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utils.py
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utils.py
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# Copyright (c) 2015-present, Facebook, Inc.
# All rights reserved.
"""
Misc functions, including distributed helpers.
Mostly copy-paste from torchvision references.
"""
import io
import os
import time
from collections import defaultdict, deque
import datetime
import math
import torch
import torch.distributed as dist
import torch.nn as nn
import torch.nn.functional as F
from einops import rearrange
data_loaders_names = {
'Brightness': 'brightness',
'Contrast': 'contrast',
'Defocus Blur': 'defocus_blur',
'Elastic Transform': 'elastic_transform',
'Fog': 'fog',
'Frost': 'frost',
'Gaussian Noise': 'gaussian_noise',
'Glass Blur': 'glass_blur',
'Impulse Noise': 'impulse_noise',
'JPEG Compression': 'jpeg_compression',
'Motion Blur': 'motion_blur',
'Pixelate': 'pixelate',
'Shot Noise': 'shot_noise',
'Snow': 'snow',
'Zoom Blur': 'zoom_blur'
}
def get_ce_alexnet():
"""Returns Corruption Error values for AlexNet"""
ce_alexnet = dict()
ce_alexnet['Gaussian Noise'] = 0.886428
ce_alexnet['Shot Noise'] = 0.894468
ce_alexnet['Impulse Noise'] = 0.922640
ce_alexnet['Defocus Blur'] = 0.819880
ce_alexnet['Glass Blur'] = 0.826268
ce_alexnet['Motion Blur'] = 0.785948
ce_alexnet['Zoom Blur'] = 0.798360
ce_alexnet['Snow'] = 0.866816
ce_alexnet['Frost'] = 0.826572
ce_alexnet['Fog'] = 0.819324
ce_alexnet['Brightness'] = 0.564592
ce_alexnet['Contrast'] = 0.853204
ce_alexnet['Elastic Transform'] = 0.646056
ce_alexnet['Pixelate'] = 0.717840
ce_alexnet['JPEG Compression'] = 0.606500
return ce_alexnet
def get_mce_from_accuracy(accuracy, error_alexnet):
"""Computes mean Corruption Error from accuracy"""
error = 100. - accuracy
ce = error / (error_alexnet * 100.)
return ce
class SmoothedValue(object):
"""Track a series of values and provide access to smoothed values over a
window or the global series average.
"""
def __init__(self, window_size=20, fmt=None):
if fmt is None:
fmt = "{median:.4f} ({global_avg:.4f})"
self.deque = deque(maxlen=window_size)
self.total = 0.0
self.count = 0
self.fmt = fmt
def update(self, value, n=1):
self.deque.append(value)
self.count += n
self.total += value * n
def synchronize_between_processes(self):
"""
Warning: does not synchronize the deque!
"""
if not is_dist_avail_and_initialized():
return
t = torch.tensor([self.count, self.total], dtype=torch.float64, device='cuda')
dist.barrier()
dist.all_reduce(t)
t = t.tolist()
self.count = int(t[0])
self.total = t[1]
@property
def median(self):
d = torch.tensor(list(self.deque))
return d.median().item()
@property
def avg(self):
d = torch.tensor(list(self.deque), dtype=torch.float32)
return d.mean().item()
@property
def global_avg(self):
return self.total / self.count
@property
def max(self):
return max(self.deque)
@property
def value(self):
return self.deque[-1]
def __str__(self):
return self.fmt.format(
median=self.median,
avg=self.avg,
global_avg=self.global_avg,
max=self.max,
value=self.value)
class RASampler(torch.utils.data.Sampler):
"""Sampler that restricts data loading to a subset of the dataset for distributed,
with repeated augmentation.
It ensures that different each augmented version of a sample will be visible to a
different process (GPU)
Heavily based on torch.utils.data.DistributedSampler
"""
def __init__(self, dataset, num_replicas=None, rank=None, shuffle=True):
if num_replicas is None:
if not dist.is_available():
raise RuntimeError("Requires distributed package to be available")
num_replicas = dist.get_world_size()
if rank is None:
if not dist.is_available():
raise RuntimeError("Requires distributed package to be available")
rank = dist.get_rank()
self.dataset = dataset
self.num_replicas = num_replicas
self.rank = rank
self.epoch = 0
self.num_samples = int(math.ceil(len(self.dataset) * 3.0 / self.num_replicas))
self.total_size = self.num_samples * self.num_replicas
# self.num_selected_samples = int(math.ceil(len(self.dataset) / self.num_replicas))
self.num_selected_samples = int(math.floor(len(self.dataset) // 256 * 256 / self.num_replicas))
self.shuffle = shuffle
def __iter__(self):
# deterministically shuffle based on epoch
g = torch.Generator()
g.manual_seed(self.epoch)
if self.shuffle:
indices = torch.randperm(len(self.dataset), generator=g).tolist()
else:
indices = list(range(len(self.dataset)))
# add extra samples to make it evenly divisible
indices = [ele for ele in indices for i in range(3)]
indices += indices[:(self.total_size - len(indices))]
assert len(indices) == self.total_size
# subsample
indices = indices[self.rank:self.total_size:self.num_replicas]
assert len(indices) == self.num_samples
return iter(indices[:self.num_selected_samples])
def __len__(self):
return self.num_selected_samples
def set_epoch(self, epoch):
self.epoch = epoch
class DistillationLoss(torch.nn.Module):
"""
This module wraps a standard criterion and adds an extra knowledge distillation loss by
taking a teacher model prediction and using it as additional supervision.
