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import cv2 |
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import math |
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import numpy as np |
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import os |
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import os.path as osp |
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import random |
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import time |
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import torch |
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from torch.utils import data as data |
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from basicsr.data.degradations import circular_lowpass_kernel, random_mixed_kernels |
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from basicsr.data.transforms import augment |
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from basicsr.utils import FileClient, get_root_logger, imfrombytes, img2tensor |
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from basicsr.utils.registry import DATASET_REGISTRY |
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@DATASET_REGISTRY.register(suffix='basicsr') |
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class RealESRGANDataset(data.Dataset): |
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"""Dataset used for Real-ESRGAN model: |
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Real-ESRGAN: Training Real-World Blind Super-Resolution with Pure Synthetic Data. |
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It loads gt (Ground-Truth) images, and augments them. |
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It also generates blur kernels and sinc kernels for generating low-quality images. |
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Note that the low-quality images are processed in tensors on GPUS for faster processing. |
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Args: |
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opt (dict): Config for train datasets. It contains the following keys: |
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dataroot_gt (str): Data root path for gt. |
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meta_info (str): Path for meta information file. |
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io_backend (dict): IO backend type and other kwarg. |
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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 and w for implementation). |
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Please see more options in the codes. |
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""" |
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def __init__(self, opt): |
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super(RealESRGANDataset, self).__init__() |
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self.opt = opt |
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self.file_client = None |
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self.io_backend_opt = opt['io_backend'] |
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self.gt_folder = opt['dataroot_gt'] |
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if self.io_backend_opt['type'] == 'lmdb': |
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self.io_backend_opt['db_paths'] = [self.gt_folder] |
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self.io_backend_opt['client_keys'] = ['gt'] |
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if not self.gt_folder.endswith('.lmdb'): |
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raise ValueError(f"'dataroot_gt' should end with '.lmdb', but received {self.gt_folder}") |
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with open(osp.join(self.gt_folder, 'meta_info.txt')) as fin: |
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self.paths = [line.split('.')[0] for line in fin] |
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else: |
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with open(self.opt['meta_info']) as fin: |
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paths = [line.strip().split(' ')[0] for line in fin] |
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self.paths = [os.path.join(self.gt_folder, v) for v in paths] |
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self.blur_kernel_size = opt['blur_kernel_size'] |
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self.kernel_list = opt['kernel_list'] |
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self.kernel_prob = opt['kernel_prob'] |
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self.blur_sigma = opt['blur_sigma'] |
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self.betag_range = opt['betag_range'] |
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self.betap_range = opt['betap_range'] |
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self.sinc_prob = opt['sinc_prob'] |
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self.blur_kernel_size2 = opt['blur_kernel_size2'] |
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self.kernel_list2 = opt['kernel_list2'] |
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self.kernel_prob2 = opt['kernel_prob2'] |
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self.blur_sigma2 = opt['blur_sigma2'] |
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self.betag_range2 = opt['betag_range2'] |
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self.betap_range2 = opt['betap_range2'] |
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self.sinc_prob2 = opt['sinc_prob2'] |
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self.final_sinc_prob = opt['final_sinc_prob'] |
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self.kernel_range = [2 * v + 1 for v in range(3, 11)] |
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self.pulse_tensor = torch.zeros(21, 21).float() |
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self.pulse_tensor[10, 10] = 1 |
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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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gt_path = self.paths[index] |
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retry = 3 |
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while retry > 0: |
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try: |
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img_bytes = self.file_client.get(gt_path, 'gt') |
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except (IOError, OSError) as e: |
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logger = get_root_logger() |
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logger.warn(f'File client error: {e}, remaining retry times: {retry - 1}') |
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index = random.randint(0, self.__len__()) |
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gt_path = self.paths[index] |
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time.sleep(1) |
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else: |
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break |
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finally: |
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retry -= 1 |
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img_gt = imfrombytes(img_bytes, float32=True) |
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img_gt = augment(img_gt, self.opt['use_hflip'], self.opt['use_rot']) |
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h, w = img_gt.shape[0:2] |
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crop_pad_size = 400 |
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if h < crop_pad_size or w < crop_pad_size: |
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pad_h = max(0, crop_pad_size - h) |
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pad_w = max(0, crop_pad_size - w) |
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img_gt = cv2.copyMakeBorder(img_gt, 0, pad_h, 0, pad_w, cv2.BORDER_REFLECT_101) |
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if img_gt.shape[0] > crop_pad_size or img_gt.shape[1] > crop_pad_size: |
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h, w = img_gt.shape[0:2] |
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top = random.randint(0, h - crop_pad_size) |
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left = random.randint(0, w - crop_pad_size) |
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img_gt = img_gt[top:top + crop_pad_size, left:left + crop_pad_size, ...] |
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kernel_size = random.choice(self.kernel_range) |
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if np.random.uniform() < self.opt['sinc_prob']: |
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if kernel_size < 13: |
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omega_c = np.random.uniform(np.pi / 3, np.pi) |
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else: |
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omega_c = np.random.uniform(np.pi / 5, np.pi) |
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kernel = circular_lowpass_kernel(omega_c, kernel_size, pad_to=False) |
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else: |
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kernel = random_mixed_kernels( |
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self.kernel_list, |
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self.kernel_prob, |
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kernel_size, |
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self.blur_sigma, |
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self.blur_sigma, [-math.pi, math.pi], |
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self.betag_range, |
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self.betap_range, |
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noise_range=None) |
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pad_size = (21 - kernel_size) // 2 |
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kernel = np.pad(kernel, ((pad_size, pad_size), (pad_size, pad_size))) |
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kernel_size = random.choice(self.kernel_range) |
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if np.random.uniform() < self.opt['sinc_prob2']: |
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if kernel_size < 13: |
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omega_c = np.random.uniform(np.pi / 3, np.pi) |
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else: |
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omega_c = np.random.uniform(np.pi / 5, np.pi) |
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kernel2 = circular_lowpass_kernel(omega_c, kernel_size, pad_to=False) |
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else: |
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kernel2 = random_mixed_kernels( |
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self.kernel_list2, |
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self.kernel_prob2, |
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kernel_size, |
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self.blur_sigma2, |
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self.blur_sigma2, [-math.pi, math.pi], |
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self.betag_range2, |
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self.betap_range2, |
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noise_range=None) |
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pad_size = (21 - kernel_size) // 2 |
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kernel2 = np.pad(kernel2, ((pad_size, pad_size), (pad_size, pad_size))) |
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if np.random.uniform() < self.opt['final_sinc_prob']: |
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kernel_size = random.choice(self.kernel_range) |
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omega_c = np.random.uniform(np.pi / 3, np.pi) |
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sinc_kernel = circular_lowpass_kernel(omega_c, kernel_size, pad_to=21) |
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sinc_kernel = torch.FloatTensor(sinc_kernel) |
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else: |
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sinc_kernel = self.pulse_tensor |
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img_gt = img2tensor([img_gt], bgr2rgb=True, float32=True)[0] |
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kernel = torch.FloatTensor(kernel) |
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kernel2 = torch.FloatTensor(kernel2) |
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return_d = {'gt': img_gt, 'kernel1': kernel, 'kernel2': kernel2, 'sinc_kernel': sinc_kernel, 'gt_path': gt_path} |
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return return_d |
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def __len__(self): |
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return len(self.paths) |
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