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import numpy as np |
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import random |
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import torch |
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from pathlib import Path |
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from torch.utils import data as data |
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from r_basicsr.data.transforms import augment, paired_random_crop |
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from r_basicsr.utils import FileClient, get_root_logger, imfrombytes, img2tensor |
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from r_basicsr.utils.flow_util import dequantize_flow |
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from r_basicsr.utils.registry import DATASET_REGISTRY |
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@DATASET_REGISTRY.register() |
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class REDSDataset(data.Dataset): |
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"""REDS dataset for training. |
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The keys are generated from a meta info txt file. |
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basicsr/data/meta_info/meta_info_REDS_GT.txt |
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Each line contains: |
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1. subfolder (clip) name; 2. frame number; 3. image shape, separated by |
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a white space. |
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Examples: |
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000 100 (720,1280,3) |
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001 100 (720,1280,3) |
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... |
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Key examples: "000/00000000" |
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GT (gt): Ground-Truth; |
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LQ (lq): Low-Quality, e.g., low-resolution/blurry/noisy/compressed frames. |
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Args: |
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opt (dict): Config for train dataset. It contains the following keys: |
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dataroot_gt (str): Data root path for gt. |
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dataroot_lq (str): Data root path for lq. |
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dataroot_flow (str, optional): Data root path for flow. |
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meta_info_file (str): Path for meta information file. |
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val_partition (str): Validation partition types. 'REDS4' or |
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'official'. |
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io_backend (dict): IO backend type and other kwarg. |
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num_frame (int): Window size for input frames. |
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gt_size (int): Cropped patched size for gt patches. |
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interval_list (list): Interval list for temporal augmentation. |
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random_reverse (bool): Random reverse input frames. |
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use_hflip (bool): Use horizontal flips. |
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use_rot (bool): Use rotation (use vertical flip and transposing h |
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and w for implementation). |
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scale (bool): Scale, which will be added automatically. |
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""" |
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def __init__(self, opt): |
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super(REDSDataset, self).__init__() |
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self.opt = opt |
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self.gt_root, self.lq_root = Path(opt['dataroot_gt']), Path(opt['dataroot_lq']) |
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self.flow_root = Path(opt['dataroot_flow']) if opt['dataroot_flow'] is not None else None |
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assert opt['num_frame'] % 2 == 1, (f'num_frame should be odd number, but got {opt["num_frame"]}') |
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self.num_frame = opt['num_frame'] |
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self.num_half_frames = opt['num_frame'] // 2 |
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self.keys = [] |
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with open(opt['meta_info_file'], 'r') as fin: |
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for line in fin: |
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folder, frame_num, _ = line.split(' ') |
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self.keys.extend([f'{folder}/{i:08d}' for i in range(int(frame_num))]) |
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if opt['val_partition'] == 'REDS4': |
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val_partition = ['000', '011', '015', '020'] |
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elif opt['val_partition'] == 'official': |
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val_partition = [f'{v:03d}' for v in range(240, 270)] |
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else: |
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raise ValueError(f'Wrong validation partition {opt["val_partition"]}.' |
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f"Supported ones are ['official', 'REDS4'].") |
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self.keys = [v for v in self.keys if v.split('/')[0] not in val_partition] |
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self.file_client = None |
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self.io_backend_opt = opt['io_backend'] |
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self.is_lmdb = False |
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if self.io_backend_opt['type'] == 'lmdb': |
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self.is_lmdb = True |
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if self.flow_root is not None: |
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self.io_backend_opt['db_paths'] = [self.lq_root, self.gt_root, self.flow_root] |
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self.io_backend_opt['client_keys'] = ['lq', 'gt', 'flow'] |
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else: |
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self.io_backend_opt['db_paths'] = [self.lq_root, self.gt_root] |
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self.io_backend_opt['client_keys'] = ['lq', 'gt'] |
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self.interval_list = opt['interval_list'] |
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self.random_reverse = opt['random_reverse'] |
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interval_str = ','.join(str(x) for x in opt['interval_list']) |
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logger = get_root_logger() |
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logger.info(f'Temporal augmentation interval list: [{interval_str}]; ' |
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f'random reverse is {self.random_reverse}.') |
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def __getitem__(self, index): |
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if self.file_client is None: |
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self.file_client = FileClient(self.io_backend_opt.pop('type'), **self.io_backend_opt) |
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scale = self.opt['scale'] |
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gt_size = self.opt['gt_size'] |
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key = self.keys[index] |
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clip_name, frame_name = key.split('/') |
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center_frame_idx = int(frame_name) |
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interval = random.choice(self.interval_list) |
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start_frame_idx = center_frame_idx - self.num_half_frames * interval |
