From 495ffc4777522e40941753e3b1b79c02f84b25b4 Mon Sep 17 00:00:00 2001 From: Grafting Rayman <156515434+GraftingRayman@users.noreply.github.com> Date: Fri, 17 Jan 2025 11:00:30 +0000 Subject: Add files via upload --- r_basicsr/models/srgan_model.py | 149 ++++++++++++++++++++++++++++++++++++++++ 1 file changed, 149 insertions(+) create mode 100644 r_basicsr/models/srgan_model.py (limited to 'r_basicsr/models/srgan_model.py') diff --git a/r_basicsr/models/srgan_model.py b/r_basicsr/models/srgan_model.py new file mode 100644 index 0000000..a562a7d --- /dev/null +++ b/r_basicsr/models/srgan_model.py @@ -0,0 +1,149 @@ +import torch +from collections import OrderedDict + +from r_basicsr.archs import build_network +from r_basicsr.losses import build_loss +from r_basicsr.utils import get_root_logger +from r_basicsr.utils.registry import MODEL_REGISTRY +from .sr_model import SRModel + + +@MODEL_REGISTRY.register() +class SRGANModel(SRModel): + """SRGAN model for single image super-resolution.""" + + def init_training_settings(self): + train_opt = self.opt['train'] + + self.ema_decay = train_opt.get('ema_decay', 0) + if self.ema_decay > 0: + logger = get_root_logger() + logger.info(f'Use Exponential Moving Average with decay: {self.ema_decay}') + # define network net_g with Exponential Moving Average (EMA) + # net_g_ema is used only for testing on one GPU and saving + # There is no need to wrap with DistributedDataParallel + self.net_g_ema = build_network(self.opt['network_g']).to(self.device) + # load pretrained model + load_path = self.opt['path'].get('pretrain_network_g', None) + if load_path is not None: + self.load_network(self.net_g_ema, load_path, self.opt['path'].get('strict_load_g', True), 'params_ema') + else: + self.model_ema(0) # copy net_g weight + self.net_g_ema.eval() + + # define network net_d + self.net_d = build_network(self.opt['network_d']) + self.net_d = self.model_to_device(self.net_d) + self.print_network(self.net_d) + + # load pretrained models + load_path = self.opt['path'].get('pretrain_network_d', None) + if load_path is not None: + param_key = self.opt['path'].get('param_key_d', 'params') + self.load_network(self.net_d, load_path, self.opt['path'].get('strict_load_d', True), param_key) + + self.net_g.train() + self.net_d.train() + + # define losses + if train_opt.get('pixel_opt'): + self.cri_pix = build_loss(train_opt['pixel_opt']).to(self.device) + else: + self.cri_pix = None + + if train_opt.get('ldl_opt'): + self.cri_ldl = build_loss(train_opt['ldl_opt']).to(self.device) + else: + self.cri_ldl = None + + if train_opt.get('perceptual_opt'): + self.cri_perceptual = build_loss(train_opt['perceptual_opt']).to(self.device) + else: + self.cri_perceptual = None + + if train_opt.get('gan_opt'): + self.cri_gan = build_loss(train_opt['gan_opt']).to(self.device) + + self.net_d_iters = train_opt.get('net_d_iters', 1) + self.net_d_init_iters = train_opt.get('net_d_init_iters', 0) + + # set up optimizers and schedulers + self.setup_optimizers() + self.setup_schedulers() + + def setup_optimizers(self): + train_opt = self.opt['train'] + # optimizer g + optim_type = train_opt['optim_g'].pop('type') + self.optimizer_g = self.get_optimizer(optim_type, self.net_g.parameters(), **train_opt['optim_g']) + self.optimizers.append(self.optimizer_g) + # optimizer d + optim_type = train_opt['optim_d'].pop('type') + self.optimizer_d = self.get_optimizer(optim_type, self.net_d.parameters(), **train_opt['optim_d']) + self.optimizers.append(self.optimizer_d) + + def optimize_parameters(self, current_iter): + # optimize net_g + for p in self.net_d.parameters(): + p.requires_grad = False + + self.optimizer_g.zero_grad() + self.output = self.net_g(self.lq) + + l_g_total = 0 + loss_dict = OrderedDict() + if (current_iter % self.net_d_iters == 0 and current_iter > self.net_d_init_iters): + # pixel loss + if self.cri_pix: + l_g_pix = self.cri_pix(self.output, self.gt) + l_g_total += l_g_pix + loss_dict['l_g_pix'] = l_g_pix + # perceptual loss + if self.cri_perceptual: + l_g_percep, l_g_style = self.cri_perceptual(self.output, self.gt) + if l_g_percep is not None: + l_g_total += l_g_percep + loss_dict['l_g_percep'] = l_g_percep + if l_g_style is not None: + l_g_total += l_g_style + loss_dict['l_g_style'] = l_g_style + # gan loss + fake_g_pred = self.net_d(self.output) + l_g_gan = self.cri_gan(fake_g_pred, True, is_disc=False) + l_g_total += l_g_gan + loss_dict['l_g_gan'] = l_g_gan + + l_g_total.backward() + self.optimizer_g.step() + + # optimize net_d + for p in self.net_d.parameters(): + p.requires_grad = True + + self.optimizer_d.zero_grad() + # real + real_d_pred = self.net_d(self.gt) + l_d_real = self.cri_gan(real_d_pred, True, is_disc=True) + loss_dict['l_d_real'] = l_d_real + loss_dict['out_d_real'] = torch.mean(real_d_pred.detach()) + l_d_real.backward() + # fake + fake_d_pred = self.net_d(self.output.detach()) + l_d_fake = self.cri_gan(fake_d_pred, False, is_disc=True) + loss_dict['l_d_fake'] = l_d_fake + loss_dict['out_d_fake'] = torch.mean(fake_d_pred.detach()) + l_d_fake.backward() + self.optimizer_d.step() + + self.log_dict = self.reduce_loss_dict(loss_dict) + + if self.ema_decay > 0: + self.model_ema(decay=self.ema_decay) + + def save(self, epoch, current_iter): + if hasattr(self, 'net_g_ema'): + self.save_network([self.net_g, self.net_g_ema], 'net_g', current_iter, param_key=['params', 'params_ema']) + else: + self.save_network(self.net_g, 'net_g', current_iter) + self.save_network(self.net_d, 'net_d', current_iter) + self.save_training_state(epoch, current_iter) -- cgit v1.2.3