def __getitem__(self, index): normal_path, img_list, dirs = self._getInputPath(index) normal = imread(normal_path).astype(np.float32) / 255.0 * 2 - 1 imgs = [] for i in img_list: img = imread(i).astype(np.float32) / 255.0 imgs.append(img) img = np.concatenate(imgs, 2) h, w, c = img.shape crop_h, crop_w = self.args.crop_h, self.args.crop_w if self.args.rescale and not (crop_h == h): sc_h = np.random.randint( crop_h, h) if self.args.rand_sc else self.args.scale_h sc_w = np.random.randint( crop_w, w) if self.args.rand_sc else self.args.scale_w img, normal = pms_transforms.rescale(img, normal, [sc_h, sc_w]) if self.args.crop: img, normal = pms_transforms.randomCrop(img, normal, [crop_h, crop_w]) if self.args.color_aug: img = img * np.random.uniform(1, self.args.color_ratio) if self.args.int_aug: ints = pms_transforms.getIntensity(len(imgs)) img = np.dot(img, np.diag(ints.reshape(-1))) else: ints = np.ones(c) if self.args.noise_aug: img = pms_transforms.randomNoiseAug(img, self.args.noise) mask = pms_transforms.normalToMask(normal) normal = normal * mask.repeat(3, 2) norm = np.sqrt((normal * normal).sum(2, keepdims=True)) normal = normal / (norm + 1e-10) # Rescale normal to unit length item = {'normal': normal, 'img': img, 'mask': mask} for k in item.keys(): item[k] = pms_transforms.arrayToTensor(item[k]) item['dirs'] = torch.from_numpy(dirs).view(-1, 1, 1).float() item['ints'] = torch.from_numpy(ints).view(-1, 1, 1).float() # normal : torch.Size([3, 128, 128]) # img : torch.Size([6, 128, 128]) # mask : torch.Size([1, 128, 128]) # dirs : torch.Size([6, 1, 1]) # ints : torch.Size([6, 1, 1]) return item
def __getitem__(self, index): normal_path, img_list, lights = self._getInputPath(index) normal = imread(normal_path).astype(np.float32) / 255.0 * 2 - 1 imgs = [] shadows = [] for i in img_list: img = imread(i).astype(np.float32) / 255.0 if self.args.shadow: s = imread(i.replace('/l_', '/s_')).astype(np.float32) / 255.0 shadows.append(s[:, :, 0:1]) imgs.append(img) img = np.concatenate(imgs, 2) shadows = np.concatenate(shadows, 2) img = np.concatenate([img, shadows], 2) h, w, c = img.shape crop_h, crop_w = self.args.crop_h, self.args.crop_w if self.args.rescale: sc_h = np.random.randint(crop_h, h) sc_w = np.random.randint(crop_w, w) img, normal = pms_transforms.rescale(img, normal, [sc_h, sc_w]) if self.args.crop: img, normal = pms_transforms.randomCrop(img, normal, [crop_h, crop_w]) if self.args.shadow: shadow = np.empty_like(img[:, :, 96:]) shadow[:] = img[:, :, 96:] if self.args.color_aug: img = (img * np.random.uniform(1, 3)).clip(0, 2) if self.args.noise_aug: img = pms_transforms.randomNoiseAug(img, self.args.noise) mask = pms_transforms.normalToMask(normal) normal = normal * mask.repeat(3, 2) item = {'N': normal, 'img': img, 'mask': mask} for k in item.keys(): item[k] = pms_transforms.arrayToTensor(item[k]) if self.args.in_light: item['light'] = torch.from_numpy(lights).view(-1, 1, 1).float() if self.args.shadow: item['shadow'] = shadow return item
def __getitem__(self, index): normal_path, img_list, lights = self._getInputPath(index) normal = imread(normal_path).astype(np.float32) / 255.0 * 2 - 1 imgs = [] for i in img_list: img = imread(i).astype(np.float32) / 255.0 imgs.append(img) img = np.concatenate(imgs, 2) h, w, c = img.shape crop_h, crop_w = self.args.crop_h, self.args.crop_w if self.args.rescale: sc_h = np.random.randint(crop_h, h) sc_w = np.random.randint(crop_w, w) img, normal = pms_transforms.rescale(img, normal, [sc_h, sc_w]) if self.args.crop: img, normal = pms_transforms.randomCrop(img, normal, [crop_h, crop_w]) if self.args.color_aug and not self.args.normalize: img = (img * np.random.uniform(1, 3)).clip(0, 2) if self.args.normalize: imgs = np.split(img, img.shape[2] // 3, 2) imgs = pms_transforms.normalize(imgs) img = np.concatenate(imgs, 2) if self.args.noise_aug: img = pms_transforms.randomNoiseAug(img, self.args.noise) mask = pms_transforms.normalToMask(normal) normal = normal * mask.repeat(3, 2) norm = np.sqrt((normal * normal).sum(2, keepdims=True)) normal = normal / (norm + 1e-10) item = {'N': normal, 'img': img, 'mask': mask} for k in item.keys(): item[k] = pms_transforms.arrayToTensor(item[k]) if self.args.in_light: item['light'] = torch.from_numpy(lights).view(-1, 1, 1).float() return item