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datasets.py
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datasets.py
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# Copyright (c) Facebook, Inc. and its affiliates. All Rights Reserved
import os
import torch
from PIL import Image, ImageFile
from torchvision import transforms
import torchvision.datasets.folder
from torch.utils.data import TensorDataset, Subset, ConcatDataset, Dataset
from torchvision.datasets import MNIST, ImageFolder
from torchvision.transforms.functional import rotate
from wilds.datasets.camelyon17_dataset import Camelyon17Dataset
from wilds.datasets.fmow_dataset import FMoWDataset
ImageFile.LOAD_TRUNCATED_IMAGES = True
DATASETS = [
# Debug
"Debug28",
"Debug224",
# Small images
"ColoredMNIST",
"RotatedMNIST",
# Big images
"VLCS",
"PACS",
"OfficeHome",
"TerraIncognita",
"DomainNet",
"SVIRO",
# WILDS datasets
"WILDSCamelyon",
"WILDSFMoW",
# Spawrious datasets
"SpawriousO2O_easy",
"SpawriousO2O_medium",
"SpawriousO2O_hard",
"SpawriousM2M_easy",
"SpawriousM2M_medium",
"SpawriousM2M_hard",
]
def get_dataset_class(dataset_name):
"""Return the dataset class with the given name."""
if dataset_name not in globals():
raise NotImplementedError("Dataset not found: {}".format(dataset_name))
return globals()[dataset_name]
def num_environments(dataset_name):
return len(get_dataset_class(dataset_name).ENVIRONMENTS)
class MultipleDomainDataset:
N_STEPS = 5001 # Default, subclasses may override
CHECKPOINT_FREQ = 100 # Default, subclasses may override
N_WORKERS = 8 # Default, subclasses may override
ENVIRONMENTS = None # Subclasses should override
INPUT_SHAPE = None # Subclasses should override
def __getitem__(self, index):
return self.datasets[index]
def __len__(self):
return len(self.datasets)
class Debug(MultipleDomainDataset):
def __init__(self, root, test_envs, hparams):
super().__init__()
self.input_shape = self.INPUT_SHAPE
self.num_classes = 2
self.datasets = []
for _ in [0, 1, 2]:
self.datasets.append(
TensorDataset(
torch.randn(16, *self.INPUT_SHAPE),
torch.randint(0, self.num_classes, (16,))
)
)
class Debug28(Debug):
INPUT_SHAPE = (3, 28, 28)
ENVIRONMENTS = ['0', '1', '2']
class Debug224(Debug):
INPUT_SHAPE = (3, 224, 224)
ENVIRONMENTS = ['0', '1', '2']
class MultipleEnvironmentMNIST(MultipleDomainDataset):
def __init__(self, root, environments, dataset_transform, input_shape,
num_classes):
super().__init__()
if root is None:
raise ValueError('Data directory not specified!')
original_dataset_tr = MNIST(root, train=True, download=True)
original_dataset_te = MNIST(root, train=False, download=True)
original_images = torch.cat((original_dataset_tr.data,
original_dataset_te.data))
original_labels = torch.cat((original_dataset_tr.targets,
original_dataset_te.targets))
shuffle = torch.randperm(len(original_images))
original_images = original_images[shuffle]
original_labels = original_labels[shuffle]
self.datasets = []
for i in range(len(environments)):
images = original_images[i::len(environments)]
labels = original_labels[i::len(environments)]
self.datasets.append(dataset_transform(images, labels, environments[i]))
self.input_shape = input_shape
self.num_classes = num_classes
class ColoredMNIST(MultipleEnvironmentMNIST):
ENVIRONMENTS = ['+90%', '+80%', '-90%']
def __init__(self, root, test_envs, hparams):
super(ColoredMNIST, self).__init__(root, [0.1, 0.2, 0.9],
self.color_dataset, (2, 28, 28,), 2)
self.input_shape = (2, 28, 28,)
self.num_classes = 2
def color_dataset(self, images, labels, environment):
