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JoJoGAN

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c2f174c over 2 years ago

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	import torch
	from torch import nn
	import torch.nn.functional as F

	from configs.paths_config import model_paths


	class MocoLoss(nn.Module):

	def __init__(self, opts):
	super(MocoLoss, self).__init__()
	print("Loading MOCO model from path: {}".format(model_paths["moco"]))
	self.model = self.__load_model()
	self.model.eval()
	for param in self.model.parameters():
	param.requires_grad = False

	@staticmethod
	def __load_model():
	import torchvision.models as models
	model = models.__dict__["resnet50"]()
	# freeze all layers but the last fc
	for name, param in model.named_parameters():
	if name not in ['fc.weight', 'fc.bias']:
	param.requires_grad = False
	checkpoint = torch.load(model_paths['moco'], map_location="cpu")
	state_dict = checkpoint['state_dict']
	# rename moco pre-trained keys
	for k in list(state_dict.keys()):
	# retain only encoder_q up to before the embedding layer
	if k.startswith('module.encoder_q') and not k.startswith('module.encoder_q.fc'):
	# remove prefix
	state_dict[k[len("module.encoder_q."):]] = state_dict[k]
	# delete renamed or unused k
	del state_dict[k]
	msg = model.load_state_dict(state_dict, strict=False)
	assert set(msg.missing_keys) == {"fc.weight", "fc.bias"}
	# remove output layer
	model = nn.Sequential(*list(model.children())[:-1]).cuda()
	return model

	def extract_feats(self, x):
	x = F.interpolate(x, size=224)
	x_feats = self.model(x)
	x_feats = nn.functional.normalize(x_feats, dim=1)
	x_feats = x_feats.squeeze()
	return x_feats

	def forward(self, y_hat, y, x):
	n_samples = x.shape[0]
	x_feats = self.extract_feats(x)
	y_feats = self.extract_feats(y)
	y_hat_feats = self.extract_feats(y_hat)
	y_feats = y_feats.detach()
	loss = 0
	sim_improvement = 0
	sim_logs = []
	count = 0
	for i in range(n_samples):
	diff_target = y_hat_feats[i].dot(y_feats[i])
	diff_input = y_hat_feats[i].dot(x_feats[i])
	diff_views = y_feats[i].dot(x_feats[i])
	sim_logs.append({'diff_target': float(diff_target),
	'diff_input': float(diff_input),
	'diff_views': float(diff_views)})
	loss += 1 - diff_target
	sim_diff = float(diff_target) - float(diff_views)
	sim_improvement += sim_diff
	count += 1

	return loss / count, sim_improvement / count, sim_logs