| import torch | |
| import torch.nn as nn | |
| import torch.optim as optim | |
| import numpy as np | |
| import albumentations as albu | |
| import argparse | |
| import datetime | |
| from utils.utils import open_json, weights_init, weights_init_spectr, generate_mask | |
| from model.models import Colorizer, Generator, Content, Discriminator | |
| from model.extractor import get_seresnext_extractor | |
| from dataset.datasets import TrainDataset, FineTuningDataset | |
| def parse_args(): | |
| parser = argparse.ArgumentParser() | |
| parser.add_argument("-p", "--path", required=True, help = "dataset path") | |
| parser.add_argument('-ft', '--fine_tuning', dest = 'fine_tuning', action = 'store_true') | |
| parser.add_argument('-g', '--gpu', dest = 'gpu', action = 'store_true') | |
| parser.set_defaults(fine_tuning = False) | |
| parser.set_defaults(gpu = False) | |
| args = parser.parse_args() | |
| return args | |
| def get_transforms(): | |
| return albu.Compose([albu.RandomCrop(512, 512, always_apply = True), albu.HorizontalFlip(p = 0.5)], p = 1.) | |
| def get_dataloaders(data_path, transforms, batch_size, fine_tuning, mult_number): | |
| train_dataset = TrainDataset(data_path, transforms, mult_number) | |
| train_dataloader = torch.utils.data.DataLoader(train_dataset, batch_size = batch_size, shuffle = True) | |
| if fine_tuning: | |
| finetuning_dataset = FineTuningDataset(data_path, transforms) | |
| finetuning_dataloader = torch.utils.data.DataLoader(finetuning_dataset, batch_size = batch_size, shuffle = True) | |
| return train_dataloader, finetuning_dataloader | |
| def get_models(device): | |
| generator = Generator() | |
| extractor = get_seresnext_extractor() | |
| colorizer = Colorizer(generator, extractor) | |
| colorizer.extractor_eval() | |
| colorizer = colorizer.to(device) | |
| discriminator = Discriminator().to(device) | |
| content = Content('model/vgg16-397923af.pth').eval().to(device) | |
| for param in content.parameters(): | |
| param.requires_grad = False | |
| return colorizer, discriminator, content | |
| def set_weights(colorizer, discriminator): | |
| colorizer.generator.apply(weights_init) | |
| colorizer.load_extractor_weights(torch.load('model/extractor.pth')) | |
| discriminator.apply(weights_init_spectr) | |
| def generator_loss(disc_output, true_labels, main_output, guide_output, real_image, content_gen, content_true, dist_loss = nn.L1Loss(), content_dist_loss = nn.MSELoss(), class_loss = nn.BCEWithLogitsLoss()): | |
| sim_loss_full = dist_loss(main_output, real_image) | |
| sim_loss_guide = dist_loss(guide_output, real_image) | |
| adv_loss = class_loss(disc_output, true_labels) | |
| content_loss = content_dist_loss(content_gen, content_true) | |
| sum_loss = 10 * (sim_loss_full + 0.9 * sim_loss_guide) + adv_loss + content_loss | |
| return sum_loss | |
| def get_optimizers(colorizer, discriminator, generator_lr, discriminator_lr): | |
| optimizerG = optim.Adam(colorizer.generator.parameters(), lr = generator_lr, betas=(0.5, 0.9)) | |
| optimizerD = optim.Adam(discriminator.parameters(), lr = discriminator_lr, betas=(0.5, 0.9)) | |
| return optimizerG, optimizerD | |
| def generator_step(inputs, colorizer, discriminator, content, loss_function, optimizer, device, white_penalty = True): | |
| for p in discriminator.parameters(): | |
| p.requires_grad = False | |
| for p in colorizer.generator.parameters(): | |
| p.requires_grad = True | |
| colorizer.generator.zero_grad() | |
| bw, color, hint, dfm = inputs | |