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end_frame_idx = center_frame_idx + self.num_half_frames * interval |
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while (start_frame_idx < 0) or (end_frame_idx > 99): |
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center_frame_idx = random.randint(0, 99) |
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start_frame_idx = (center_frame_idx - self.num_half_frames * interval) |
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end_frame_idx = center_frame_idx + self.num_half_frames * interval |
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frame_name = f'{center_frame_idx:08d}' |
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neighbor_list = list(range(start_frame_idx, end_frame_idx + 1, interval)) |
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if self.random_reverse and random.random() < 0.5: |
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neighbor_list.reverse() |
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assert len(neighbor_list) == self.num_frame, (f'Wrong length of neighbor list: {len(neighbor_list)}') |
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if self.is_lmdb: |
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img_gt_path = f'{clip_name}/{frame_name}' |
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else: |
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img_gt_path = self.gt_root / clip_name / f'{frame_name}.png' |
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img_bytes = self.file_client.get(img_gt_path, 'gt') |
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img_gt = imfrombytes(img_bytes, float32=True) |
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img_lqs = [] |
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for neighbor in neighbor_list: |
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if self.is_lmdb: |
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img_lq_path = f'{clip_name}/{neighbor:08d}' |
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else: |
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img_lq_path = self.lq_root / clip_name / f'{neighbor:08d}.png' |
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img_bytes = self.file_client.get(img_lq_path, 'lq') |
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img_lq = imfrombytes(img_bytes, float32=True) |
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img_lqs.append(img_lq) |
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if self.flow_root is not None: |
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img_flows = [] |
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for i in range(self.num_half_frames, 0, -1): |
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if self.is_lmdb: |
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flow_path = f'{clip_name}/{frame_name}_p{i}' |
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else: |
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flow_path = (self.flow_root / clip_name / f'{frame_name}_p{i}.png') |
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img_bytes = self.file_client.get(flow_path, 'flow') |
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cat_flow = imfrombytes(img_bytes, flag='grayscale', float32=False) |
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dx, dy = np.split(cat_flow, 2, axis=0) |
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flow = dequantize_flow(dx, dy, max_val=20, denorm=False) |
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img_flows.append(flow) |
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for i in range(1, self.num_half_frames + 1): |
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if self.is_lmdb: |
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flow_path = f'{clip_name}/{frame_name}_n{i}' |
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else: |
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flow_path = (self.flow_root / clip_name / f'{frame_name}_n{i}.png') |
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img_bytes = self.file_client.get(flow_path, 'flow') |
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cat_flow = imfrombytes(img_bytes, flag='grayscale', float32=False) |
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dx, dy = np.split(cat_flow, 2, axis=0) |
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flow = dequantize_flow(dx, dy, max_val=20, denorm=False) |
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img_flows.append(flow) |
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img_lqs.extend(img_flows) |
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img_gt, img_lqs = paired_random_crop(img_gt, img_lqs, gt_size, scale, img_gt_path) |
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if self.flow_root is not None: |
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img_lqs, img_flows = img_lqs[:self.num_frame], img_lqs[self.num_frame:] |
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img_lqs.append(img_gt) |
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if self.flow_root is not None: |
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img_results, img_flows = augment(img_lqs, self.opt['use_hflip'], self.opt['use_rot'], img_flows) |
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else: |
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img_results = augment(img_lqs, self.opt['use_hflip'], self.opt['use_rot']) |
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img_results = img2tensor(img_results) |
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img_lqs = torch.stack(img_results[0:-1], dim=0) |
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img_gt = img_results[-1] |
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if self.flow_root is not None: |
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img_flows = img2tensor(img_flows) |
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img_flows.insert(self.num_half_frames, torch.zeros_like(img_flows[0])) |
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img_flows = torch.stack(img_flows, dim=0) |
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if self.flow_root is not None: |
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return {'lq': img_lqs, 'flow': img_flows, 'gt': img_gt, 'key': key} |
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else: |
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return {'lq': img_lqs, 'gt': img_gt, 'key': key} |
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def __len__(self): |
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return len(self.keys) |
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@DATASET_REGISTRY.register() |
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class REDSRecurrentDataset(data.Dataset): |
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"""REDS dataset for training recurrent networks. |
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The keys are generated from a meta info txt file. |
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basicsr/data/meta_info/meta_info_REDS_GT.txt |
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Each line contains: |
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1. subfolder (clip) name; 2. frame number; 3. image shape, separated by |
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a white space. |
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Examples: |
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000 100 (720,1280,3) |
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001 100 (720,1280,3) |
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... |
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|
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Key examples: "000/00000000" |
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GT (gt): Ground-Truth; |
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LQ (lq): Low-Quality, e.g., low-resolution/blurry/noisy/compressed frames. |
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Args: |
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opt (dict): Config for train dataset. It contains the following keys: |
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dataroot_gt (str): Data root path for gt. |
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dataroot_lq (str): Data root path for lq. |
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dataroot_flow (str, optional): Data root path for flow. |
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meta_info_file (str): Path for meta information file. |