"""
def __init__(self, base_criterion: torch.nn.Module, teacher_model: torch.nn.Module,
distillation_type: str, alpha: float, tau: float):
super().__init__()
self.base_criterion = base_criterion
self.teacher_model = teacher_model
assert distillation_type in ['none', 'soft', 'hard']
self.distillation_type = distillation_type
self.alpha = alpha
self.tau = tau
def forward(self, inputs, outputs, labels):
"""
Args:
inputs: The original inputs that are feed to the teacher model
outputs: the outputs of the model to be trained. It is expected to be
either a Tensor, or a Tuple[Tensor, Tensor], with the original output
in the first position and the distillation predictions as the second output
labels: the labels for the base criterion
"""
outputs_kd = None
if not isinstance(outputs, torch.Tensor):
# assume that the model outputs a tuple of [outputs, outputs_kd]
outputs, outputs_kd = outputs
base_loss = self.base_criterion(outputs, labels)
if self.distillation_type == 'none':
return base_loss
if outputs_kd is None:
raise ValueError("When knowledge distillation is enabled, the model is "
"expected to return a Tuple[Tensor, Tensor] with the output of the "
"class_token and the dist_token")
# don't backprop throught the teacher
with torch.no_grad():
teacher_outputs = self.teacher_model(inputs)
if self.distillation_type == 'soft':
T = self.tau
# taken from https://github.com/peterliht/knowledge-distillation-pytorch/blob/master/model/net.py#L100
# with slight modifications
distillation_loss = F.kl_div(
F.log_softmax(outputs_kd / T, dim=1),
F.log_softmax(teacher_outputs / T, dim=1),
reduction='sum',
log_target=True
) * (T * T) / outputs_kd.numel()
elif self.distillation_type == 'hard':
distillation_loss = F.cross_entropy(outputs_kd, teacher_outputs.argmax(dim=1))
loss = base_loss * (1 - self.alpha) + distillation_loss * self.alpha
return loss
class MetricLogger(object):
def __init__(self, delimiter="\t"):
self.meters = defaultdict(SmoothedValue)
self.delimiter = delimiter
def update(self, **kwargs):
for k, v in kwargs.items():
if isinstance(v, torch.Tensor):
v = v.item()
assert isinstance(v, (float, int))
self.meters[k].update(v)
def __getattr__(self, attr):
if attr in self.meters:
return self.meters[attr]
if attr in self.__dict__:
return self.__dict__[attr]
raise AttributeError("'{}' object has no attribute '{}'".format(
type(self).__name__, attr))
def __str__(self):
loss_str = []
for name, meter in self.meters.items():
loss_str.append(
"{}: {}".format(name, str(meter))
)
return self.delimiter.join(loss_str)
def synchronize_between_processes(self):
for meter in self.meters.values():
meter.synchronize_between_processes()
def add_meter(self, name, meter):
self.meters[name] = meter
def log_every(self, iterable, print_freq, header=None):
i = 0
if not header:
header = ''
start_time = time.time()
end = time.time()
iter_time = SmoothedValue(fmt='{avg:.4f}')
data_time = SmoothedValue(fmt='{avg:.4f}')
space_fmt = ':' + str(len(str(len(iterable)))) + 'd'
log_msg = [
header,
'[{0' + space_fmt + '}/{1}]',
'eta: {eta}',
'{meters}',
'time: {time}',
'data: {data}'
]
if torch.cuda.is_available():
log_msg.append('max mem: {memory:.0f}')
log_msg = self.delimiter.join(log_msg)
MB = 1024.0 * 1024.0
for obj in iterable:
data_time.update(time.time() - end)
yield obj
iter_time.update(time.time() - end)
if i % print_freq == 0 or i == len(iterable) - 1:
eta_seconds = iter_time.global_avg * (len(iterable) - i)
eta_string = str(datetime.timedelta(seconds=int(eta_seconds)))
if torch.cuda.is_available():
print(log_msg.format(
i, len(iterable), eta=eta_string,
meters=str(self),
time=str(iter_time), data=str(data_time),
memory=torch.cuda.max_memory_allocated() / MB))
else:
print(log_msg.format(
i, len(iterable), eta=eta_string,
meters=str(self),
time=str(iter_time), data=str(data_time)))
i += 1
end = time.time()
total_time = time.time() - start_time
total_time_str = str(datetime.timedelta(seconds=int(total_time)))
print('{} Total time: {} ({:.4f} s / it)'.format(
header, total_time_str, total_time / len(iterable)))
def _load_checkpoint_for_ema(model_ema, checkpoint):
"""
Workaround for ModelEma._load_checkpoint to accept an already-loaded object
"""
mem_file = io.BytesIO()
torch.save(checkpoint, mem_file)
mem_file.seek(0)
model_ema._load_checkpoint(mem_file)
def setup_for_distributed(is_master):
"""
This function disables printing when not in master process
"""
import builtins as __builtin__
builtin_print = __builtin__.print
def print(*args, **kwargs):
force = kwargs.pop('force', False)
if is_master or force:
builtin_print(*args, **kwargs)
__builtin__.print = print
def is_dist_avail_and_initialized():
if not dist.is_available():
return False
if not dist.is_initialized():
return False
return True
def get_world_size():
if not is_dist_avail_and_initialized():
return 1
return dist.get_world_size()
def get_rank():
if not is_dist_avail_and_initialized():
return 0
return dist.get_rank()
def is_main_process():
return get_rank() == 0
def save_on_master(*args, **kwargs):
if is_main_process():
torch.save(*args, **kwargs)
def unnormalize_image(data):
mean = torch.Tensor([0.485, 0.456, 0.406]).cuda().view(3, 1, 1)
std = torch.Tensor([0.229, 0.224, 0.225]).cuda().view(3, 1, 1)
img = (data.squeeze(0) * std + mean)
return img.permute([1, 2, 0]).detach().cpu().numpy()