def __getitem__(self, index):
"""Return a data point and its metadata information.
Parameters:
index - - a random integer for data indexing
Returns a dictionary that contains A, B, A_paths and B_paths
A (tensor) - - an image in the input domain
B (tensor) - - its corresponding image in the target domain
A_paths (str) - - image paths
B_paths (str) - - image paths (same as A_paths)
"""
# read a image given a random integer index
AB_path = self.AB_paths[index]
AB = Image.open(AB_path).convert('RGB')
# split AB image into A and B
w, h = AB.size
w2 = int(w / 2)
A = AB.crop((0, 0, w2, h))
B = AB.crop((w2, 0, w, h))
# apply the same transform to both A and B
transform_params = get_params(self.opt, A.size)
A_transform = get_transform(self.opt,
transform_params,
grayscale=(self.input_nc == 1))
B_transform = get_transform(self.opt,
transform_params,
grayscale=(self.output_nc == 1))
A = A_transform(A)
B = B_transform(B)
return {'A': A, 'B': B, 'A_paths': AB_path, 'B_paths': AB_path}
def data_process(self, src_img, cat_embedding, style_idx):
# src img transform
src_img = src_img.convert("RGB")
transform_params = get_params(self.option, src_img.size)
img_transform = get_transform(self.option, transform_params, grayscale=False)
src_img = img_transform(src_img)
src_img = src_img.unsqueeze(0).cuda()
cat_lbl = style_idx
# cat_lbl = torch.tensor(style_idx).view(1,-1).cuda()
cat_embedding = cat_embedding.unsqueeze(0).cuda()
self.src_img = src_img
return {"B": src_img, "cls_label": cat_lbl, "cat_emb": cat_embedding}
def cls_process_imgs(self, imgs):
output_list = []
for im in imgs:
im = im.convert('RGB')
transform_params = get_params(self.option, im.size)
img_transform = get_transform(self.option, transform_params, grayscale=False)
im = img_transform(im)
im = im.unsqueeze(0).cuda()
output_list.append(im)
assert len(output_list) == len(imgs)
return output_list
def __getitem__(self, index):
"""Return a data point and its metadata information.
Parameters:
index - - a random integer for data indexing
Returns a dictionary that contains A, B, A_paths and B_paths
A (tensor) - - an image in the input domain
B (tensor) - - its corresponding image in the target domain
A_paths (str) - - image paths
B_paths (str) - - image paths (same as A_paths)
"""
# read a image given a random integer index
if self.opt.phase == 'train':
AB_path = self.train_split[index]
elif self.opt.phase == 'val':
AB_path = self.val_split[index]
# AB = Image.open(AB_path).convert('RGB')
# # split AB image into A and B
# w, h = AB.size
# w2 = int(w / 2)
# A = AB.crop((0, 0, w2, h))
# B = AB.crop((w2, 0, w, h))
A = self.img_dict[AB_path]
# import pdb; pdb.set_trace()
# apply the same transform to both A and B
transform_params = get_params(self.opt, A.size)
A_transform = get_transform(self.opt,
transform_params,
grayscale=(self.input_nc == 1))
# B_transform = get_transform(self.opt, transform_params, grayscale=(self.output_nc == 1))
A = A_transform(A)
# B = B_transform(B)
# return {'A': A, 'B': B, 'A_paths': AB_path, 'B_paths': AB_path}
# return {'A': A, 'B': B, 'A_paths': AB_path, 'B_paths': AB_path, 'cls_label': self.label_list[index]}
cls_label = self.cat_contiugous_ids[int(
os.path.basename(AB_path).strip().split('_')[0])]
return {'A': A, 'A_paths': AB_path, 'cls_label': cls_label}