from PIL import Image
import os
import os.path
import numpy as np
from typing import Any, Callable, Optional, Tuple
from .vision import VisionDataset
from .utils import check_integrity, download_and_extract_archive, verify_str_arg
[docs]class STL10(VisionDataset):
"""`STL10 <https://cs.stanford.edu/~acoates/stl10/>`_ Dataset.
Args:
root (string): Root directory of dataset where directory
``stl10_binary`` exists.
split (string): One of {'train', 'test', 'unlabeled', 'train+unlabeled'}.
Accordingly dataset is selected.
folds (int, optional): One of {0-9} or None.
For training, loads one of the 10 pre-defined folds of 1k samples for the
standard evaluation procedure. If no value is passed, loads the 5k samples.
transform (callable, optional): A function/transform that takes in an PIL image
and returns a transformed version. E.g, ``transforms.RandomCrop``
target_transform (callable, optional): A function/transform that takes in the
target and transforms it.
download (bool, optional): If true, downloads the dataset from the internet and
puts it in root directory. If dataset is already downloaded, it is not
downloaded again.
"""
base_folder = 'stl10_binary'
url = "http://ai.stanford.edu/~acoates/stl10/stl10_binary.tar.gz"
filename = "stl10_binary.tar.gz"
tgz_md5 = '91f7769df0f17e558f3565bffb0c7dfb'
class_names_file = 'class_names.txt'
folds_list_file = 'fold_indices.txt'
train_list = [
['train_X.bin', '918c2871b30a85fa023e0c44e0bee87f'],
['train_y.bin', '5a34089d4802c674881badbb80307741'],
['unlabeled_X.bin', '5242ba1fed5e4be9e1e742405eb56ca4']
]
test_list = [
['test_X.bin', '7f263ba9f9e0b06b93213547f721ac82'],
['test_y.bin', '36f9794fa4beb8a2c72628de14fa638e']
]
splits = ('train', 'train+unlabeled', 'unlabeled', 'test')
def __init__(
self,
root: str,
split: str = "train",
folds: Optional[int] = None,
transform: Optional[Callable] = None,
target_transform: Optional[Callable] = None,
download: bool = False,
) -> None:
super(STL10, self).__init__(root, transform=transform,
target_transform=target_transform)
self.split = verify_str_arg(split, "split", self.splits)
self.folds = self._verify_folds(folds)
if download:
self.download()
elif not self._check_integrity():
raise RuntimeError(
'Dataset not found or corrupted. '
'You can use download=True to download it')
# now load the picked numpy arrays
self.labels: np.ndarray
if self.split == 'train':
self.data, self.labels = self.__loadfile(
self.train_list[0][0], self.train_list[1][0])
self.__load_folds(folds)
elif self.split == 'train+unlabeled':
self.data, self.labels = self.__loadfile(
self.train_list[0][0], self.train_list[1][0])
self.__load_folds(folds)
unlabeled_data, _ = self.__loadfile(self.train_list[2][0])
self.data = np.concatenate((self.data, unlabeled_data))
self.labels = np.concatenate(
(self.labels, np.asarray([-1] * unlabeled_data.shape[0])))
elif self.split == 'unlabeled':
self.data, _ = self.__loadfile(self.train_list[2][0])
self.labels = np.asarray([-1] * self.data.shape[0])
else: # self.split == 'test':
self.data, self.labels = self.__loadfile(
self.test_list[0][0], self.test_list[1][0])
class_file = os.path.join(
self.root, self.base_folder, self.class_names_file)
if os.path.isfile(class_file):
with open(class_file) as f:
self.classes = f.read().splitlines()
def _verify_folds(self, folds: Optional[int]) -> Optional[int]:
if folds is None:
return folds
elif isinstance(folds, int):
if folds in range(10):
return folds
msg = ("Value for argument folds should be in the range [0, 10), "
"but got {}.")
raise ValueError(msg.format(folds))
else:
msg = "Expected type None or int for argument folds, but got type {}."
raise ValueError(msg.format(type(folds)))
[docs] def __getitem__(self, index: int) -> Tuple[Any, Any]:
"""
Args:
index (int): Index
Returns:
tuple: (image, target) where target is index of the target class.
"""
target: Optional[int]
if self.labels is not None:
img, target = self.data[index], int(self.labels[index])
else:
img, target = self.data[index], None
# doing this so that it is consistent with all other datasets
# to return a PIL Image
img = Image.fromarray(np.transpose(img, (1, 2, 0)))
if self.transform is not None:
img = self.transform(img)
if self.target_transform is not None:
target = self.target_transform(target)
return img, target
def __len__(self) -> int:
return self.data.shape[0]
def __loadfile(self, data_file: str, labels_file: Optional[str] = None) -> Tuple[np.ndarray, Optional[np.ndarray]]:
labels = None
if labels_file:
path_to_labels = os.path.join(
self.root, self.base_folder, labels_file)
with open(path_to_labels, 'rb') as f:
labels = np.fromfile(f, dtype=np.uint8) - 1 # 0-based
path_to_data = os.path.join(self.root, self.base_folder, data_file)
with open(path_to_data, 'rb') as f:
# read whole file in uint8 chunks
everything = np.fromfile(f, dtype=np.uint8)
images = np.reshape(everything, (-1, 3, 96, 96))
images = np.transpose(images, (0, 1, 3, 2))
return images, labels
def _check_integrity(self) -> bool:
root = self.root
for fentry in (self.train_list + self.test_list):
filename, md5 = fentry[0], fentry[1]
fpath = os.path.join(root, self.base_folder, filename)
if not check_integrity(fpath, md5):
return False
return True
def download(self) -> None:
if self._check_integrity():
print('Files already downloaded and verified')
return
download_and_extract_archive(self.url, self.root, filename=self.filename, md5=self.tgz_md5)
self._check_integrity()
def extra_repr(self) -> str:
return "Split: {split}".format(**self.__dict__)
def __load_folds(self, folds: Optional[int]) -> None:
# loads one of the folds if specified
if folds is None:
return
path_to_folds = os.path.join(
self.root, self.base_folder, self.folds_list_file)
with open(path_to_folds, 'r') as f:
str_idx = f.read().splitlines()[folds]
list_idx = np.fromstring(str_idx, dtype=np.uint8, sep=' ')
self.data, self.labels = self.data[list_idx, :, :, :], self.labels[list_idx]