import base64 import cv2 import numpy as np import open_clip from PIL import Image from tqdm import tqdm from .iimage import IImage def tokenize(prompt): tokens = open_clip.tokenize(prompt)[0] return [open_clip.tokenizer._tokenizer.decoder[x.item()] for x in tokens] def poisson_blend( orig_img: np.ndarray, fake_img: np.ndarray, mask: np.ndarray, pad_width: int = 32, dilation: int = 48 ) -> np.ndarray: """Does poisson blending with some tricks. Args: orig_img (np.ndarray): Original image. fake_img (np.ndarray): Generated fake image to blend. mask (np.ndarray): Binary 0-1 mask to use for blending. pad_width (np.ndarray): Amount of padding to add before blending (useful to avoid some issues). dilation (np.ndarray): Amount of dilation to add to the mask before blending (useful to avoid some issues). Returns: np.ndarray: Blended image. """ mask = mask[:, :, 0] padding_config = ((pad_width, pad_width), (pad_width, pad_width), (0, 0)) padded_fake_img = np.pad(fake_img, pad_width=padding_config, mode="reflect") padded_orig_img = np.pad(orig_img, pad_width=padding_config, mode="reflect") padded_orig_img[:pad_width, :, :] = padded_fake_img[:pad_width, :, :] padded_orig_img[:, :pad_width, :] = padded_fake_img[:, :pad_width, :] padded_orig_img[-pad_width:, :, :] = padded_fake_img[-pad_width:, :, :] padded_orig_img[:, -pad_width:, :] = padded_fake_img[:, -pad_width:, :] padded_mask = np.pad(mask, pad_width=padding_config[:2], mode="constant") padded_dmask = cv2.dilate(padded_mask, np.ones((dilation, dilation), np.uint8), iterations=1) x_min, y_min, rect_w, rect_h = cv2.boundingRect(padded_dmask) center = (x_min + rect_w // 2, y_min + rect_h // 2) output = cv2.seamlessClone(padded_fake_img, padded_orig_img, padded_dmask, center, cv2.NORMAL_CLONE) output = output[pad_width:-pad_width, pad_width:-pad_width] return output def image_from_url_text(filedata): if filedata is None: return None if type(filedata) == list and filedata and type(filedata[0]) == dict and filedata[0].get("is_file", False): filedata = filedata[0] if type(filedata) == dict and filedata.get("is_file", False): filename = filedata["name"] filename = filename.rsplit('?', 1)[0] return Image.open(filename) if type(filedata) == list: if len(filedata) == 0: return None filedata = filedata[0] if filedata.startswith("data:image/png;base64,"): filedata = filedata[len("data:image/png;base64,"):] filedata = base64.decodebytes(filedata.encode('utf-8')) image = Image.open(io.BytesIO(filedata)) return image