_samples, self.next_targets = next(self.loader)
	except StopIteration:
	self.next_samples = None
	self.next_targets = None
	return
	# if record_stream() doesn't work, another option is to make sure device inputs are created
	# on the main stream.
	# self.next_input_gpu = torch.empty_like(self.next_input, device='cuda')
	# self.next_target_gpu = torch.empty_like(self.next_target, device='cuda')
	# Need to make sure the memory allocated for next_* is not still in use by the main stream
	# at the time we start copying to next_*:
	# self.stream.wait_stream(torch.cuda.current_stream())
	with torch.cuda.stream(self.stream):
	self.next_samples, self.next_targets = to_cuda(self.next_samples, self.next_targets, self.device)
	# more code for the alternative if record_stream() doesn't work:
	# copy_ will record the use of the pinned source tensor in this side stream.
	# self.next_input_gpu.copy_(self.next_input, non_blocking=True)
	# self.next_target_gpu.copy_(self.next_target, non_blocking=True)
	# self.next_input = self.next_input_gpu
	# self.next_target = self.next_target_gpu

	# With Amp, it isn't necessary to manually convert data to half.
	# if args.fp16:
	# self.next_input = self.next_input.half()
	# else:

	def next(self):
	if self.prefetch:
	torch.cuda.current_stream().wait_stream(self.stream)
	samples = self.next_samples
	targets = self.next_targets
	if samples is not None:
	samples.record_stream(torch.cuda.current_stream())
	if targets is not None:
	for t in targets:
	for k, v in t.items():
	v.record_stream(torch.cuda.current_stream())
	self.preload()
	else:
	try:
	samples, targets = next(self.loader)
	samples, targets = to_cuda(samples, targets, self.device)
	except StopIteration:
	print("catch_stop_iter")
	samples = None
	targets = None

	return samples, targets