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import argparse
import os
import sys
from dataclasses import dataclass
from pathlib import Path
from typing import Iterable, Callable
import torch
import yaml
from torch.utils.data import Dataset
from torchvision.datasets import CIFAR10, CIFAR100, ImageNet
from torchvision.transforms import transforms
path = str(Path(Path(__file__).parent.absolute()).parent.absolute())
sys.path.insert(0, path)
from libs.criteria import InfoNCELoss
from libs.datautils import color_distortion, Clip, RandomGaussianBlur, TwinTransform
from libs.optimizers import LARS
from libs.schedulers import LinearWarmupAndCosineAnneal, LinearLR
from libs.utils import Trainer, BaseConfig
from libs.logging import BaseBatchLogRecord, Loggers
from simclr.models import CIFARSimCLRResNet50, ImageNetSimCLRResNet50
def parse_args_and_config():
parser = argparse.ArgumentParser(
description='Contrastive baseline SimCLR',
formatter_class=argparse.ArgumentDefaultsHelpFormatter
)
parser.add_argument('--codename', default='cifar10-simclr-128-lars-warmup',
type=str, help="Model descriptor")
parser.add_argument('--log-dir', default='logs', type=str,
help="Path to log directory")
parser.add_argument('--checkpoint-dir', default='checkpoints', type=str,
help="Path to checkpoints directory")
parser.add_argument('--seed', default=None, type=int,
help='Random seed for reproducibility')
parser.add_argument('--num-iters', default=23438, type=int,
help='Number of iters')
parser.add_argument('--config', type=argparse.FileType(mode='r'),
help='Path to config file (optional)')
# TODO: Add model hyperparams dataclass
parser.add_argument('--out-dim', default=256, type=int,
help='Number of dimension of embedding')
parser.add_argument('--temp', default=0.01, type=float,
help='Temperature in InfoNCE loss')
dataset_group = parser.add_argument_group('Dataset parameters')
dataset_group.add_argument('--dataset-dir', default='dataset', type=str,
help="Path to dataset directory")
dataset_group.add_argument('--dataset', default='cifar10', type=str,
choices=('cifar10, cifar100', 'imagenet'),
help="Name of dataset")
dataset_group.add_argument('--crop-size', default=32, type=int,
help='Random crop size after resize')
dataset_group.add_argument('--crop-scale-range', nargs=2, default=(0.8, 1),
type=float, help='Random resize scale range',
metavar=('start', 'stop'))
dataset_group.add_argument('--hflip-prob', default=0.5, type=float,
help='Random horizontal flip probability')
dataset_group.add_argument('--distort-strength', default=0.5, type=float,
help='Distortion strength')
dataset_group.add_argument('--gauss-ker-scale', default=10, type=float,
help='Gaussian kernel scale factor '
'(s = img_size / ker_size)')
dataset_group.add_argument('--gauss-sigma-range', nargs=2, default=(0.1, 2),
type=float, help='Random gaussian blur sigma range',
metavar=('start', 'stop'))
dataset_group.add_argument('--gauss-prob', default=0.5, type=float,
help='Random gaussian blur probability')
dataloader_group = parser.add_argument_group('Dataloader parameters')
dataloader_group.add_argument('--batch-size', default=128, type=int,
help='Batch size')
dataloader_group.add_argument('--num-workers', default=2, type=int,
help='Number of dataloader processes')
optim_group = parser.add_argument_group('Optimizer parameters')
optim_group.add_argument('--optim', default='lars', type=str,
choices=('adam', 'sgd', 'lars'),
help="Name of optimizer")
optim_group.add_argument('--lr', default=1., type=float,
help='Learning rate')
optim_group.add_argument('--betas', nargs=2, default=(0.9, 0.999), type=float,
help='Adam betas', metavar=('beta1', 'beta2'))
optim_group.add_argument('--momentum', default=0.9, type=float,
help='SDG momentum')
optim_group.add_argument('--weight-decay', default=1e-6, type=float,
