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ohayo_face_style / data /aligned_dataset.py

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	import os.path
	from data.base_dataset import BaseDataset, get_params, get_transform, normalize
	from data.image_folder import make_dataset
	from PIL import Image

	class AlignedDataset(BaseDataset):
	def initialize(self, opt):
	self.opt = opt
	self.root = opt.dataroot

	### input A (label maps)
	dir_A = '_A' if self.opt.label_nc == 0 else '_label'
	self.dir_A = os.path.join(opt.dataroot, opt.phase + dir_A)
	self.A_paths = sorted(make_dataset(self.dir_A))

	### input B (real images)
	if opt.isTrain or opt.use_encoded_image:
	dir_B = '_B' if self.opt.label_nc == 0 else '_img'
	self.dir_B = os.path.join(opt.dataroot, opt.phase + dir_B)
	self.B_paths = sorted(make_dataset(self.dir_B))

	### instance maps
	if not opt.no_instance:
	self.dir_inst = os.path.join(opt.dataroot, opt.phase + '_inst')
	self.inst_paths = sorted(make_dataset(self.dir_inst))

	### load precomputed instance-wise encoded features
	if opt.load_features:
	self.dir_feat = os.path.join(opt.dataroot, opt.phase + '_feat')
	print('----------- loading features from %s ----------' % self.dir_feat)
	self.feat_paths = sorted(make_dataset(self.dir_feat))

	self.dataset_size = len(self.A_paths)

	def __getitem__(self, index):
	### input A (label maps)
	A_path = self.A_paths[index]
	A = Image.open(A_path)
	params = get_params(self.opt, A.size)
	if self.opt.label_nc == 0:
	transform_A = get_transform(self.opt, params)
	A_tensor = transform_A(A.convert('RGB'))
	else:
	transform_A = get_transform(self.opt, params, method=Image.NEAREST, normalize=False)
	A_tensor = transform_A(A) * 255.0

	B_tensor = inst_tensor = feat_tensor = 0
	### input B (real images)
	if self.opt.isTrain or self.opt.use_encoded_image:
	B_path = self.B_paths[index]
	B = Image.open(B_path).convert('RGB')
	transform_B = get_transform(self.opt, params)
	B_tensor = transform_B(B)

	### if using instance maps
	if not self.opt.no_instance:
	inst_path = self.inst_paths[index]
	inst = Image.open(inst_path)
	inst_tensor = transform_A(inst)

	if self.opt.load_features:
	feat_path = self.feat_paths[index]
	feat = Image.open(feat_path).convert('RGB')
	norm = normalize()
	feat_tensor = norm(transform_A(feat))

	input_dict = {'label': A_tensor, 'inst': inst_tensor, 'image': B_tensor,
	'feat': feat_tensor, 'path': A_path}

	return input_dict

	def __len__(self):
	return len(self.A_paths) // self.opt.batchSize * self.opt.batchSize

	def name(self):
	return 'AlignedDataset'