import torch from collections import Counter from os import path as osp from torch import distributed as dist from tqdm import tqdm from basicsr.metrics import calculate_metric from basicsr.utils import get_root_logger, imwrite, tensor2img from basicsr.utils.dist_util import get_dist_info from basicsr.utils.registry import MODEL_REGISTRY from .sr_model import SRModel @MODEL_REGISTRY.register() class VideoBaseModel(SRModel): """Base video SR model.""" def dist_validation(self, dataloader, current_iter, tb_logger, save_img): dataset = dataloader.dataset dataset_name = dataset.opt['name'] with_metrics = self.opt['val']['metrics'] is not None # initialize self.metric_results # It is a dict: { # 'folder1': tensor (num_frame x len(metrics)), # 'folder2': tensor (num_frame x len(metrics)) # } if with_metrics: if not hasattr(self, 'metric_results'): # only execute in the first run self.metric_results = {} num_frame_each_folder = Counter(dataset.data_info['folder']) for folder, num_frame in num_frame_each_folder.items(): self.metric_results[folder] = torch.zeros( num_frame, len(self.opt['val']['metrics']), dtype=torch.float32, device='cuda') # initialize the best metric results self._initialize_best_metric_results(dataset_name) # zero self.metric_results rank, world_size = get_dist_info() if with_metrics: for _, tensor in self.metric_results.items(): tensor.zero_() metric_data = dict() # record all frames (border and center frames) if rank == 0: pbar = tqdm(total=len(dataset), unit='frame') for idx in range(rank, len(dataset), world_size): val_data = dataset[idx] val_data['lq'].unsqueeze_(0) val_data['gt'].unsqueeze_(0) folder = val_data['folder'] frame_idx, max_idx = val_data['idx'].split('/') lq_path = val_data['lq_path'] self.feed_data(val_data) self.test() visuals = self.get_current_visuals() result_img = tensor2img([visuals['result']]) metric_data['img'] = result_img if 'gt' in visuals: gt_img = tensor2img([visuals['gt']]) metric_data['img2'] = gt_img del self.gt # tentative for out of GPU memory del self.lq del self.output torch.cuda.empty_cache() if save_img: if self.opt['is_train']: raise NotImplementedError('saving image is not supported during training.') else: if 'vimeo' in dataset_name.lower(): # vimeo90k dataset split_result = lq_path.split('/') img_name = f'{split_result[-3]}_{split_result[-2]}_{split_result[-1].split(".")[0]}' else: # other datasets, e.g., REDS, Vid4 img_name = osp.splitext(osp.basename(lq_path))[0] if self.opt['val']['suffix']: save_img_path = osp.join(self.opt['path']['visualization'], dataset_name, folder, f'{img_name}_{self.opt["val"]["suffix"]}.png') else: save_img_path = osp.join(self.opt['path']['visualization'], dataset_name, folder, f'{img_name}_{self.opt["name"]}.png') imwrite(result_img, save_img_path) if with_metrics: # calculate metrics for metric_idx, opt_ in enumerate(self.opt['val']['metrics'].values()): result = calculate_metric(metric_data, opt_) self.metric_results[folder][int(frame_idx), metric_idx] += result # progress bar if rank == 0: for _ in range(world_size): pbar.update(1) pbar.set_description(f'Test {folder}: {int(frame_idx) + world_size}/{max_idx}') if rank == 0: pbar.close() if with_metrics: if self.opt['dist']: # collect data among GPUs for _, tensor in self.metric_results.items(): dist.reduce(tensor, 0) dist.barrier() else: pass # assume use one gpu in non-dist testing if rank == 0: self._log_validation_metric_values(current_iter, dataset_name, tb_logger) def nondist_validation(self, dataloader, current_iter, tb_logger, save_img): logger = get_root_logger() logger.warning('nondist_validation is not implemented. Run dist_validation.') self.dist_validation(dataloader, current_iter, tb_logger, save_img) def _log_validation_metric_values(self, current_iter, dataset_name, tb_logger): # ----------------- calculate the average values for each folder, and for each metric ----------------- # # average all frames for each sub-folder # metric_results_avg is a dict:{ # 'folder1': tensor (len(metrics)), # 'folder2': tensor (len(metrics)) # } metric_results_avg = { folder: torch.mean(tensor, dim=0).cpu() for (folder, tensor) in self.metric_results.items() } # total_avg_results is a dict: { # 'metric1': float, # 'metric2': float # } total_avg_results = {metric: 0 for metric in self.opt['val']['metrics'].keys()} for folder, tensor in metric_results_avg.items(): for idx, metric in enumerate(total_avg_results.keys()): total_avg_results[metric] += metric_results_avg[folder][idx].item() # average among folders for metric in total_avg_results.keys(): total_avg_results[metric] /= len(metric_results_avg) # update the best metric result self._update_best_metric_result(dataset_name, metric, total_avg_results[metric], current_iter) # ------------------------------------------ log the metric ------------------------------------------ # log_str = f'Validation {dataset_name}\n' for metric_idx, (metric, value) in enumerate(total_avg_results.items()): log_str += f'\t # {metric}: {value:.4f}' for folder, tensor in metric_results_avg.items(): log_str += f'\t # {folder}: {tensor[metric_idx].item():.4f}' if hasattr(self, 'best_metric_results'): log_str += (f'\n\t Best: {self.best_metric_results[dataset_name][metric]["val"]:.4f} @ ' f'{self.best_metric_results[dataset_name][metric]["iter"]} iter') log_str += '\n' logger = get_root_logger() logger.info(log_str) if tb_logger: for metric_idx, (metric, value) in enumerate(total_avg_results.items()): tb_logger.add_scalar(f'metrics/{metric}', value, current_iter) for folder, tensor in metric_results_avg.items(): tb_logger.add_scalar(f'metrics/{metric}/{folder}', tensor[metric_idx].item(), current_iter)