help='Weight decay (l2 regularization)')
sched_group = parser.add_argument_group('Optimizer parameters')
sched_group.add_argument('--sched', default='warmup-anneal', type=str,
help="Name of scheduler")
sched_group.add_argument('--warmup-iters', default=2344, type=int,
help='Epochs for warmup (`warmup-anneal` scheduler only)')
args = parser.parse_args()
if args.config:
config = yaml.safe_load(args.config)
args.__dict__ |= {
k: tuple(v) if isinstance(v, list) else v
for k, v in config.items()
}
args.checkpoint_dir = os.path.join(args.checkpoint_dir, args.codename)
args.log_dir = os.path.join(args.log_dir, args.codename)
return args
@dataclass
class SimCLRConfig(BaseConfig):
@dataclass
class DatasetConfig(BaseConfig.DatasetConfig):
dataset_dir: str
crop_size: int
crop_scale_range: tuple[float, float]
hflip_prob: float
distort_strength: float
gauss_ker_scale: float
gauss_sigma_range: tuple[float, float]
gauss_prob: float
@dataclass
class OptimConfig(BaseConfig.OptimConfig):
momentum: float
betas: tuple[float, float]
weight_decay: float
@dataclass
class SchedConfig(BaseConfig.SchedConfig):
sched: str | None
warmup_iters: int
class SimCLRTrainer(Trainer):
def __init__(self, out_dim, **kwargs):
self.out_dim = out_dim
super(SimCLRTrainer, self).__init__(**kwargs)
@dataclass
class BatchLogRecord(BaseBatchLogRecord):
lr: float | None
train_loss: float | None
train_accuracy: float | None
eval_loss: float | None
eval_accuracy: float | None
@staticmethod
def _prepare_dataset(dataset_config: SimCLRConfig.DatasetConfig) -> tuple[Dataset, Dataset]:
basic_augmentation = transforms.Compose([
transforms.RandomResizedCrop(
dataset_config.crop_size,
scale=dataset_config.crop_scale_range,
interpolation=transforms.InterpolationMode.BICUBIC
),
transforms.RandomHorizontalFlip(dataset_config.hflip_prob),
color_distortion(dataset_config.distort_strength),
])
if dataset_config.dataset in {'cifar10', 'cifar100', 'cifar'}:
transform = transforms.Compose([
basic_augmentation,
transforms.ToTensor(),
Clip(),
])
if dataset_config.dataset in {'cifar10', 'cifar'}:
train_set = CIFAR10(dataset_config.dataset_dir, train=True,
transform=TwinTransform(transform),
download=True)
test_set = CIFAR10(dataset_config.dataset_dir, train=False,
transform=TwinTransform(transform))
else: # CIFAR-100
train_set = CIFAR100(dataset_config.dataset_dir, train=True,
transform=TwinTransform(transform),
download=True)
test_set = CIFAR100(dataset_config.dataset_dir, train=False,
transform=TwinTransform(transform))
elif dataset_config.dataset in {'imagenet1k', 'imagenet'}:
random_gaussian_blur = RandomGaussianBlur(
kernel_size=dataset_config.crop_size // dataset_config.gauss_ker_scale,
sigma_range=dataset_config.gauss_sigma_range,
p=dataset_config.gauss_prob
),
transform = transforms.Compose([
basic_augmentation,
random_gaussian_blur,
transforms.ToTensor(),
Clip()
])
train_set = ImageNet(dataset_config.dataset_dir, 'train',
transform=TwinTransform(transform))
test_set = ImageNet(dataset_config.dataset_dir, 'val',
transform=TwinTransform(transform))
else:
raise NotImplementedError(f"Unimplemented dataset: '{dataset_config.dataset}")
return train_set, test_set
def _init_models(self, dataset: str) -> Iterable[tuple[str, torch.nn.Module]]:
if dataset in {'cifar10', 'cifar100', 'cifar'}:
model = CIFARSimCLRResNet50(self.out_dim)
elif dataset in {'imagenet1k', 'imagenet'}:
model = ImageNetSimCLRResNet50(self.out_dim)
else:
raise NotImplementedError(f"Unimplemented dataset: '{dataset}")
yield 'model', model
@staticmethod
def _configure_optimizers(
models: Iterable[tuple[str, torch.nn.Module]],
optim_config: SimCLRConfig.OptimConfig,
) -> Iterable[tuple[str, torch.optim.Optimizer]]:
def exclude_from_wd_and_adaptation(name):
if 'bn' in name:
return True
