| | import os |
| | import numpy as np |
| | from skimage import color, io |
| |
|
| | import torch |
| | import torch.nn.functional as F |
| |
|
| | from PIL import Image |
| | from models import ColorEncoder, ColorUNet |
| | from extractor.manga_panel_extractor import PanelExtractor |
| | import argparse |
| |
|
| | os.environ["CUDA_VISIBLE_DEVICES"] = '0' |
| |
|
| | def mkdirs(path): |
| | if not os.path.exists(path): |
| | os.makedirs(path) |
| |
|
| | def Lab2RGB_out(img_lab): |
| | img_lab = img_lab.detach().cpu() |
| | img_l = img_lab[:,:1,:,:] |
| | img_ab = img_lab[:,1:,:,:] |
| | |
| | |
| | img_l = img_l + 50 |
| | pred_lab = torch.cat((img_l, img_ab), 1)[0,...].numpy() |
| | |
| | |
| | out = (np.clip(color.lab2rgb(pred_lab.transpose(1, 2, 0)), 0, 1)* 255).astype("uint8") |
| | return out |
| |
|
| | def RGB2Lab(inputs): |
| | return color.rgb2lab(inputs) |
| |
|
| | def Normalize(inputs): |
| | l = inputs[:, :, 0:1] |
| | ab = inputs[:, :, 1:3] |
| | l = l - 50 |
| | lab = np.concatenate((l, ab), 2) |
| |
|
| | return lab.astype('float32') |
| |
|
| | def numpy2tensor(inputs): |
| | out = torch.from_numpy(inputs.transpose(2,0,1)) |
| | return out |
| |
|
| | def tensor2numpy(inputs): |
| | out = inputs[0,...].detach().cpu().numpy().transpose(1,2,0) |
| | return out |
| |
|
| | def preprocessing(inputs): |
| | |
| | img_lab = Normalize(RGB2Lab(inputs)) |
| | img = np.array(inputs, 'float32') |
| | img = numpy2tensor(img) |
| | img_lab = numpy2tensor(img_lab) |
| | return img.unsqueeze(0), img_lab.unsqueeze(0) |
| |
|
| | if __name__ == "__main__": |
| | device = "cuda" |
| |
|
| | |
| | ckpt_path = 'experiments/Color2Manga_gray/074000_gray.pt' |
| | test_dir_path = 'test_datasets/gray_test' |
| | no_extractor = False |
| | |
| | imgsize = 256 |
| |
|
| | parser = argparse.ArgumentParser() |
| |
|
| | parser.add_argument("--path", type=str, default=None, help="path of input image") |
| | parser.add_argument("--size", type=int, default=None) |
| | parser.add_argument("--ckpt", type=str, default=None, help="path of model weight") |
| | parser.add_argument("-ne", "--no_extractor", action='store_true', |
| | help="Do not segment the manga panels.") |
| |
|
| | args = parser.parse_args() |
| |
|
| | if args.path: |
| | ckpt_path = args.path |
| | if args.size: |
| | imgsize = args.size |
| | if args.ckpt: |
| | test_dir_path = args.ckpt |
| | if args.no_extractor: |
| | no_extractor = args.no_extractor |
| |
|
| |
|
| | ckpt = torch.load(ckpt_path, map_location=lambda storage, loc: storage) |
| |
|
| | colorEncoder = ColorEncoder().to(device) |
| | colorEncoder.load_state_dict(ckpt["colorEncoder"]) |
| | colorEncoder.eval() |
| |
|
| | colorUNet = ColorUNet().to(device) |
| | colorUNet.load_state_dict(ckpt["colorUNet"]) |
| | colorUNet.eval() |
| |
|
| | imgs = [] |
| | imgs_lab = [] |
| |
|
| | |
| | |
| | |
| |
|
| | while 1: |
| | print(f'make sure both manga image and reference images are under this path{test_dir_path}') |
| | img_path = input("please input the name of image needed to be colorized(with file extension): ") |
| | img_path = os.path.join(test_dir_path, img_path) |
| | img_name = os.path.basename(img_path) |
| | img_name = os.path.splitext(img_name)[0] |
| |
|
| | if no_extractor: |
| | ref_img_path = os.path.join(test_dir_path, input(f"{1}/{1} reference image:")) |
| |
|
| | img1 = Image.open(img_path).convert("RGB") |
| | width, height = img1.size |
| | img2 = Image.open(ref_img_path).convert("RGB") |
| |
|
| | img1, img1_lab = preprocessing(img1) |
| | img2, img2_lab = preprocessing(img2) |
| |
|
| | img1 = img1.to(device) |
| | img1_lab = img1_lab.to(device) |
