import numpy as np import scipy.ndimage as nd import logging import random # DO NOT IMPORT CPICIMGSIM MODULES HERE class Logger(object): def __init__(self, filename, level='INFO'): self.logger = logging.getLogger('cpism_log') self.logger.setLevel(logging.DEBUG) shinfo = logging.StreamHandler() onlyinfo = logging.Filter() onlyinfo.filter = lambda record: (record.levelno < logging.WARNING) fmtstr = '%(message)s' shinfo.setFormatter(logging.Formatter(fmtstr)) # 设置屏幕上显示的格式 shinfo.setLevel(logging.INFO) shinfo.addFilter(onlyinfo) sh = logging.StreamHandler() fmtstr = '!%(levelname)s!: %(message)s [%(filename)s - %(funcName)s (line: %(lineno)d)]: ' sh.setFormatter(logging.Formatter(fmtstr)) # 设置屏幕上显示的格式 sh.setLevel(logging.WARNING) th = logging.FileHandler(filename) # 往文件里写入#指定间隔时间自动生成文件的处理器 fmtstr = '%(asctime)s %(filename)s [%(funcName)s] - %(levelname)s: %(message)s' th.setFormatter(logging.Formatter(fmtstr)) # 设置文件里写入的格式 th.setLevel(logging.__dict__.get(level.upper())) self.logger.addHandler(shinfo) self.logger.addHandler(sh) self.logger.addHandler(th) def random_seed_select(seed=-1): """ Select a random seed for numpy.random and return it. """ if seed == -1: seed = random.randint(0, 2**32-1) np.random.seed(seed) return seed def region_replace( background: np.ndarray, front: np.ndarray, shift: list, bmask: float = 1.0, fmask: float = 1.0, padded_in: bool = False, padded_out: bool = False, subpix: bool = False ): """ replace a region of the background with the front image. Parameters ---------- background: np.ndarray The background image. front: np.ndarray The front image. shift: list The [x, y] shift of the front image. Unit: pixel. Relative to the lower-left corner of the background image. [0, 0] means the lower-left corner of the front image is at the lower-left corner of the background image. bmask: float The mask of the background image. Default: 1.0 0.0 means the background image is masked. 1.0 means the background image is fully added. fmask: float The mask of the front image. Default: 1.0 0.0 means the front image is masked (not added). 1.0 means the front image is fully added. padded_in: bool Whether the input background image is padded. Default: False In the function, the background image is padded by the size of the front image. If True, means the background image is padded. padded_out: bool Whether the output image is padded. Default: False In the function, the background image is padded by the size of the front image. If True, means the output image is padded. padded_in and padded_out are designed for the case that replace_region fuction is called multiple times. subpix: bool Whether the shift is subpixel. Default: False If True, the shift is subpixel, using scipy.ndimage.shift to shift the front image. If False, the shift is integer, using numpy slicing to shift the front image. Returns ------- np.ndarray The output image. shape = background.shape if padded_out = False shape = background.shape + 2 * front.shape if padded_out = True """ int_shift = np.array(shift).astype(int) b_sz = np.array(background.shape) f_sz = np.array(front.shape) if padded_in: padded = background b_sz = b_sz - f_sz * 2 else: padded = np.pad(background, ((f_sz[0], f_sz[0]), (f_sz[1], f_sz[1]))) if np.any((int_shift < -b_sz) | (int_shift > b_sz)): if padded_out: return padded return background if subpix: subs = np.array(shift) - int_shift front = nd.shift(front, (subs[0], subs[1])) int_shift += f_sz roi_y = int_shift[1] roi_x = int_shift[0] padded[roi_y: roi_y+f_sz[0], roi_x:roi_x+f_sz[1]] *= bmask padded[roi_y: roi_y+f_sz[0], roi_x:roi_x+f_sz[1]] += fmask * front if padded_out: return padded return padded[f_sz[0]:b_sz[0]+f_sz[0], f_sz[1]:b_sz[1]+f_sz[1]]