| bw, color, hint, dfm = bw.to(device), color.to(device), hint.to(device), dfm.to(device) | |
| fake, guide = colorizer(torch.cat([bw, dfm, hint], 1)) | |
| logits_fake = discriminator(fake) | |
| y_real = torch.ones((bw.size(0), 1), device = device) | |
| content_fake = content(fake) | |
| with torch.no_grad(): | |
| content_true = content(color) | |
| generator_loss = loss_function(logits_fake, y_real, fake, guide, color, content_fake, content_true) | |
| if white_penalty: | |
| mask = (~((color > 0.85).float().sum(dim = 1) == 3).unsqueeze(1).repeat((1, 3, 1, 1 ))).float() | |
| white_zones = mask * (fake + 1) / 2 | |
| white_penalty = (torch.pow(white_zones.sum(dim = 1), 2).sum(dim = (1, 2)) / (mask.sum(dim = (1, 2, 3)) + 1)).mean() | |
| generator_loss += white_penalty | |
| generator_loss.backward() | |
| optimizer.step() | |
| return generator_loss.item() | |
| def discriminator_step(inputs, colorizer, discriminator, optimizer, device, loss_function = nn.BCEWithLogitsLoss()): | |
| for p in discriminator.parameters(): | |
| p.requires_grad = True | |
| for p in colorizer.generator.parameters(): | |
| p.requires_grad = False | |
| discriminator.zero_grad() | |
| bw, color, hint, dfm = inputs | |
| bw, color, hint, dfm = bw.to(device), color.to(device), hint.to(device), dfm.to(device) | |
| y_real = torch.full((bw.size(0), 1), 0.9, device = device) | |
| y_fake = torch.zeros((bw.size(0), 1), device = device) | |
| with torch.no_grad(): | |
| fake_color, _ = colorizer(torch.cat([bw, dfm, hint], 1)) | |
| fake_color.detach() | |
| logits_fake = discriminator(fake_color) | |
| logits_real = discriminator(color) | |
| fake_loss = loss_function(logits_fake, y_fake) | |
| real_loss = loss_function(logits_real, y_real) | |
| discriminator_loss = real_loss + fake_loss | |
| discriminator_loss.backward() | |
| optimizer.step() | |
| return discriminator_loss.item() | |
| def decrease_lr(optimizer, rate): | |
| for group in optimizer.param_groups: | |
| group['lr'] /= rate | |
| def set_lr(optimizer, value): | |
| for group in optimizer.param_groups: | |
| group['lr'] = value | |
| def train(colorizer, discriminator, content, dataloader, epochs, colorizer_optimizer, discriminator_optimizer, lr_decay_epoch = -1, device = 'cpu'): | |
| colorizer.generator.train() | |
| discriminator.train() | |
| disc_step = True | |
| for epoch in range(epochs): | |
| if (epoch == lr_decay_epoch): | |
| decrease_lr(colorizer_optimizer, 10) | |
| decrease_lr(discriminator_optimizer, 10) | |
| sum_disc_loss = 0 | |
| sum_gen_loss = 0 | |
| for n, inputs in enumerate(dataloader): | |
| if n % 5 == 0: | |
| print(datetime.datetime.now().time()) | |
| print('Step : %d Discr loss: %.4f Gen loss : %.4f \n'%(n, sum_disc_loss / (n // 2 + 1), sum_gen_loss / (n // 2 + 1))) | |
| if disc_step: | |
| step_loss = discriminator_step(inputs, colorizer, discriminator, discriminator_optimizer, device) | |
| sum_disc_loss += step_loss | |
| else: | |
| step_loss = generator_step(inputs, colorizer, discriminator, content, generator_loss, colorizer_optimizer, device) | |
| sum_gen_loss += step_loss | |
| disc_step = disc_step ^ True | |
| print(datetime.datetime.now().time()) | |
| print('Epoch : %d Discr loss: %.4f Gen loss : %.4f \n'%(epoch, sum_disc_loss / (n // 2 + 1), sum_gen_loss / (n // 2 + 1))) | |
| def fine_tuning_step(data_iter, colorizer, discriminator, gen_optimizer, disc_optimizer, device, loss_function = nn.BCEWithLogitsLoss()): | |
| for p in discriminator.parameters(): | |
