def main(): torch.manual_seed(args.seed) os.environ['CUDA_VISIBLE_DEVICES'] = args.gpu_devices use_gpu = torch.cuda.is_available() if args.use_cpu: use_gpu = False if not args.evaluate: sys.stdout = Logger(osp.join(args.save_dir, 'log_train.txt')) else: sys.stdout = Logger(osp.join(args.save_dir, 'log_test.txt')) print("==========\nArgs:{}\n==========".format(args)) if use_gpu: print("Currently using GPU {}".format(args.gpu_devices)) cudnn.benchmark = True torch.cuda.manual_seed_all(args.seed) else: print("Currently using CPU (GPU is highly recommended)") print("Initializing dataset {}".format(args.dataset)) dataset = data_manager.init_vidreid_dataset(root=args.root, name=args.dataset) transform_train = T.Compose([ T.Random2DTranslation(args.height, args.width), T.RandomHorizontalFlip(), T.ToTensor(), T.Normalize(mean=[0.485, 0.456, 0.406], std=[0.229, 0.224, 0.225]), ]) transform_test = T.Compose([ T.Resize((args.height, args.width)), T.ToTensor(), T.Normalize(mean=[0.485, 0.456, 0.406], std=[0.229, 0.224, 0.225]), ]) pin_memory = True if use_gpu else False # decompose tracklets into images new_train = [] for img_paths, pid, camid in dataset.train: for img_path in img_paths: new_train.append((img_path, pid, camid)) trainloader = DataLoader( ImageDataset(new_train, transform=transform_train), batch_size=args.train_batch, shuffle=True, num_workers=args.workers, pin_memory=pin_memory, drop_last=True, ) queryloader = DataLoader( VideoDataset(dataset.query, seq_len=args.seq_len, sample='evenly', transform=transform_test), batch_size=args.test_batch, shuffle=False, num_workers=args.workers, pin_memory=pin_memory, drop_last=False, ) galleryloader = DataLoader( VideoDataset(dataset.gallery, seq_len=args.seq_len, sample='evenly', transform=transform_test), batch_size=args.test_batch, shuffle=False, num_workers=args.workers, pin_memory=pin_memory, drop_last=False, ) print("Initializing model: {}".format(args.arch)) model = models.init_model(name=args.arch, num_classes=dataset.num_train_pids, loss={'xent'}) print("Model size: {:.3f} M".format(count_num_param(model))) criterion = CrossEntropyLabelSmooth(num_classes=dataset.num_train_pids, use_gpu=use_gpu) optimizer = init_optim(args.optim, model.parameters(), args.lr, args.weight_decay) scheduler = lr_scheduler.MultiStepLR(optimizer, milestones=args.stepsize, gamma=args.gamma) if args.fixbase_epoch > 0: if hasattr(model, 'classifier') and isinstance(model.classifier, nn.Module): optimizer_tmp = init_optim(args.optim, model.classifier.parameters(), args.fixbase_lr, args.weight_decay) else: print( "Warn: model has no attribute 'classifier' and fixbase_epoch is reset to 0" ) args.fixbase_epoch = 0 if args.load_weights: # load pretrained weights but ignore layers that don't match in size if check_isfile(args.load_weights): checkpoint = torch.load(args.load_weights) pretrain_dict = checkpoint['state_dict'] model_dict = model.state_dict() pretrain_dict = { k: v for k, v in pretrain_dict.items() if k in model_dict and model_dict[k].size() == v.size() } model_dict.update(pretrain_dict) model.load_state_dict(model_dict) print("Loaded pretrained weights from '{}'".format( args.load_weights)) if args.resume: if check_isfile(args.resume): checkpoint = torch.load(args.resume) model.load_state_dict(checkpoint['state_dict']) args.start_epoch = checkpoint['epoch'] rank1 = checkpoint['rank1'] print("Loaded checkpoint from '{}'".format(args.resume)) print("- start_epoch: {}\n- rank1: {}".format( args.start_epoch, rank1)) if use_gpu: model = nn.DataParallel(model).cuda() if args.evaluate: print("Evaluate only") distmat = test(model, queryloader, galleryloader, use_gpu, return_distmat=True) if