| import math |
| import sys |
| import os |
| import shutil |
|
|
| import torch |
| import numpy as np |
| import cv2 |
|
|
| import util.misc as misc |
| import util.lr_sched as lr_sched |
| import torch_fidelity |
| import copy |
| import random |
|
|
|
|
| def train_one_epoch(model, model_without_ddp, data_loader, optimizer, device, epoch, log_writer=None, args=None): |
| model.train(True) |
| metric_logger = misc.MetricLogger(delimiter=" ") |
| metric_logger.add_meter('lr', misc.SmoothedValue(window_size=1, fmt='{value:.6f}')) |
| header = 'Epoch: [{}]'.format(epoch) |
| print_freq = 100 |
|
|
| optimizer.zero_grad() |
|
|
| if log_writer is not None: |
| print('log_dir: {}'.format(log_writer.log_dir)) |
|
|
| for data_iter_step, (x, labels) in enumerate(metric_logger.log_every(data_loader, print_freq, header)): |
| |
| lr_sched.adjust_learning_rate(optimizer, data_iter_step / len(data_loader) + epoch, args) |
|
|
| |
| x = x.to(device, non_blocking=True).to(torch.float32).div_(255) |
| x = x * 2.0 - 1.0 |
| labels = labels.to(device, non_blocking=True) |
|
|
| with torch.amp.autocast('cuda', dtype=torch.bfloat16): |
| loss, results_dict = model(x, labels) |
|
|
| loss_value = loss.item() |
| if not math.isfinite(loss_value): |
| print("Loss is {}, stopping training".format(loss_value)) |
| sys.exit(1) |
|
|
| optimizer.zero_grad() |
| loss.backward() |
| |
| optimizer.step() |
|
|
| torch.cuda.synchronize() |
|
|
| model_without_ddp.update_ema() |
|
|
| metric_logger.update(loss=loss_value) |
| metric_logger.update(**results_dict) |
| lr = optimizer.param_groups[0]["lr"] |
| metric_logger.update(lr=lr) |
|
|
| loss_value_reduce = misc.all_reduce_mean(loss_value) |
| reduced_results = {} |
| for k, v in sorted(results_dict.items()): |
| reduced_results[k] = misc.all_reduce_mean(v) |
|
|
| if log_writer is not None: |
| |
| epoch_1000x = int((data_iter_step / len(data_loader) + epoch) * 1000) |
| if data_iter_step % args.log_freq == 0: |
| log_writer.add_scalar('train_loss', loss_value_reduce, epoch_1000x) |
| log_writer.add_scalar('lr', lr, epoch_1000x) |
| for k, v in reduced_results.items(): |
| log_writer.add_scalar(k, v, epoch_1000x) |
|
|
|
|
| def evaluate(model_without_ddp, args, epoch, batch_size=64, log_writer=None): |
|
|
| model_without_ddp.eval() |
| world_size = misc.get_world_size() |
| local_rank = misc.get_rank() |
| num_images = 1000 if epoch == 0 else args.num_images |
| num_steps = num_images // (batch_size * world_size) + 1 |
|
|
| |
| save_folder = os.path.join( |
| args.output_dir, |
| "{}-steps{}-cfg{}-interval{}-{}-image{}-res{}".format( |
| model_without_ddp.method, model_without_ddp.steps, model_without_ddp.cfg_scale, |
| model_without_ddp.cfg_interval[0], model_without_ddp.cfg_interval[1], num_images, args.img_size |
| ) |
| ) |
| print("Save to:", save_folder) |
| if misc.get_rank() == 0 and not os.path.exists(save_folder): |
| os.makedirs(save_folder) |
|
|
| |
| if args.generation_ema != 'none': |
| model_state_dict = copy.deepcopy(model_without_ddp.state_dict()) |
| ema_state_dict = copy.deepcopy(model_without_ddp.state_dict()) |
| for i, (name, _value) in enumerate(model_without_ddp.named_parameters()): |
| assert name in ema_state_dict |
| maybe_ema_state_dict = { |
| '1': model_without_ddp.ema_params1, |
| '2': model_without_ddp.ema_params2, |
| }[args.generation_ema] |
| ema_state_dict[name] = maybe_ema_state_dict[i] |
| print("Switch to ema") |
| model_without_ddp.load_state_dict(ema_state_dict) |
|
|
| |
| class_num = args.class_num |
| assert num_images % class_num == 0, "Number of images per class must be the same" |
| class_label_gen_world = np.arange(0, class_num).repeat(num_images // class_num) |
| class_label_gen_world = np.hstack([class_label_gen_world, np.zeros(50000)]) |
|
|
| for i in range(num_steps): |
| print("Generation step {}/{}".format(i, num_steps)) |
|
|
| start_idx = world_size * batch_size * i + local_rank * batch_size |
| end_idx = start_idx + batch_size |
| labels_gen = class_label_gen_world[start_idx:end_idx] |
| labels_gen = torch.Tensor(labels_gen).long().cuda() |
| if args.label_drop_prob == 1.0: |
| labels_gen = labels_gen * 0 + 1000 |
|
|
| with torch.amp.autocast('cuda', dtype=torch.bfloat16): |
| sampled_images = model_without_ddp.generate(labels_gen) |
|
|
| torch.distributed.barrier() |
|
|
| |
| sampled_images = (sampled_images + 1) / 2 |
| sampled_images = sampled_images.detach().cpu() |
|
|
| |
| for b_id in range(sampled_images.size(0)): |
| img_id = i * sampled_images.size(0) * world_size + local_rank * sampled_images.size(0) + b_id |
| if img_id >= num_images: |
| break |
| gen_img = np.round(np.clip(sampled_images[b_id].numpy().transpose([1, 2, 0]) * 255, 0, 255)) |
| gen_img = gen_img.astype(np.uint8)[:, :, ::-1] |
| cv2.imwrite(os.path.join(save_folder, '{}.png'.format(str(img_id).zfill(5))), gen_img) |
|
|
| torch.distributed.barrier() |
|
|
| |
| print("Switch back from ema") |
| model_without_ddp.load_state_dict(model_state_dict) |
|
|
| |
| if log_writer is not None: |
| if args.img_size == 256: |
| fid_statistics_file = 'fid_stats/jit_in256_stats.npz' |
| elif args.img_size == 512: |
| fid_statistics_file = 'fid_stats/jit_in512_stats.npz' |
| else: |
| raise NotImplementedError |
| metrics_dict = torch_fidelity.calculate_metrics( |
| input1=save_folder, |
| input2=None, |
| fid_statistics_file=fid_statistics_file, |
| cuda=True, |
| isc=True, |
| fid=True, |
| kid=False, |
| prc=False, |
| verbose=False, |
| ) |
| fid = metrics_dict['frechet_inception_distance'] |
| inception_score = metrics_dict['inception_score_mean'] |
| postfix = "_cfg{}_res{}".format(model_without_ddp.cfg_scale, args.img_size) |
| log_writer.add_scalar('fid{}'.format(postfix), fid, epoch) |
| log_writer.add_scalar('is{}'.format(postfix), inception_score, epoch) |
| print("FID: {:.4f}, Inception Score: {:.4f}".format(fid, inception_score)) |
| if not args.keep_images: |
| shutil.rmtree(save_folder) |
|
|
| torch.distributed.barrier() |
|
|