| p.requires_grad = True | |
| for p in colorizer.generator.parameters(): | |
| p.requires_grad = False | |
| for cur_disc_step in range(5): | |
| discriminator.zero_grad() | |
| bw, dfm, color_for_real = next(data_iter) | |
| bw, dfm, color_for_real = bw.to(device), dfm.to(device), color_for_real.to(device) | |
| y_real = torch.full((bw.size(0), 1), 0.9, device = device) | |
| y_fake = torch.zeros((bw.size(0), 1), device = device) | |
| empty_hint = torch.zeros(bw.shape[0], 4, bw.shape[2] , bw.shape[3] ).float().to(device) | |
| with torch.no_grad(): | |
| fake_color_manga, _ = colorizer(torch.cat([bw, dfm, empty_hint ], 1)) | |
| fake_color_manga.detach() | |
| logits_fake = discriminator(fake_color_manga) | |
| logits_real = discriminator(color_for_real) | |
| fake_loss = loss_function(logits_fake, y_fake) | |
| real_loss = loss_function(logits_real, y_real) | |
| discriminator_loss = real_loss + fake_loss | |
| discriminator_loss.backward() | |
| disc_optimizer.step() | |
| for p in discriminator.parameters(): | |
| p.requires_grad = False | |
| for p in colorizer.generator.parameters(): | |
| p.requires_grad = True | |
| colorizer.generator.zero_grad() | |
| bw, dfm, _ = next(data_iter) | |
| bw, dfm = bw.to(device), dfm.to(device) | |
| y_real = torch.ones((bw.size(0), 1), device = device) | |
| empty_hint = torch.zeros(bw.shape[0], 4, bw.shape[2] , bw.shape[3]).float().to(device) | |
| fake_manga, _ = colorizer(torch.cat([bw, dfm, empty_hint], 1)) | |
| logits_fake = discriminator(fake_manga) | |
| adv_loss = loss_function(logits_fake, y_real) | |
| generator_loss = adv_loss | |
| generator_loss.backward() | |
| gen_optimizer.step() | |
| def fine_tuning(colorizer, discriminator, content, dataloader, iterations, colorizer_optimizer, discriminator_optimizer, data_iter, device = 'cpu'): | |
| colorizer.generator.train() | |
| discriminator.train() | |
| disc_step = True | |
| for n, inputs in enumerate(dataloader): | |
| if n == iterations: | |
| return | |
| if disc_step: | |
| discriminator_step(inputs, colorizer, discriminator, discriminator_optimizer, device) | |
| else: | |
| generator_step(inputs, colorizer, discriminator, content, generator_loss, colorizer_optimizer, device) | |
| disc_step = disc_step ^ True | |
| if n % 10 == 5: | |
| fine_tuning_step(data_iter, colorizer, discriminator, colorizer_optimizer, discriminator_optimizer, device) | |
| if __name__ == '__main__': | |
| args = parse_args() | |
| config = open_json('configs/train_config.json') | |
| if args.gpu: | |
| device = 'cuda' | |
| else: | |
| device = 'cpu' | |
| augmentations = get_transforms() | |
| train_dataloader, ft_dataloader = get_dataloaders(args.path, augmentations, config['batch_size'], args.fine_tuning, config['number_of_mults']) | |
| colorizer, discriminator, content = get_models(device) | |
| set_weights(colorizer, discriminator) | |
| gen_optimizer, disc_optimizer = get_optimizers(colorizer, discriminator, config['generator_lr'], config['discriminator_lr']) | |
| train(colorizer, discriminator, content, train_dataloader, config['epochs'], gen_optimizer, disc_optimizer, config['lr_decrease_epoch'], device) | |
| if args.fine_tuning: | |
| set_lr(gen_optimizer, config["finetuning_generator_lr"]) | |
| fine_tuning(colorizer, discriminator, content, train_dataloader, config['finetuning_iterations'], gen_optimizer, disc_optimizer, iter(ft_dataloader), device) | |
| torch.save(colorizer.generator.state_dict(), str(datetime.datetime.now().time())) |