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""" Loader Factory, Fast Collate, CUDA Prefetcher
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Prefetcher and Fast Collate inspired by NVIDIA APEX example at
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https://github.com/NVIDIA/apex/commit/d5e2bb4bdeedd27b1dfaf5bb2b24d6c000dee9be#diff-cf86c282ff7fba81fad27a559379d5bf
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Hacked together by / Copyright 2020 Ross Wightman
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"""
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import torch.utils.data
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import numpy as np
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from .transforms_factory import create_transform
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from .constants import IMAGENET_DEFAULT_MEAN, IMAGENET_DEFAULT_STD
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from .distributed_sampler import OrderedDistributedSampler
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from .random_erasing import RandomErasing
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from .mixup import FastCollateMixup
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def fast_collate(batch):
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""" A fast collation function optimized for uint8 images (np array or torch) and int64 targets (labels)"""
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assert isinstance(batch[0], tuple)
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batch_size = len(batch)
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if isinstance(batch[0][0], tuple):
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# This branch 'deinterleaves' and flattens tuples of input tensors into one tensor ordered by position
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# such that all tuple of position n will end up in a torch.split(tensor, batch_size) in nth position
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inner_tuple_size = len(batch[0][0])
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flattened_batch_size = batch_size * inner_tuple_size
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targets = torch.zeros(flattened_batch_size, dtype=torch.int64)
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tensor = torch.zeros((flattened_batch_size, *batch[0][0][0].shape), dtype=torch.uint8)
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for i in range(batch_size):
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assert len(batch[i][0]) == inner_tuple_size # all input tensor tuples must be same length
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for j in range(inner_tuple_size):
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targets[i + j * batch_size] = batch[i][1]
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tensor[i + j * batch_size] += torch.from_numpy(batch[i][0][j])
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return tensor, targets
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elif isinstance(batch[0][0], np.ndarray):
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targets = torch.tensor([b[1] for b in batch], dtype=torch.int64)
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assert len(targets) == batch_size
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tensor = torch.zeros((batch_size, *batch[0][0].shape), dtype=torch.uint8)
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for i in range(batch_size):
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tensor[i] += torch.from_numpy(batch[i][0])
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return tensor, targets
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elif isinstance(batch[0][0], torch.Tensor):
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targets = torch.tensor([b[1] for b in batch], dtype=torch.int64)
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assert len(targets) == batch_size
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tensor = torch.zeros((batch_size, *batch[0][0].shape), dtype=torch.uint8)
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for i in range(batch_size):
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tensor[i].copy_(batch[i][0])
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return tensor, targets
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else:
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assert False
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class PrefetchLoader:
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def __init__(self,
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loader,
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mean=IMAGENET_DEFAULT_MEAN,
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std=IMAGENET_DEFAULT_STD,
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fp16=False,
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re_prob=0.,
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re_mode='const',
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re_count=1,
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re_num_splits=0):
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self.loader = loader
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self.mean = torch.tensor([x * 255 for x in mean]).cuda().view(1, 3, 1, 1)
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self.std = torch.tensor([x * 255 for x in std]).cuda().view(1, 3, 1, 1)
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self.fp16 = fp16
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if fp16:
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self.mean = self.mean.half()
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self.std = self.std.half()
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if re_prob > 0.:
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self.random_erasing = RandomErasing(
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probability=re_prob, mode=re_mode, max_count=re_count, num_splits=re_num_splits)
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else:
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self.random_erasing = None
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def __iter__(self):
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stream = torch.cuda.Stream()
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first = True
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for next_input, next_target in self.loader:
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with torch.cuda.stream(stream):
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next_input = next_input.cuda(non_blocking=True)
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next_target = next_target.cuda(non_blocking=True)
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if self.fp16:
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next_input = next_input.half().sub_(self.mean).div_(self.std)
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else:
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next_input = next_input.float().sub_(self.mean).div_(self.std)
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if self.random_erasing is not None:
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next_input = self.random_erasing(next_input)
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if not first:
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yield input, target
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else:
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first = False
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torch.cuda.current_stream().wait_stream(stream)
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input = next_input
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target = next_target
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yield input, target
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def __len__(self):
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return len(self.loader)
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@property
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def sampler(self):
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return self.loader.sampler
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@property
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def dataset(self):
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return self.loader.dataset
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@property
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def mixup_enabled(self):
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if isinstance(self.loader.collate_fn, FastCollateMixup):
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return self.loader.collate_fn.mixup_enabled
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else:
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return False