# # Subsample 2x for computational convenience
# images = images.reshape((-1, 28, 28))[:, ::2, ::2]
# Assign a binary label based on the digit
labels = (labels < 5).float()
# Flip label with probability 0.25
labels = self.torch_xor_(labels,
self.torch_bernoulli_(0.25, len(labels)))
# Assign a color based on the label; flip the color with probability e
colors = self.torch_xor_(labels,
self.torch_bernoulli_(environment,
len(labels)))
images = torch.stack([images, images], dim=1)
# Apply the color to the image by zeroing out the other color channel
images[torch.tensor(range(len(images))), (
1 - colors).long(), :, :] *= 0
x = images.float().div_(255.0)
y = labels.view(-1).long()
return TensorDataset(x, y)
def torch_bernoulli_(self, p, size):
return (torch.rand(size) < p).float()
def torch_xor_(self, a, b):
return (a - b).abs()
class RotatedMNIST(MultipleEnvironmentMNIST):
ENVIRONMENTS = ['0', '15', '30', '45', '60', '75']
def __init__(self, root, test_envs, hparams):
super(RotatedMNIST, self).__init__(root, [0, 15, 30, 45, 60, 75],
self.rotate_dataset, (1, 28, 28,), 10)
def rotate_dataset(self, images, labels, angle):
rotation = transforms.Compose([
transforms.ToPILImage(),
transforms.Lambda(lambda x: rotate(x, angle, fill=(0,),
interpolation=torchvision.transforms.InterpolationMode.BILINEAR)),
transforms.ToTensor()])
x = torch.zeros(len(images), 1, 28, 28)
for i in range(len(images)):
x[i] = rotation(images[i])
y = labels.view(-1)
return TensorDataset(x, y)
class MultipleEnvironmentImageFolder(MultipleDomainDataset):
def __init__(self, root, test_envs, augment, hparams):
super().__init__()
environments = [f.name for f in os.scandir(root) if f.is_dir()]
environments = sorted(environments)
transform = transforms.Compose([
transforms.Resize((224,224)),
transforms.ToTensor(),
transforms.Normalize(
mean=[0.485, 0.456, 0.406], std=[0.229, 0.224, 0.225])
])
augment_transform = transforms.Compose([
# transforms.Resize((224,224)),
transforms.RandomResizedCrop(224, scale=(0.7, 1.0)),
transforms.RandomHorizontalFlip(),
transforms.ColorJitter(0.3, 0.3, 0.3, 0.3),
transforms.RandomGrayscale(),
transforms.ToTensor(),
transforms.Normalize(
mean=[0.485, 0.456, 0.406], std=[0.229, 0.224, 0.225]),
])
self.datasets = []
for i, environment in enumerate(environments):
if augment and (i not in test_envs):
env_transform = augment_transform
else:
env_transform = transform
path = os.path.join(root, environment)
env_dataset = ImageFolder(path,
transform=env_transform)
self.datasets.append(env_dataset)
self.input_shape = (3, 224, 224,)
self.num_classes = len(self.datasets[-1].classes)
class VLCS(MultipleEnvironmentImageFolder):
CHECKPOINT_FREQ = 300
ENVIRONMENTS = ["C", "L", "S", "V"]
def __init__(self, root, test_envs, hparams):
self.dir = os.path.join(root, "VLCS/")
super().__init__(self.dir, test_envs, hparams['data_augmentation'], hparams)
class PACS(MultipleEnvironmentImageFolder):
CHECKPOINT_FREQ = 300
ENVIRONMENTS = ["A", "C", "P", "S"]
def __init__(self, root, test_envs, hparams):
self.dir = os.path.join(root, "PACS/")
super().__init__(self.dir, test_envs, hparams['data_augmentation'], hparams)
class DomainNet(MultipleEnvironmentImageFolder):
CHECKPOINT_FREQ = 1000
ENVIRONMENTS = ["clip", "info", "paint", "quick", "real", "sketch"]
def __init__(self, root, test_envs, hparams):
self.dir = os.path.join(root, "domain_net/")
super().__init__(self.dir, test_envs, hparams['data_augmentation'], hparams)
class OfficeHome(MultipleEnvironmentImageFolder):
CHECKPOINT_FREQ = 300
ENVIRONMENTS = ["A", "C", "P", "R"]
def __init__(self, root, test_envs, hparams):
