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imbalance_cifar.py
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imbalance_cifar.py
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import torch
import torchvision
import torchvision.transforms as transforms
import numpy as np
class IMBALANCECIFAR10(torchvision.datasets.CIFAR10):
cls_num = 10
def __init__(self, root, imb_type='exp', imb_factor=0.01, rand_number=0, train=True,
transform=None, target_transform=None,
download=False):
super(IMBALANCECIFAR10, self).__init__(root, train, transform, target_transform, download)
np.random.seed(rand_number)
img_num_list = self.get_img_num_per_cls(self.cls_num, imb_type, imb_factor)
self.gen_imbalanced_data(img_num_list)
def get_img_num_per_cls(self, cls_num, imb_type, imb_factor):
img_max = len(self.data) / cls_num
img_num_per_cls = []
if imb_type == 'exp':
for cls_idx in range(cls_num):
num = img_max * (imb_factor**(cls_idx / (cls_num - 1.0)))
img_num_per_cls.append(int(num))
elif imb_type == 'step':
for cls_idx in range(cls_num // 2):
img_num_per_cls.append(int(img_max))
for cls_idx in range(cls_num // 2):
img_num_per_cls.append(int(img_max * imb_factor))
else:
img_num_per_cls.extend([int(img_max)] * cls_num)
return img_num_per_cls
def gen_imbalanced_data(self, img_num_per_cls):
new_data = []
new_targets = []
targets_np = np.array(self.targets, dtype=np.int64)
classes = np.unique(targets_np)
# np.random.shuffle(classes)
self.num_per_cls_dict = dict()
for the_class, the_img_num in zip(classes, img_num_per_cls):
self.num_per_cls_dict[the_class] = the_img_num
idx = np.where(targets_np == the_class)[0]
np.random.shuffle(idx)
selec_idx = idx[:the_img_num]
new_data.append(self.data[selec_idx, ...])
new_targets.extend([the_class, ] * the_img_num)
new_data = np.vstack(new_data)
self.data = new_data
self.targets = new_targets
def get_cls_num_list(self):
cls_num_list = []
for i in range(self.cls_num):
cls_num_list.append(self.num_per_cls_dict[i])
return cls_num_list
class IMBALANCECIFAR100(IMBALANCECIFAR10):
"""`CIFAR100 <https://www.cs.toronto.edu/~kriz/cifar.html>`_ Dataset.
This is a subclass of the `CIFAR10` Dataset.
"""
base_folder = 'cifar-100-python'
url = "https://www.cs.toronto.edu/~kriz/cifar-100-python.tar.gz"
filename = "cifar-100-python.tar.gz"
tgz_md5 = 'eb9058c3a382ffc7106e4002c42a8d85'
train_list = [
['train', '16019d7e3df5f24257cddd939b257f8d'],
]
test_list = [
['test', 'f0ef6b0ae62326f3e7ffdfab6717acfc'],
]
meta = {
'filename': 'meta',
'key': 'fine_label_names',
'md5': '7973b15100ade9c7d40fb424638fde48',
}
cls_num = 100
if __name__ == '__main__':
transform = transforms.Compose(
[transforms.ToTensor(),
transforms.Normalize((0.5, 0.5, 0.5), (0.5, 0.5, 0.5))])
trainset = IMBALANCECIFAR100(root='./data', train=True,
download=True, transform=transform)
trainloader = iter(trainset)
data, label = next(trainloader)
import pdb; pdb.set_trace()