from __future__ import annotations from pathlib import Path from typing import Literal import numpy as np import PIL.Image from gradio import processing_utils PIL.Image.init() # fixes https://github.com/gradio-app/gradio/issues/2843 (remove when requiring Pillow 9.4+) def format_image( im: PIL.Image.Image | None, type: Literal["numpy", "pil", "filepath"], cache_dir: str, name: str = "image", format: str = "webp", ) -> np.ndarray | PIL.Image.Image | str | None: """Helper method to format an image based on self.type""" if im is None: return im if type == "pil": return im elif type == "numpy": return np.array(im) elif type == "filepath": try: path = processing_utils.save_pil_to_cache( im, cache_dir=cache_dir, name=name, format=format ) # Catch error if format is not supported by PIL except (KeyError, ValueError): path = processing_utils.save_pil_to_cache( im, cache_dir=cache_dir, name=name, format="png", # type: ignore ) return path else: raise ValueError( "Unknown type: " + str(type) + ". Please choose from: 'numpy', 'pil', 'filepath'." ) def save_image( y: np.ndarray | PIL.Image.Image | str | Path, cache_dir: str, format: str = "webp" ): if isinstance(y, np.ndarray): path = processing_utils.save_img_array_to_cache( y, cache_dir=cache_dir, format=format ) elif isinstance(y, PIL.Image.Image): try: path = processing_utils.save_pil_to_cache( y, cache_dir=cache_dir, format=format ) # Catch error if format is not supported by PIL except (KeyError, ValueError): path = processing_utils.save_pil_to_cache( y, cache_dir=cache_dir, format="png" ) elif isinstance(y, Path): path = str(y) elif isinstance(y, str): path = y else: raise ValueError( "Cannot process this value as an Image, it is of type: " + str(type(y)) ) return path def crop_scale(img: PIL.Image.Image, final_width: int, final_height: int): original_width, original_height = img.size target_aspect_ratio = final_width / final_height if original_width / original_height > target_aspect_ratio: crop_height = original_height crop_width = crop_height * target_aspect_ratio else: crop_width = original_width crop_height = crop_width / target_aspect_ratio left = (original_width - crop_width) / 2 top = (original_height - crop_height) / 2 img_cropped = img.crop( (int(left), int(top), int(left + crop_width), int(top + crop_height)) ) img_resized = img_cropped.resize((final_width, final_height)) return img_resized