import os from PIL import Image from ..config.cnn_config import * _scenes_names_prefix = '_scenes_names' _scenes_indices_prefix = '_scenes_indices' # store all variables from current module context context_vars = vars() def get_renderer_scenes_indices(renderer_name): if renderer_name not in renderer_choices: raise ValueError("Unknown renderer name") if renderer_name == 'all': return scenes_indices else: return context_vars[renderer_name + _scenes_indices_prefix] def get_renderer_scenes_names(renderer_name): if renderer_name not in renderer_choices: raise ValueError("Unknown renderer name") if renderer_name == 'all': return scenes_names else: return context_vars[renderer_name + _scenes_names_prefix] def get_scene_image_quality(img_path): img_postfix = img_path.split('/')[-1].split(scene_image_quality_separator)[-1] img_quality = img_postfix.replace(scene_image_extension, '') return img_quality def augmented_data_image(block, output_folder, prefix_image_name): rotations = [0, 90, 180, 270] img_flip_labels = ['original', 'horizontal', 'vertical', 'both'] horizontal_img = block.transpose(Image.FLIP_LEFT_RIGHT) vertical_img = block.transpose(Image.FLIP_TOP_BOTTOM) both_img = block.transpose(Image.TRANSPOSE) flip_images = [block, horizontal_img, vertical_img, both_img] # rotate and flip image to increase dataset size for id, flip in enumerate(flip_images): for rotation in rotations: rotated_output_img = flip.rotate(rotation) output_reconstructed_filename = prefix_image_name + post_image_name_separator output_reconstructed_filename = output_reconstructed_filename + img_flip_labels[id] + '_' + str(rotation) + '.png' output_reconstructed_path = os.path.join(output_folder, output_reconstructed_filename) if not os.path.exists(output_reconstructed_path): rotated_output_img.save(output_reconstructed_path)