import argparse import os.path from dataclasses import dataclass from pathlib import Path from typing import Iterable, Callable import sys 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.optimizers import LARS from libs.logging import Loggers, BaseBatchLogRecord, BaseEpochLogRecord from libs.utils import BaseConfig from simclr.main import SimCLRTrainer, SimCLRConfig from simclr.models import CIFARSimCLRResNet50, ImageNetSimCLRResNet50 def parse_args_and_config(): parser = argparse.ArgumentParser( description='Contrastive baseline SimCLR (evaluation)', formatter_class=argparse.ArgumentDefaultsHelpFormatter ) parser.add_argument('--codename', default='cifar10-simclr-linear', 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=50, 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('--hid-dim', default=2048, type=int, help='Number of dimension of embedding') parser.add_argument('--out-dim', default=128, type=int, help='Number of dimension after projection') parser.add_argument('--pretrained-checkpoint', type=str, required=True, help='Pretrained checkpoint location') parser.add_argument('--finetune', default=False, action=argparse.BooleanOptionalAction, help='Finetune backbone or linear head only') 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('--train-size', default=32, type=int, help='Resize during training') dataset_group.add_argument('--test-size', default=32, type=int, help='Resize during testing') dataset_group.add_argument('--test-crop-size', default=32, type=int, help='Center crop size during testing') dataset_group.add_argument('--hflip-prob', default=0.5, type=float, help='Random horizontal flip probability') dataloader_group = parser.add_argument_group('Dataloader parameters') dataloader_group.add_argument('--batch-size', default=256, 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='sgd', type=str, choices=('adam', 'sgd', 'lars'), help="Name of optimizer") optim_group.add_argument('--lr', default=1e-3, 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=0., type=float, help='Weight decay (l2 regularization)') sched_group = parser.add_argument_group('Scheduler parameters') sched_group.add_argument('--sched', default=None, type=str, choices=('const', None, 'linear', 'warmup-anneal'), help="Name of scheduler") sched_group.add_argument('--warmup-iters', default=5, 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 SimCLREvalConfig(SimCLRConfig): @dataclass class DatasetConfig(BaseConfig.DatasetConfig): dataset_dir: str train_size: int test_size: int test_crop_size: int hflip_prob: float class SimCLREvalTrainer(SimCLRTrainer): def __init__(self, pretrained_checkpoint, finetune, **kwargs): self.pretrained_checkpoint = pretrained_checkpoint self.finetune = finetune super(SimCLREvalTrainer, self).__init__(**kwargs) @dataclass class BatchLogRecord(BaseBatchLogRecord): lr: float train_loss: float @dataclass class EpochLogRecord(BaseEpochLogRecord): eval_loss: float eval_accuracy: float @staticmethod def _prepare_dataset(dataset_config: SimCLREvalConfig.DatasetConfig) -> tuple[Dataset, Dataset]: train_transform = transforms.Compose([ transforms.RandomHorizontalFlip(dataset_config.hflip_prob), transforms.Resize(dataset_config.train_size), transforms.ToTensor(), ]) test_transform = transforms.Compose([ transforms.Resize(dataset_config.test_size), transforms.CenterCrop(dataset_config.test_crop_size), transforms.ToTensor(), ]) if dataset_config.dataset in {'cifar10', 'cifar100', 'cifar'}: if dataset_config.dataset in {'cifar10', 'cifar'}: train_set = CIFAR10(dataset_config.dataset_dir, train=True, transform=train_transform, download=True) test_set = CIFAR10(dataset_config.dataset_dir, train=False, transform=test_transform) else: # CIFAR-100 train_set = CIFAR100(dataset_config.dataset_dir, train=True, transform=train_transform, download=True) test_set = CIFAR100(dataset_config.dataset_dir, train=False, transform=test_transform) elif dataset_config.dataset in {'imagenet1k', 'imagenet'}: train_set = ImageNet(dataset_config.dataset_dir, 'train', transform=train_transform) test_set = ImageNet(dataset_config.dataset_dir, 'val', transform=test_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'}: backbone = CIFARSimCLRResNet50(self.hid_dim, pretrain=False) if dataset in {'cifar10', 'cifar'}: classifier = torch.nn.Linear(self.hid_dim, 10) else: classifier = torch.nn.Linear(self.hid_dim, 100) elif dataset in {'imagenet1k', 'imagenet'}: backbone = ImageNetSimCLRResNet50(self.hid_dim, pretrain=False) classifier = torch.nn.Linear(self.hid_dim, 1000) else: raise NotImplementedError(f"Unimplemented dataset: '{dataset}") yield 'backbone', backbone yield 'classifier', classifier def _custom_init_fn(self, config: SimCLREvalConfig): self.optims = {n: LARS(o) if config.optim_config.optim == 'lars' else o for n, o in self.optims.items()} if self.restore_iter == 0: pretrained_checkpoint = torch.load(self.pretrained_checkpoint) backbone_checkpoint = pretrained_checkpoint['model_state_dict'] backbone_state_dict = {k: v for k, v in backbone_checkpoint.items() if k in self.models['backbone'].state_dict()} self.models['backbone'].load_state_dict(backbone_state_dict) def train(self, num_iters: int, loss_fn: Callable, logger: Loggers, device: torch.device): backbone, classifier = self.models.values() optim_b, optim_c = self.optims.values() sched_b, sched_c = self.scheds.values() loader_size = len(self.train_loader) num_batches = num_iters * loader_size for iter_ in range(self.restore_iter, num_iters): if self.finetune: backbone.train() else: backbone.eval() classifier.train() for batch, (images, targets) in enumerate(self.train_loader): global_batch = iter_ * loader_size + batch images, targets = images.to(device), targets.to(device) classifier.zero_grad() if self.finetune: backbone.zero_grad() embedding = backbone(images) else: with torch.no_grad(): embedding = backbone(images) logits = classifier(embedding) train_loss = loss_fn(logits, targets) train_loss.backward() if self.finetune: optim_b.step() optim_c.step() self.log(logger, self.BatchLogRecord( batch, num_batches, global_batch, iter_, num_iters, optim_c.param_groups[0]['lr'], train_loss.item() )) if batch == loader_size - 1: metrics = torch.Tensor(list(self.eval(loss_fn, device))).mean(0) eval_loss = metrics[0].item() eval_accuracy = metrics[1].item() epoch_log = self.EpochLogRecord(iter_, num_iters, eval_loss, eval_accuracy) self.log(logger, epoch_log) self.save_checkpoint(epoch_log) if sched_b is not None and self.finetune: sched_b.step() if sched_c is not None: sched_c.step() def eval(self, loss_fn: Callable, device: torch.device): backbone, classifier = self.models.values() backbone.eval() classifier.eval() with torch.no_grad(): for images, targets in self.test_loader: images, targets = images.to(device), targets.to(device) embedding = backbone(images) logits = classifier(embedding) loss = loss_fn(logits, targets) prediction = logits.argmax(1) accuracy = (prediction == targets).float().mean() yield loss.item(), accuracy.item() if __name__ == '__main__': args = parse_args_and_config() config = SimCLREvalConfig.from_args(args) device = torch.device('cuda' if torch.cuda.is_available() else 'cpu') trainer = SimCLREvalTrainer( seed=args.seed, checkpoint_dir=args.checkpoint_dir, device=device, inf_mode=False, num_iters=args.num_iters, config=config, hid_dim=args.hid_dim, out_dim=args.out_dim, pretrained_checkpoint=args.pretrained_checkpoint, finetune=args.finetune, ) loggers = trainer.init_logger(args.log_dir) trainer.train(args.num_iters, torch.nn.CrossEntropyLoss(), loggers, device)