| | img2 = img2.to(device) |
| | img2_lab = img2_lab.to(device) |
| |
|
| | |
| |
|
| | with torch.no_grad(): |
| | img2_resize = F.interpolate(img2 / 255., size=(imgsize, imgsize), mode='bilinear', |
| | recompute_scale_factor=False, align_corners=False) |
| | img1_L_resize = F.interpolate(img1_lab[:, :1, :, :] / 50., size=(imgsize, imgsize), mode='bilinear', |
| | recompute_scale_factor=False, align_corners=False) |
| |
|
| | color_vector = colorEncoder(img2_resize) |
| |
|
| | fake_ab = colorUNet((img1_L_resize, color_vector)) |
| | fake_ab = F.interpolate(fake_ab * 110, size=(height, width), mode='bilinear', |
| | recompute_scale_factor=False, align_corners=False) |
| |
|
| | fake_img = torch.cat((img1_lab[:, :1, :, :], fake_ab), 1) |
| | fake_img = Lab2RGB_out(fake_img) |
| | |
| |
|
| | out_folder = os.path.dirname(img_path) |
| | out_name = os.path.basename(img_path) |
| | out_name = os.path.splitext(out_name)[0] |
| | out_img_path = os.path.join(out_folder, 'color', f'{out_name}_color.png') |
| |
|
| | |
| | Image.fromarray(fake_img).show() |
| | |
| | folder_path = os.path.join(out_folder, 'color') |
| | if not os.path.exists(folder_path): |
| | os.mkdir(folder_path) |
| | io.imsave(out_img_path, fake_img) |
| |
|
| | continue |
| |
|
| |
|
| |
|
| | |
| | panel_extractor = PanelExtractor(min_pct_panel=5, max_pct_panel=90) |
| | panels, masks, panel_masks = panel_extractor.extract(img_path) |
| | panel_num = len(panels) |
| |
|
| | ref_img_paths = [] |
| | |
| | print("Please enter the name of the reference image in order according to the number prompts on the picture") |
| | for i in range(panel_num): |
| | ref_img_path = os.path.join(test_dir_path, input(f"{i+1}/{panel_num} reference image:")) |
| | ref_img_paths.append(ref_img_path) |
| |
|
| |
|
| |
|
| |
|
| | fake_imgs = [] |
| | for i in range(panel_num): |
| | img1 = Image.fromarray(panels[i]).convert("RGB") |
| | width, height = img1.size |
| | img2 = Image.open(ref_img_paths[i]).convert("RGB") |
| |
|
| | |
| | |
| | |
| |
|
| | img1, img1_lab = preprocessing(img1) |
| | img2, img2_lab = preprocessing(img2) |
| |
|
| | img1 = img1.to(device) |
| | img1_lab = img1_lab.to(device) |
| | img2 = img2.to(device) |
| | img2_lab = img2_lab.to(device) |
| |
|
| | |
| |
|
| | with torch.no_grad(): |
| | img2_resize = F.interpolate(img2 / 255., size=(imgsize, imgsize), mode='bilinear', recompute_scale_factor=False, align_corners=False) |
| | img1_L_resize = F.interpolate(img1_lab[:,:1,:,:] / 50., size=(imgsize, imgsize), mode='bilinear', recompute_scale_factor=False, align_corners=False) |
| |
|
| | color_vector = colorEncoder(img2_resize) |
| |
|
| | fake_ab = colorUNet((img1_L_resize, color_vector)) |
| | fake_ab = F.interpolate(fake_ab*110, size=(height, width), mode='bilinear', recompute_scale_factor=False, align_corners=False) |
| |
|
| | fake_img = torch.cat((img1_lab[:,:1,:,:], fake_ab), 1) |
| | fake_img = Lab2RGB_out(fake_img) |
| | |
| | fake_imgs.append(fake_img) |
| |
|
| | if panel_num == 1: |
| | out_folder = os.path.dirname(img_path) |
| | out_name = os.path.basename(img_path) |
| | out_name = os.path.splitext(out_name)[0] |
| | out_img_path = os.path.join(out_folder,'color',f'{out_name}_color.png') |
| |
|
| | |
| | Image.fromarray(fake_imgs[0]).show() |
| | |
| | folder_path = os.path.join(out_folder, 'color') |
| | if not os.path.exists(folder_path): |
| | os.mkdir(folder_path) |
| | io.imsave(out_img_path, fake_imgs[0]) |
| | else: |
| | panel_extractor.concatPanels(img_path, fake_imgs, masks, panel_masks) |
| |
|
| | print(f'colored image has been put to: {test_dir_path}color') |
| |
|
| |
|