self.dir = os.path.join(root, "office_home/")
super().__init__(self.dir, test_envs, hparams['data_augmentation'], hparams)
class TerraIncognita(MultipleEnvironmentImageFolder):
CHECKPOINT_FREQ = 300
ENVIRONMENTS = ["L100", "L38", "L43", "L46"]
def __init__(self, root, test_envs, hparams):
self.dir = os.path.join(root, "terra_incognita/")
super().__init__(self.dir, test_envs, hparams['data_augmentation'], hparams)
class SVIRO(MultipleEnvironmentImageFolder):
CHECKPOINT_FREQ = 300
ENVIRONMENTS = ["aclass", "escape", "hilux", "i3", "lexus", "tesla", "tiguan", "tucson", "x5", "zoe"]
def __init__(self, root, test_envs, hparams):
self.dir = os.path.join(root, "sviro/")
super().__init__(self.dir, test_envs, hparams['data_augmentation'], hparams)
class WILDSEnvironment:
def __init__(
self,
wilds_dataset,
metadata_name,
metadata_value,
transform=None):
self.name = metadata_name + "_" + str(metadata_value)
metadata_index = wilds_dataset.metadata_fields.index(metadata_name)
metadata_array = wilds_dataset.metadata_array
subset_indices = torch.where(
metadata_array[:, metadata_index] == metadata_value)[0]
self.dataset = wilds_dataset
self.indices = subset_indices
self.transform = transform
def __getitem__(self, i):
x = self.dataset.get_input(self.indices[i])
if type(x).__name__ != "Image":
x = Image.fromarray(x)
y = self.dataset.y_array[self.indices[i]]
if self.transform is not None:
x = self.transform(x)
return x, y
def __len__(self):
return len(self.indices)
class WILDSDataset(MultipleDomainDataset):
INPUT_SHAPE = (3, 224, 224)
def __init__(self, dataset, metadata_name, test_envs, augment, hparams):
super().__init__()
transform = transforms.Compose([
transforms.Resize((224, 224)),
transforms.ToTensor(),
transforms.Normalize(
mean=[0.485, 0.456, 0.406], std=[0.229, 0.224, 0.225])
])
augment_transform = transforms.Compose([
transforms.Resize((224, 224)),
transforms.RandomResizedCrop(224, scale=(0.7, 1.0)),
transforms.RandomHorizontalFlip(),
transforms.ColorJitter(0.3, 0.3, 0.3, 0.3),
transforms.RandomGrayscale(),
transforms.ToTensor(),
transforms.Normalize(
mean=[0.485, 0.456, 0.406], std=[0.229, 0.224, 0.225]),
])
self.datasets = []
for i, metadata_value in enumerate(
self.metadata_values(dataset, metadata_name)):
if augment and (i not in test_envs):
env_transform = augment_transform
else:
env_transform = transform
env_dataset = WILDSEnvironment(
dataset, metadata_name, metadata_value, env_transform)
self.datasets.append(env_dataset)
self.input_shape = (3, 224, 224,)
self.num_classes = dataset.n_classes
def metadata_values(self, wilds_dataset, metadata_name):
metadata_index = wilds_dataset.metadata_fields.index(metadata_name)
metadata_vals = wilds_dataset.metadata_array[:, metadata_index]
return sorted(list(set(metadata_vals.view(-1).tolist())))
class WILDSCamelyon(WILDSDataset):
ENVIRONMENTS = [ "hospital_0", "hospital_1", "hospital_2", "hospital_3",
"hospital_4"]
def __init__(self, root, test_envs, hparams):
dataset = Camelyon17Dataset(root_dir=root)
super().__init__(
dataset, "hospital", test_envs, hparams['data_augmentation'], hparams)
class WILDSFMoW(WILDSDataset):
ENVIRONMENTS = [ "region_0", "region_1", "region_2", "region_3",
"region_4", "region_5"]
def __init__(self, root, test_envs, hparams):
dataset = FMoWDataset(root_dir=root)
super().__init__(
dataset, "region", test_envs, hparams['data_augmentation'], hparams)
## Spawrious base classes
class CustomImageFolder(Dataset):
"""
A class that takes one folder at a time and loads a set number of images in a folder and assigns them a specific class
"""