args.vis_ranked_res: visualize_ranked_results( distmat, dataset, save_dir=osp.join(args.save_dir, 'ranked_results'), topk=20, ) return start_time = time.time() train_time = 0 best_rank1 = -np.inf best_epoch = 0 print("==> Start training") if args.fixbase_epoch > 0: print( "Train classifier for {} epochs while keeping base network frozen". format(args.fixbase_epoch)) for epoch in range(args.fixbase_epoch): start_train_time = time.time() train(epoch, model, criterion, optimizer_tmp, trainloader, use_gpu, freeze_bn=True) train_time += round(time.time() - start_train_time) del optimizer_tmp print("Now open all layers for training") for epoch in range(args.start_epoch, args.max_epoch): start_train_time = time.time() train(epoch, model, criterion, optimizer, trainloader, use_gpu) train_time += round(time.time() - start_train_time) scheduler.step() if (epoch + 1) > args.start_eval and args.eval_step > 0 and ( epoch + 1) % args.eval_step == 0 or (epoch + 1) == args.max_epoch: print("==> Test") rank1 = test(model, queryloader, galleryloader, args.pool, use_gpu) is_best = rank1 > best_rank1 if is_best: best_rank1 = rank1 best_epoch = epoch + 1 if use_gpu: state_dict = model.module.state_dict() else: state_dict = model.state_dict() save_checkpoint( { 'state_dict': state_dict, 'rank1': rank1, 'epoch': epoch, }, is_best, osp.join(args.save_dir, 'checkpoint_ep' + str(epoch + 1) + '.pth.tar')) print("==> Best Rank-1 {:.1%}, achieved at epoch {}".format( best_rank1, best_epoch)) elapsed = round(time.time() - start_time) elapsed = str(datetime.timedelta(seconds=elapsed)) train_time = str(datetime.timedelta(seconds=train_time)) print( "Finished. Total elapsed time (h:m:s): {}. Training time (h:m:s): {}.". format(elapsed, train_time))
def main(): torch.manual_seed(args.seed) os.environ['CUDA_VISIBLE_DEVICES'] = args.gpu_devices use_gpu = torch.cuda.is_available() if args.use_cpu: use_gpu = False if not args.evaluate: sys.stdout = Logger(osp.join(args.save_dir, 'log_train.txt')) else: sys.stdout = Logger(osp.join(args.save_dir, 'log_test.txt')) print("==========\nArgs:{}\n==========".format(args)) if use_gpu: print("Currently using GPU {}".format(args.gpu_devices)) cudnn.benchmark = True torch.cuda.manual_seed_all(args.seed) else: print("Currently using CPU (GPU is highly recommended)") print("Initializing dataset {}".format(args.dataset)) dataset = data_manager.init_vidreid_dataset(root=args.root, name=args.dataset) transform_train = T.Compose([ T.Random2DTranslation(args.height, args.width), T.RandomHorizontalFlip(), T.ToTensor(), T.Normalize(mean=[0.485, 0.456, 0.406], std=[0.229, 0.224, 0.225]), ]) transform_test = T.Compose([ T.Resize((args.height, args.width)), T.ToTensor(), T.Normalize(mean=[0.485, 0.456, 0.406], std=[0.229, 0.224, 0.225]), ]) pin_memory = True if use_gpu else False # decompose tracklets into images for image-based training new_train = [] for img_paths, pid, camid in dataset.train: for img_path in img_paths: new_train.append((img_path, pid, camid)) trainloader = DataLoader( ImageDataset(new_train, transform=transform_train), sampler=RandomIdentitySampler(new_train, num_instances=args.num_instances), batch_size=args.train_batch, num_workers=args.workers, pin_memory=pin_memory, drop_last=True, ) queryloader = DataLoader( VideoDataset(dataset.query, seq_len=args.seq_len, sample='evenly', transform=transform_test), batch_size=args.test_batch, shuffle=False, num_workers=args.workers, pin_memory=pin_memory, drop_last=False, ) galleryloader = DataLoader( VideoDataset(dataset.gallery, seq_len=args.seq_len, sample='evenly', transform=transform_test), batch_size=args.test_batch, shuffle=False, num_workers=args.workers, pin_memory=pin_memory, drop_last=False, ) print("Initializing