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tools.py
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tools.py
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import shutil
import logging
import os
import torch
from torch import nn
from torchvision import models
def get_logger(logpath, filepath, package_files=[], displaying=True, saving=True, debug=False):
logger = logging.getLogger()
if debug:
level = logging.DEBUG
else:
level = logging.INFO
logger.setLevel(level)
if saving:
info_file_handler = logging.FileHandler(logpath, mode="a")
info_file_handler.setLevel(level)
logger.addHandler(info_file_handler)
if displaying:
console_handler = logging.StreamHandler()
console_handler.setLevel(level)
logger.addHandler(console_handler)
logger.info(filepath)
with open(filepath, "r") as f:
logger.info(f.read())
for f in package_files:
logger.info(f)
with open(f, "r") as package_f:
logger.info(package_f.read())
return logger
def makedirs(dirname):
if not os.path.exists(dirname):
os.makedirs(dirname)
def save_each_checkpoint(state, epoch, save_dir):
ckpt_path = os.path.join(save_dir, 'ckpt_%d.pth.tar' % epoch)
torch.save(state, ckpt_path)
def save_checkpoint(state, is_best, save_dir):
ckpt_path = os.path.join(save_dir, 'checkpoint.pth.tar')
torch.save(state, ckpt_path)
if is_best:
best_ckpt_path = os.path.join(save_dir, 'model_best.pth.tar')
shutil.copyfile(ckpt_path, best_ckpt_path)
class AverageMeter(object):
"""Computes and stores the average and current value"""
def __init__(self, name, fmt=':f'):
self.name = name
self.fmt = fmt
self.reset()
def reset(self):
self.val = 0
self.avg = 0
self.sum = 0
self.count = 0
def update(self, val, n=1):
self.val = val
self.sum += val * n
self.count += n
self.avg = self.sum / self.count
def __str__(self):
fmtstr = '{name} {val' + self.fmt + '} ({avg' + self.fmt + '})'
return fmtstr.format(**self.__dict__)
class ProgressMeter(object):
def __init__(self, num_batches, meters, prefix=""):
self.batch_fmtstr = self._get_batch_fmtstr(num_batches)
self.meters = meters
self.prefix = prefix
def display(self, batch):
entries = [self.prefix + self.batch_fmtstr.format(batch)]
entries += [str(meter) for meter in self.meters]
return '\t'.join(entries)
def _get_batch_fmtstr(self, num_batches):
num_digits = len(str(num_batches // 1))
fmt = '{:' + str(num_digits) + 'd}'
return '[' + fmt + '/' + fmt.format(num_batches) + ']'
def accuracy(output, target, topk=(1,)):
"""Computes the accuracy over the k top predictions for the specified values of k"""
with torch.no_grad():
maxk = max(topk)
batch_size = target.size(0)
_, pred = output.topk(maxk, 1, True, True)
pred = pred.t()
correct = pred.eq(target.view(1, -1).expand_as(pred))
res = []
for k in topk:
correct_k = correct[:k].view(-1).float().sum(0, keepdim=True)
res.append(correct_k.mul_(100.0 / batch_size))
return res
arch_to_key = {
'alexnet': 'alexnet',
'alexnet_moco': 'alexnet',
'resnet18': 'resnet18',
'resnet50': 'resnet50',
'rotnet_r50': 'resnet50',
'rotnet_r18': 'resnet18',
'resnet18_moco': 'resnet18',
'resnet_moco': 'resnet50',
}
model_names = list(arch_to_key.keys())
def remove_dropout(model):
classif = model.classifier.children()
classif = [nn.Sequential() if isinstance(m, nn.Dropout) else m for m in classif]
model.classifier = nn.Sequential(*classif)
# 1. stores a list of models to ensemble
# 2. forward through each model and save the output
# 3. return mean of the outputs along the class dimension
class EnsembleNet(nn.ModuleList):
def forward(self, x):
out = [m(x) for m in self]
out = torch.stack(out, dim=-1)
out = out.mean(dim=-1)
return out