def __init__(self, folder_path, class_index, limit=None, transform=None):
self.folder_path = folder_path
self.class_index = class_index
self.image_paths = [os.path.join(folder_path, img) for img in os.listdir(folder_path) if img.endswith(('.png', '.jpg', '.jpeg'))]
if limit:
self.image_paths = self.image_paths[:limit]
self.transform = transform
def __len__(self):
return len(self.image_paths)
def __getitem__(self, index):
img_path = self.image_paths[index]
img = Image.open(img_path).convert('RGB')
if self.transform:
img = self.transform(img)
label = torch.tensor(self.class_index, dtype=torch.long)
return img, label
class SpawriousBenchmark(MultipleDomainDataset):
ENVIRONMENTS = ["Test", "SC_group_1", "SC_group_2"]
input_shape = (3, 224, 224)
num_classes = 4
class_list = ["bulldog", "corgi", "dachshund", "labrador"]
def __init__(self, train_combinations, test_combinations, root_dir, augment=True, type1=False):
self.type1 = type1
train_datasets, test_datasets = self._prepare_data_lists(train_combinations, test_combinations, root_dir, augment)
self.datasets = [ConcatDataset(test_datasets)] + train_datasets
# Prepares the train and test data lists by applying the necessary transformations.
def _prepare_data_lists(self, train_combinations, test_combinations, root_dir, augment):
test_transforms = transforms.Compose([
transforms.Resize((self.input_shape[1], self.input_shape[2])),
transforms.transforms.ToTensor(),
transforms.Normalize(mean=[0.485, 0.456, 0.406], std=[0.229, 0.224, 0.225]),
])
if augment:
train_transforms = transforms.Compose([
transforms.Resize((self.input_shape[1], self.input_shape[2])),
transforms.RandomHorizontalFlip(),
transforms.ColorJitter(0.3, 0.3, 0.3, 0.3),
transforms.RandomGrayscale(),
transforms.ToTensor(),
transforms.Normalize(mean=[0.485, 0.456, 0.406], std=[0.229, 0.224, 0.225]),
])
else:
train_transforms = test_transforms
train_data_list = self._create_data_list(train_combinations, root_dir, train_transforms)
test_data_list = self._create_data_list(test_combinations, root_dir, test_transforms)
return train_data_list, test_data_list
# Creates a list of datasets based on the given combinations and transformations.
def _create_data_list(self, combinations, root_dir, transforms):
data_list = []
if isinstance(combinations, dict):
# Build class groups for a given set of combinations, root directory, and transformations.
for_each_class_group = []
cg_index = 0
for classes, comb_list in combinations.items():
for_each_class_group.append([])
for ind, location_limit in enumerate(comb_list):
if isinstance(location_limit, tuple):
location, limit = location_limit
else:
location, limit = location_limit, None
cg_data_list = []
for cls in classes:
path = os.path.join(root_dir, f"{0 if not self.type1 else ind}/{location}/{cls}")
data = CustomImageFolder(folder_path=path, class_index=self.class_list.index(cls), limit=limit, transform=transforms)
cg_data_list.append(data)
for_each_class_group[cg_index].append(ConcatDataset(cg_data_list))
cg_index += 1
for group in range(len(for_each_class_group[0])):
data_list.append(
ConcatDataset(
[for_each_class_group[k][group] for k in range(len(for_each_class_group))]
)
)
else:
for location in combinations:
path = os.path.join(root_dir, f"{0}/{location}/")
data = ImageFolder(root=path, transform=transforms)
data_list.append(data)
return data_list
# Buils combination dictionary for o2o datasets
def build_type1_combination(self,group,test,filler):
total = 3168
counts = [int(0.97*total),int(0.87*total)]
combinations = {}
combinations['train_combinations'] = {
## correlated class
("bulldog",):[(group[0],counts[0]),(group[0],counts[1])],