model: {}".format(args.arch)) model = models.init_model(name=args.arch, num_classes=dataset.num_train_pids, loss={'xent', 'htri'}) print("Model size: {:.3f} M".format(count_num_param(model))) criterion_xent = CrossEntropyLabelSmooth( num_classes=dataset.num_train_pids, use_gpu=use_gpu) criterion_htri = TripletLoss(margin=args.margin) optimizer = init_optim(args.optim, model.parameters(), args.lr, args.weight_decay) scheduler = lr_scheduler.MultiStepLR(optimizer, milestones=args.stepsize, gamma=args.gamma) start_epoch = args.start_epoch if args.resume: print("Loading checkpoint from '{}'".format(args.resume)) checkpoint = torch.load(args.resume) model.load_state_dict(checkpoint['state_dict']) start_epoch = checkpoint['epoch'] if use_gpu: model = nn.DataParallel(model).cuda() if args.evaluate: print("Evaluate only") test(model, queryloader, galleryloader, args.pool, use_gpu) return start_time = time.time() train_time = 0 best_rank1 = -np.inf best_epoch = 0 print("==> Start training") for epoch in range(start_epoch, args.max_epoch): start_train_time = time.time() train(epoch, model, criterion_xent, criterion_htri, optimizer, trainloader, use_gpu) train_time += round(time.time() - start_train_time) scheduler.step() if (epoch + 1) > args.start_eval and args.eval_step > 0 and ( epoch + 1) % args.eval_step == 0 or (epoch + 1) == args.max_epoch: print("==> Test") rank1 = test(model, queryloader, galleryloader, args.pool, use_gpu) is_best = rank1 > best_rank1 if is_best: best_rank1 = rank1 best_epoch = epoch + 1 if use_gpu: state_dict = model.module.state_dict() else: state_dict = model.state_dict() save_checkpoint( { 'state_dict': state_dict, 'rank1': rank1, 'epoch': epoch, }, is_best, osp.join(args.save_dir, 'checkpoint_ep' + str(epoch + 1) + '.pth.tar')) print("==> Best Rank-1 {:.1%}, achieved at epoch {}".format( best_rank1, best_epoch)) elapsed = round(time.time() - start_time) elapsed = str(datetime.timedelta(seconds=elapsed)) train_time = str(datetime.timedelta(seconds=train_time)) print( "Finished. Total elapsed time (h:m:s): {}. Training time (h:m:s): {}.". format(elapsed, train_time))
def main(): torch.manual_seed(args.seed) os.environ['CUDA_VISIBLE_DEVICES'] = args.gpu_devices use_gpu = torch.cuda.is_available() if args.use_cpu: use_gpu = False if not args.evaluate: sys.stdout = Logger(osp.join(args.save_dir, 'log_train.txt')) else: sys.stdout = Logger(osp.join(args.save_dir, 'log_test.txt')) print("==========\nArgs:{}\n==========".format(args)) if use_gpu: print("Currently using GPU {}".format(args.gpu_devices)) cudnn.benchmark = True torch.cuda.manual_seed_all(args.seed) else: print("Currently using CPU (GPU is highly recommended)") print("Initializing dataset {}".format(args.dataset)) dataset = data_manager.init_vidreid_dataset(root=args.root, name=args.dataset) transform_train = T.Compose([ T.Random2DTranslation(args.height, args.width), T.RandomHorizontalFlip(), T.ToTensor(), T.Normalize(mean=[0.485, 0.456, 0.406], std=[0.229, 0.224, 0.225]), ]) transform_test = T.Compose([ T.Resize((args.height, args.width)), T.ToTensor(), T.Normalize(mean=[0.485, 0.456, 0.406], std=[0.229, 0.224, 0.225]), ]) pin_memory = True if use_gpu else False # decompose tracklets into images new_train = [] for img_paths, pid, camid in dataset.train: for img_path in img_paths: new_train.append((img_path, pid, camid)) trainloader = DataLoader( ImageDataset(new_train, transform=transform_train), batch_size=args.train_batch, shuffle=True, num_workers=args.workers, pin_memory=pin_memory, drop_last=True, ) queryloader = DataLoader( VideoDataset(dataset.query, seq_len=args.seq_len, sample='evenly', transform=transform_test), batch_size=args.test_batch, shuffle=False, num_workers=args.workers, pin_memory=pin_memory, drop_last=False, ) galleryloader = DataLoader( VideoDataset(dataset.gallery, seq_len=args.seq_len, sample='evenly', transform=transform_test), batch_size=args.test_batch, shuffle=False, num_workers=args.workers, pin_memory=pin_memory, drop_last=False, ) print("Initializing model: {}".format(args.arch)) model = models.init_model(name=args.arch, num_classes=dataset.num_train_pids, loss={'xent'}) print("Model size: {:.3f} M".format(count_num_param(model))) criterion = CrossEntropyLabelSmooth(num_classes=dataset.num_train_pids, use_gpu=use_gpu) optimizer = init_optim(args.optim, model.parameters(), args.lr, args.weight_decay) scheduler = lr_scheduler.MultiStepLR(optimizer, milestones=args.stepsize, gamma=args.gamma) start_epoch = args.start_epoch if args.fixbase_epoch > 0: if hasattr(model, 'classifier') and isinstance(model.classifier, nn.Module): optimizer_tmp = init_optim(args.optim, model.classifier.parameters(), args.fixbase_lr, args.weight_decay) else: print("Warn: model has no attribute 'classifier' and fixbase_epoch is reset to 0") args.fixbase_epoch = 0 if args.load_weights: # load pretrained weights but ignore layers that don't match in size print("Loading pretrained weights from '{}'".format(args.load_weights)) checkpoint = torch.load(args.load_weights) pretrain_dict = checkpoint['state_dict'] model_dict = model.state_dict() pretrain_dict = {k: v for k, v in pretrain_dict.items() if k in model_dict and model_dict[k].size() == v.size()} model_dict.update(pretrain_dict) model.load_state_dict(model_dict) if args.resume: checkpoint = torch.load(args.resume) model.load_state_dict(checkpoint['state_dict']) start_epoch = checkpoint['epoch'] rank1 = checkpoint['rank1'] print("Loaded checkpoint from '{}'".format(args.resume)) print("- start_epoch: {}\n- rank1: {}".format(start_epoch, rank1)) if use_gpu: model = nn.DataParallel(model).cuda() if args.evaluate: print("Evaluate only") test(model, queryloader, galleryloader, args.pool, use_gpu) return start_time = time.time() train_time = 0 best_rank1 = -np.inf best_epoch = 0 print("==> Start training") if args.fixbase_epoch > 0: print("Train classifier for {} epochs while keeping base network frozen".format(args.fixbase_epoch)) for epoch in range(args.fixbase_epoch): start_train_time = time.time() train(epoch, model, criterion, optimizer_tmp, trainloader, use_gpu, freeze_bn=True) train_time += round(time.time() - start_train_time) del optimizer_tmp print("Now open all layers for training") for epoch in range(start_epoch, args.max_epoch): start_train_time = time.time() train(epoch, model, criterion, optimizer, trainloader, use_gpu) train_time += round(time.time() - start_train_time) scheduler.step() if (epoch+1) > args.start_eval and args.eval_step > 0 and (epoch+1) % args.eval_step == 0 or (epoch+1) == args.max_epoch: print("==> Test") rank1 = test(model, queryloader, galleryloader, args.pool, use_gpu) is_best = rank1 > best_rank1 if is_best: best_rank1 = rank1 best_epoch = epoch + 1 if use_gpu: state_dict = model.module.state_dict() else: state_dict = model.state_dict() save_checkpoint({ 'state_dict': state_dict, 'rank1': rank1, 'epoch': epoch, }, is_best, osp.join(args.save_dir, 'checkpoint_ep' + str(epoch+1) + '.pth.tar')) print("==> Best Rank-1 {:.1%}, achieved at epoch {}".format(best_rank1, best_epoch)) elapsed = round(time.time() - start_time) elapsed = str(datetime.timedelta(seconds=elapsed)) train_time = str(datetime.timedelta(seconds=train_time)) print("Finished. Total elapsed time (h:m:s): {}. Training time (h:m:s): {}.".format(elapsed, train_time))