import os import numpy as np from Config import ReadConfig from datetime import datetime work_dir = "/public/home/fangyuedong/test/CSST/test/" data_dir = "/data/simudata/CSSOSDataProductsSims/data/" config_file = os.path.join(work_dir, "ObservationSim.cfg") config = ReadConfig(config_file) exp_time = float(config['exp_time']) # Read Pointing list pointing_file = os.path.join(data_dir, "pointing10_20210202.dat") f = open(pointing_file, 'r') for _ in range(1): header = f.readline() iline = 0 pRA = [] pDEC = [] for line in f: line = line.strip() columns = line.split() pRA.append(float(columns[0])) pDEC.append(float(columns[1])) f.close() pRA = np.array(pRA) pDEC = np.array(pDEC) # Create calibration pointings ncal = 1 # Define the number of calibration pointings pointing_type = ['MS']*len(pRA) pRA = np.append(pRA[:ncal], pRA) pDEC = np.append(pDEC[:ncal], pDEC) pointing_type = ['CAL']*ncal + pointing_type # Calculate starting time(s) t0 = datetime(2021, 5, 25, 12, 0, 0) t = datetime.timestamp(t0) timestamp_obs = [] delta_t = 10 # Time elapsed between exposures (minutes) for i in range(len(pointing_type)): timestamp_obs.append(t) if pointing_type[i] == 'CAL': t += 3 * delta_t * 60 # 3 calibration exposure elif pointing_type[i] == 'MS': t += delta_t * 60 timestamp_obs = np.array(timestamp_obs) pointing_type = np.array(pointing_type) # Define the range of pointing list # pRange = range(0, 2) pRange = [1, 22]