("dachshund",):[(group[1],counts[0]),(group[1],counts[1])],
("labrador",):[(group[2],counts[0]),(group[2],counts[1])],
("corgi",):[(group[3],counts[0]),(group[3],counts[1])],
## filler
("bulldog","dachshund","labrador","corgi"):[(filler,total-counts[0]),(filler,total-counts[1])],
}
## TEST
combinations['test_combinations'] = {
("bulldog",):[test[0], test[0]],
("dachshund",):[test[1], test[1]],
("labrador",):[test[2], test[2]],
("corgi",):[test[3], test[3]],
}
return combinations
# Buils combination dictionary for m2m datasets
def build_type2_combination(self,group,test):
total = 3168
counts = [total,total]
combinations = {}
combinations['train_combinations'] = {
## correlated class
("bulldog",):[(group[0],counts[0]),(group[1],counts[1])],
("dachshund",):[(group[1],counts[0]),(group[0],counts[1])],
("labrador",):[(group[2],counts[0]),(group[3],counts[1])],
("corgi",):[(group[3],counts[0]),(group[2],counts[1])],
}
combinations['test_combinations'] = {
("bulldog",):[test[0], test[1]],
("dachshund",):[test[1], test[0]],
("labrador",):[test[2], test[3]],
("corgi",):[test[3], test[2]],
}
return combinations
## Spawrious classes for each Spawrious dataset
class SpawriousO2O_easy(SpawriousBenchmark):
def __init__(self, root_dir, test_envs, hparams):
group = ["desert","jungle","dirt","snow"]
test = ["dirt","snow","desert","jungle"]
filler = "beach"
combinations = self.build_type1_combination(group,test,filler)
super().__init__(combinations['train_combinations'], combinations['test_combinations'], root_dir, hparams['data_augmentation'], type1=True)
class SpawriousO2O_medium(SpawriousBenchmark):
def __init__(self, root_dir, test_envs, hparams):
group = ['mountain', 'beach', 'dirt', 'jungle']
test = ['jungle', 'dirt', 'beach', 'snow']
filler = "desert"
combinations = self.build_type1_combination(group,test,filler)
super().__init__(combinations['train_combinations'], combinations['test_combinations'], root_dir, hparams['data_augmentation'], type1=True)
class SpawriousO2O_hard(SpawriousBenchmark):
def __init__(self, root_dir, test_envs, hparams):
group = ['jungle', 'mountain', 'snow', 'desert']
test = ['mountain', 'snow', 'desert', 'jungle']
filler = "beach"
combinations = self.build_type1_combination(group,test,filler)
super().__init__(combinations['train_combinations'], combinations['test_combinations'], root_dir, hparams['data_augmentation'], type1=True)
class SpawriousM2M_easy(SpawriousBenchmark):
def __init__(self, root_dir, test_envs, hparams):
group = ['desert', 'mountain', 'dirt', 'jungle']
test = ['dirt', 'jungle', 'mountain', 'desert']
combinations = self.build_type2_combination(group,test)
super().__init__(combinations['train_combinations'], combinations['test_combinations'], root_dir, hparams['data_augmentation'])
class SpawriousM2M_medium(SpawriousBenchmark):
def __init__(self, root_dir, test_envs, hparams):
group = ['beach', 'snow', 'mountain', 'desert']
test = ['desert', 'mountain', 'beach', 'snow']
combinations = self.build_type2_combination(group,test)
super().__init__(combinations['train_combinations'], combinations['test_combinations'], root_dir, hparams['data_augmentation'])
class SpawriousM2M_hard(SpawriousBenchmark):
ENVIRONMENTS = ["Test","SC_group_1","SC_group_2"]
def __init__(self, root_dir, test_envs, hparams):
group = ["dirt","jungle","snow","beach"]
test = ["snow","beach","dirt","jungle"]
combinations = self.build_type2_combination(group,test)
super().__init__(combinations['train_combinations'], combinations['test_combinations'], root_dir, hparams['data_augmentation'])