if optim_config.optim == 'lars' and 'bias' in name:
return True
for model_name, model in models:
param_groups = [
{
'params': [p for name, p in model.named_parameters()
if not exclude_from_wd_and_adaptation(name)],
'weight_decay': optim_config.weight_decay,
'layer_adaptation': True,
},
{
'params': [p for name, p in model.named_parameters()
if exclude_from_wd_and_adaptation(name)],
'weight_decay': 0.,
'layer_adaptation': False,
},
]
if optim_config.optim == 'adam':
optimizer = torch.optim.Adam(
param_groups,
lr=optim_config.lr,
betas=optim_config.betas,
)
elif optim_config.optim in {'sdg', 'lars'}:
optimizer = torch.optim.SGD(
param_groups,
lr=optim_config.lr,
momentum=optim_config.momentum,
)
else:
raise NotImplementedError(f"Unimplemented optimizer: '{optim_config.optim}'")
yield f"{model_name}_optim", optimizer
@staticmethod
def _configure_scheduler(
optims: Iterable[tuple[str, torch.optim.Optimizer]],
last_iter: int,
num_iters: int,
sched_config: SimCLRConfig.SchedConfig,
) -> Iterable[tuple[str, torch.optim.lr_scheduler._LRScheduler]
| tuple[str, None]]:
for optim_name, optim in optims:
if sched_config.sched == 'warmup-anneal':
scheduler = LinearWarmupAndCosineAnneal(
optim,
warm_up=sched_config.warmup_iters / num_iters,
T_max=num_iters,
last_epoch=last_iter,
)
elif sched_config.sched == 'linear':
scheduler = LinearLR(
optim,
num_epochs=num_iters,
last_epoch=last_iter
)
elif sched_config.sched in {None, '', 'const'}:
scheduler = None
else:
raise NotImplementedError(f"Unimplemented scheduler: '{sched_config.sched}'")
yield f"{optim_name}_sched", scheduler
def _custom_init_fn(self, config: SimCLRConfig):
self.optims = {n: LARS(o) if config.optim_config.optim == 'lars' else o
for n, o in self.optims.items()}
def train(self, num_iters: int, loss_fn: Callable, logger: Loggers, device: torch.device):
model = self.models['model']
optim = self.optims['model_optim']
sched = self.scheds['model_optim_sched']
train_loader = iter(self.train_loader)
model.train()
for iter_ in range(self.restore_iter, num_iters):
(input1, input2), _ = next(train_loader)
input1, input2 = input1.to(device), input2.to(device)
model.zero_grad()
output1 = model(input1)
output2 = model(input2)
train_loss, train_accuracy = loss_fn(output1, output2)
train_loss.backward()
optim.step()
self.log(logger, self.BatchLogRecord(
iter_, num_iters, iter_, iter_, num_iters,
optim.param_groups[0]['lr'],
train_loss.item(), train_accuracy.item(),
eval_loss=None, eval_accuracy=None,
))
if (iter_ + 1) % (num_iters // 100) == 0:
metrics = torch.Tensor(list(self.eval(loss_fn, device))).mean(0)
eval_loss = metrics[0].item()
eval_accuracy = metrics[1].item()
eval_log = self.BatchLogRecord(
iter_, num_iters, iter_, iter_, num_iters,
lr=None, train_loss=None, train_accuracy=None,
eval_loss=eval_loss, eval_accuracy=eval_accuracy,
)
self.log(logger, eval_log)
self.save_checkpoint(eval_log)
model.train()
if sched is not None:
sched.step()
def eval(self, loss_fn: Callable, device: torch.device):
model = self.models['model']
model.eval()
with torch.no_grad():
for (input1, input2), _ in self.test_loader:
input1, input2 = input1.to(device), input2.to(device)
output1 = model(input1)
output2 = model(input2)
loss, accuracy = loss_fn(output1, output2)
yield loss.item(), accuracy.item()
if __name__ == '__main__':
args = parse_args_and_config()
config = SimCLRConfig.from_args(args)
device = torch.device('cuda') if torch.cuda.is_available() else torch.device('cpu')
trainer = SimCLRTrainer(
seed=args.seed,
checkpoint_dir=args.checkpoint_dir,
device=device,
inf_mode=True,
num_iters=args.num_iters,
config=config,
out_dim=args.out_dim,
)
loggers = trainer.init_logger(args.log_dir)
trainer.train(args.num_iters, InfoNCELoss(args.temp), loggers, device)
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