from math import ceil, floor, sqrt from PIL import Image class InitImageResizer: """Simple class to create resized copies of an Image while preserving the aspect ratio.""" def __init__(self, Image): self.image = Image def resize(self, width=None, height=None) -> Image: """ Return a copy of the image resized to fit within a box width x height. The aspect ratio is maintained. If neither width nor height are provided, then returns a copy of the original image. If one or the other is provided, then the other will be calculated from the aspect ratio. Everything is floored to the nearest multiple of 64 so that it can be passed to img2img() """ im = self.image ar = im.width / float(im.height) # Infer missing values from aspect ratio if not (width or height): # both missing width = im.width height = im.height elif not height: # height missing height = int(width / ar) elif not width: # width missing width = int(height * ar) w_scale = width / im.width h_scale = height / im.height scale = min(w_scale, h_scale) (rw, rh) = (int(scale * im.width), int(scale * im.height)) # round everything to multiples of 64 width, height, rw, rh = map(lambda x: x - x % 64, (width, height, rw, rh)) # no resize necessary, but return a copy if im.width == width and im.height == height: return im.copy() # otherwise resize the original image so that it fits inside the bounding box resized_image = self.image.resize((rw, rh), resample=Image.Resampling.LANCZOS) return resized_image def make_grid(image_list, rows=None, cols=None): image_cnt = len(image_list) if None in (rows, cols): rows = floor(sqrt(image_cnt)) # try to make it square cols = ceil(image_cnt / rows) width = image_list[0].width height = image_list[0].height grid_img = Image.new("RGB", (width * cols, height * rows)) i = 0 for r in range(0, rows): for c in range(0, cols): if i >= len(image_list): break grid_img.paste(image_list[i], (c * width, r * height)) i = i + 1 return grid_img