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val_partition (str): Validation partition types. 'REDS4' or |
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'official'. |
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io_backend (dict): IO backend type and other kwarg. |
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num_frame (int): Window size for input frames. |
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gt_size (int): Cropped patched size for gt patches. |
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interval_list (list): Interval list for temporal augmentation. |
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random_reverse (bool): Random reverse input frames. |
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use_hflip (bool): Use horizontal flips. |
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use_rot (bool): Use rotation (use vertical flip and transposing h |
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and w for implementation). |
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scale (bool): Scale, which will be added automatically. |
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""" |
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def __init__(self, opt): |
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super(REDSRecurrentDataset, self).__init__() |
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self.opt = opt |
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self.gt_root, self.lq_root = Path(opt['dataroot_gt']), Path(opt['dataroot_lq']) |
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self.num_frame = opt['num_frame'] |
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self.keys = [] |
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with open(opt['meta_info_file'], 'r') as fin: |
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for line in fin: |
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folder, frame_num, _ = line.split(' ') |
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self.keys.extend([f'{folder}/{i:08d}' for i in range(int(frame_num))]) |
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if opt['val_partition'] == 'REDS4': |
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val_partition = ['000', '011', '015', '020'] |
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elif opt['val_partition'] == 'official': |
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val_partition = [f'{v:03d}' for v in range(240, 270)] |
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else: |
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raise ValueError(f'Wrong validation partition {opt["val_partition"]}.' |
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f"Supported ones are ['official', 'REDS4'].") |
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if opt['test_mode']: |
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self.keys = [v for v in self.keys if v.split('/')[0] in val_partition] |
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else: |
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self.keys = [v for v in self.keys if v.split('/')[0] not in val_partition] |
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self.file_client = None |
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self.io_backend_opt = opt['io_backend'] |
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self.is_lmdb = False |
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if self.io_backend_opt['type'] == 'lmdb': |
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self.is_lmdb = True |
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if hasattr(self, 'flow_root') and self.flow_root is not None: |
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self.io_backend_opt['db_paths'] = [self.lq_root, self.gt_root, self.flow_root] |
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self.io_backend_opt['client_keys'] = ['lq', 'gt', 'flow'] |
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else: |
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self.io_backend_opt['db_paths'] = [self.lq_root, self.gt_root] |
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self.io_backend_opt['client_keys'] = ['lq', 'gt'] |
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self.interval_list = opt.get('interval_list', [1]) |
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self.random_reverse = opt.get('random_reverse', False) |
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interval_str = ','.join(str(x) for x in self.interval_list) |
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logger = get_root_logger() |
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logger.info(f'Temporal augmentation interval list: [{interval_str}]; ' |
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f'random reverse is {self.random_reverse}.') |
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def __getitem__(self, index): |
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if self.file_client is None: |
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self.file_client = FileClient(self.io_backend_opt.pop('type'), **self.io_backend_opt) |
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scale = self.opt['scale'] |
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gt_size = self.opt['gt_size'] |
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key = self.keys[index] |
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clip_name, frame_name = key.split('/') |
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interval = random.choice(self.interval_list) |
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start_frame_idx = int(frame_name) |
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if start_frame_idx > 100 - self.num_frame * interval: |
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start_frame_idx = random.randint(0, 100 - self.num_frame * interval) |
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end_frame_idx = start_frame_idx + self.num_frame * interval |
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neighbor_list = list(range(start_frame_idx, end_frame_idx, interval)) |
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if self.random_reverse and random.random() < 0.5: |
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neighbor_list.reverse() |
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img_lqs = [] |
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img_gts = [] |
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for neighbor in neighbor_list: |
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if self.is_lmdb: |
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img_lq_path = f'{clip_name}/{neighbor:08d}' |
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img_gt_path = f'{clip_name}/{neighbor:08d}' |
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else: |
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img_lq_path = self.lq_root / clip_name / f'{neighbor:08d}.png' |
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img_gt_path = self.gt_root / clip_name / f'{neighbor:08d}.png' |
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img_bytes = self.file_client.get(img_lq_path, 'lq') |
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img_lq = imfrombytes(img_bytes, float32=True) |
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img_lqs.append(img_lq) |
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img_bytes = self.file_client.get(img_gt_path, 'gt') |
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img_gt = imfrombytes(img_bytes, float32=True) |
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img_gts.append(img_gt) |
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img_gts, img_lqs = paired_random_crop(img_gts, img_lqs, gt_size, scale, img_gt_path) |
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img_lqs.extend(img_gts) |
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img_results = augment(img_lqs, self.opt['use_hflip'], self.opt['use_rot']) |
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img_results = img2tensor(img_results) |
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img_gts = torch.stack(img_results[len(img_lqs) // 2:], dim=0) |
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img_lqs = torch.stack(img_results[:len(img_lqs) // 2], dim=0) |
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return {'lq': img_lqs, 'gt': img_gts, 'key': key} |
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def __len__(self): |
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return len(self.keys) |
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