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@mixup_enabled.setter
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def mixup_enabled(self, x):
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if isinstance(self.loader.collate_fn, FastCollateMixup):
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self.loader.collate_fn.mixup_enabled = x
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def create_loader(
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dataset,
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input_size,
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batch_size,
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is_training=False,
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use_prefetcher=True,
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no_aug=False,
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re_prob=0.,
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re_mode='const',
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re_count=1,
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re_split=False,
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scale=None,
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ratio=None,
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hflip=0.5,
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vflip=0.,
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color_jitter=0.4,
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auto_augment=None,
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num_aug_splits=0,
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interpolation='bilinear',
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mean=IMAGENET_DEFAULT_MEAN,
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std=IMAGENET_DEFAULT_STD,
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num_workers=1,
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distributed=False,
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crop_pct=None,
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collate_fn=None,
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pin_memory=False,
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fp16=False,
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tf_preprocessing=False,
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use_multi_epochs_loader=False
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):
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re_num_splits = 0
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if re_split:
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# apply RE to second half of batch if no aug split otherwise line up with aug split
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re_num_splits = num_aug_splits or 2
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dataset.transform = create_transform(
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input_size,
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is_training=is_training,
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use_prefetcher=use_prefetcher,
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no_aug=no_aug,
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scale=scale,
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ratio=ratio,
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hflip=hflip,
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vflip=vflip,
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color_jitter=color_jitter,
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auto_augment=auto_augment,
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interpolation=interpolation,
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mean=mean,
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std=std,
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crop_pct=crop_pct,
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tf_preprocessing=tf_preprocessing,
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re_prob=re_prob,
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re_mode=re_mode,
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re_count=re_count,
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re_num_splits=re_num_splits,
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separate=num_aug_splits > 0,
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)
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sampler = None
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if distributed:
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if is_training:
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sampler = torch.utils.data.distributed.DistributedSampler(dataset)
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else:
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# This will add extra duplicate entries to result in equal num
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# of samples per-process, will slightly alter validation results
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sampler = OrderedDistributedSampler(dataset)
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if collate_fn is None:
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collate_fn = fast_collate if use_prefetcher else torch.utils.data.dataloader.default_collate
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loader_class = torch.utils.data.DataLoader
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if use_multi_epochs_loader:
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loader_class = MultiEpochsDataLoader
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loader = loader_class(
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dataset,
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batch_size=batch_size,
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shuffle=sampler is None and is_training,
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num_workers=num_workers,
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sampler=sampler,
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collate_fn=collate_fn,
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pin_memory=pin_memory,
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drop_last=is_training,
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)
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if use_prefetcher:
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prefetch_re_prob = re_prob if is_training and not no_aug else 0.
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loader = PrefetchLoader(
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loader,
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mean=mean,
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std=std,
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fp16=fp16,
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re_prob=prefetch_re_prob,
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re_mode=re_mode,
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re_count=re_count,
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re_num_splits=re_num_splits
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)
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return loader
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class MultiEpochsDataLoader(torch.utils.data.DataLoader):
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def __init__(self, *args, **kwargs):
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super().__init__(*args, **kwargs)
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self._DataLoader__initialized = False
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self.batch_sampler = _RepeatSampler(self.batch_sampler)
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self._DataLoader__initialized = True
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self.iterator = super().__iter__()
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def __len__(self):
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return len(self.batch_sampler.sampler)
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def __iter__(self):
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for i in range(len(self)):
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yield next(self.iterator)
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class _RepeatSampler(object):
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""" Sampler that repeats forever.
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Args:
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sampler (Sampler)
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"""
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def __init__(self, sampler):
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self.sampler = sampler
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def __iter__(self):
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while True:
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yield from iter(self.sampler)
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