126 lines
4.8 KiB
Python
126 lines
4.8 KiB
Python
import random
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import numpy as np
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import cv2
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import torch
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import torch.utils.data as data
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import data.util as util
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from PIL import Image, ImageOps
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from io import BytesIO
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import torchvision.transforms.functional as F
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# Reads full-quality images and pulls tiles at regular zoom intervals from them. Only usable for training purposes.
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class MultiScaleDataset(data.Dataset):
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def __init__(self, opt):
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super(MultiScaleDataset, self).__init__()
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self.opt = opt
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self.data_type = 'img'
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self.tile_size = self.opt['hq_tile_size']
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self.num_scales = self.opt['num_scales']
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self.hq_size_cap = self.tile_size * 2 ** self.num_scales
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self.scale = self.opt['scale']
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self.paths_hq, self.sizes_hq = util.get_image_paths(self.data_type, opt['dataroot'], [1])
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# Selects the smallest dimension from the image and crops it randomly so the other dimension matches. The cropping
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# offset from center is chosen on a normal probability curve.
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def get_square_image(self, image):
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h, w, _ = image.shape
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if h == w:
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return image
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offset = max(min(np.random.normal(scale=.3), 1.0), -1.0)
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if h > w:
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diff = h - w
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center = diff // 2
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top = int(center + offset * (center - 2))
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return image[top:top+w, :, :]
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else:
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diff = w - h
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center = diff // 2
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left = int(center + offset * (center - 2))
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return image[:, left:left+h, :]
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def recursively_extract_patches(self, input_img, result_list, depth):
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if depth > self.num_scales:
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return
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patch_size = self.hq_size_cap // (2 ** depth)
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# First pull the four sub-patches.
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patches = [input_img[:patch_size, :patch_size],
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input_img[:patch_size, patch_size:],
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input_img[patch_size:, :patch_size],
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input_img[patch_size:, patch_size:]]
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result_list.extend([cv2.resize(p, (self.tile_size, self.tile_size), interpolation=cv2.INTER_LINEAR) for p in patches])
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for p in patches:
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self.recursively_extract_patches(p, result_list, depth+1)
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def __getitem__(self, index):
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# get full size image
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full_path = self.paths_hq[index % len(self.paths_hq)]
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img_full = util.read_img(None, full_path, None)
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img_full = util.channel_convert(img_full.shape[2], 'RGB', [img_full])[0]
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img_full = util.augment([img_full], True, True)[0]
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img_full = self.get_square_image(img_full)
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img_full = cv2.resize(img_full, (self.hq_size_cap, self.hq_size_cap), interpolation=cv2.INTER_LINEAR)
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patches_hq = [cv2.resize(img_full, (self.tile_size, self.tile_size), interpolation=cv2.INTER_LINEAR)]
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self.recursively_extract_patches(img_full, patches_hq, 1)
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# BGR to RGB, HWC to CHW, numpy to tensor
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if patches_hq[0].shape[2] == 3:
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patches_hq = [cv2.cvtColor(p, cv2.COLOR_BGR2RGB) for p in patches_hq]
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patches_hq = [torch.from_numpy(np.ascontiguousarray(np.transpose(p, (2, 0, 1)))).float() for p in patches_hq]
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patches_lq = [torch.nn.functional.interpolate(p.unsqueeze(0), scale_factor=1/self.scale, mode='bilinear').squeeze() for p in patches_hq]
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d = {'LQ': patches_lq, 'HQ': patches_hq, 'GT_path': full_path}
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return d
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def __len__(self):
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return len(self.paths_hq)
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def build_multiscale_patch_index_map(depth):
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if depth < 0:
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return
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recursive_list = []
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map = (0, recursive_list)
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_build_multiscale_patch_index_map(depth, 1, recursive_list)
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return map
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def _build_multiscale_patch_index_map(depth, ind, recursive_list):
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if depth <= 0:
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return ind
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patches = [(ind+i, []) for i in range(4)]
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recursive_list.extend(patches)
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ind += 4
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for _, p in patches:
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ind = _build_multiscale_patch_index_map(depth-1, ind, p)
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return ind
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if __name__ == '__main__':
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opt = {
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'name': 'amalgam',
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'dataroot': ['F:\\4k6k\\datasets\\ns_images\\imagesets\\images'],
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'num_scales': 4,
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'scale': 2,
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'hq_tile_size': 128
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}
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import torchvision
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ds = MultiScaleDataset(opt)
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import os
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os.makedirs("debug", exist_ok=True)
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multiscale_map = build_multiscale_patch_index_map(4)
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for i in range(900, len(ds)):
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quadrant=2
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print(i)
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o = ds[i]
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k = 'HQ'
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v = o['HQ']
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#for j, img in enumerate(v):
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# torchvision.utils.save_image(img.unsqueeze(0), "debug/%i_%s_%i.png" % (i, k, j))
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torchvision.utils.save_image(v[0].unsqueeze(0), "debug/%i_%s_0.png" % (i, k))
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map_tuple = multiscale_map[1][quadrant]
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while map_tuple[1]:
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ind = map_tuple[0]
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torchvision.utils.save_image(v[ind].unsqueeze(0), "debug/%i_%s_%i.png" % (i, k, ind+1))
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map_tuple = map_tuple[1][quadrant] |