415 lines
17 KiB
Python
415 lines
17 KiB
Python
# coding=gb2312
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import json
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import sys
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from Database.manager_database import *
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from Speaker.speak_base import SpeakServer, beep
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from UWB.positioning_standalone import *
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FINISH_LINE_SIZE1 = 0
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FINISH_LINE_SIZE2 = 1
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RUNNING_COUNTING = "cnt"
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RUNNING_STATUS = "stat"
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RUNNING_MES = "mes"
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STATUS_ACROSS = "across"
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STATUS_EXIT = "exit"
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RUNNING_LAST_STATUS_TIME = "lst"
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RUNNING_COST = "cost"
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RUNNING_DONE = 'done'
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PATH = sys.path[0]
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def score_compute(age, cost, score_data):
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my_age_index = 0
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for age_index in range(len(score_data["age"])):
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candidate_age = score_data["age"][age_index]
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if candidate_age[0] <= age <= candidate_age[1]:
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my_age_index = age_index
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break
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my_score_index = len(score_data["values"]) - 1
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for value_index in range(len(score_data["values"]) - 1, 0 - 1, -1):
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value = score_data["values"][value_index][my_age_index]
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if cost <= value[0] * 60 + value[1]:
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my_score_index = value_index
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else:
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break
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if cost > score_data["values"][-1][my_age_index][0] * 60 + score_data["values"][-1][my_age_index][1]:
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my_base_score = 0
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else:
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my_base_score = score_data["score"][my_score_index]
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if my_base_score == 100:
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value = score_data["values"][my_score_index][my_age_index]
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base_score = value[0] * 60 + value[1]
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my_score = my_base_score + (base_score - cost) // 5 * 1
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else:
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my_score = my_base_score
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return my_score
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class Running:
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def __init__(self, positioning: Positioning, round_num=3, min_round_time=30) -> None:
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self.min_round_time = float(min_round_time)
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self.round_num = int(round_num)
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self.positioning = positioning
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self.positioning_tag = None
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self.finish_line = {}
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# 起跑时间
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self.start_time = 0
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# 结束时间
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self.stop_time = 0
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# 跑步记录
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self.running_record = {}
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# 跑步流水记录
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self.running_record_list = {}
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# 跑步圈时记录
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self.round_record = {}
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# 记录手环
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self.test_tag = []
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# 手环对应人员信息
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self.person_mes = {}
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# 是否起跑状态
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self.__start_running = threading.Event()
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self.__start_running.clear()
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# 说话
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self.speak_driver = SpeakServer()
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self.speak_driver.start()
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# 成绩文件
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file = open(f"{PATH}/Exercise3/running_score.json")
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self.score_data = json.load(file)
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# 跑步记录数据
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self.final_data = {}
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# 是否播报
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self.is_play = False
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def set_play(self, is_play):
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self.is_play = is_play
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def update_and_play(self, tag, new_record):
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if self.is_play:
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this_record = self.running_record[tag]
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if this_record[RUNNING_COUNTING] != new_record[RUNNING_COUNTING]:
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person_name = self.person_mes[tag][NAME]
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person_id = self.person_mes[tag][ID]
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if new_record[RUNNING_DONE]:
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self.speak_driver.add_speak(f"{person_name}完成考试!")
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else:
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self.speak_driver.add_speak(f"{person_name}通过第{new_record[RUNNING_COUNTING]}圈!")
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self.running_record[tag] = new_record
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def set_config(self, round_num, min_round_time):
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self.min_round_time = float(min_round_time)
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self.round_num = int(round_num)
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def add_tag(self, tag):
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self.test_tag.append(tag)
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def del_tag(self, tag):
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self.test_tag.remove(tag)
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del self.person_mes[tag]
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def add_tag_mes(self, tag, mes):
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self.person_mes[tag] = mes
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def reset(self):
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self.test_tag.clear()
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self.person_mes.clear()
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def start(self):
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# 清除缓存
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self.__start_running.clear()
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self.round_record.clear()
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self.positioning.clear_information()
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self.positioning.resume()
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self.speak_driver.add_speak("准备开始考试,请就位,倒计时:")
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counting = 5
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for i in range(counting):
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start_time = time.time()
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self.speak_driver.add_speak(counting - i)
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while time.time() - start_time < 1:
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time.sleep(0.05)
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self.speak_driver.wait_4_speak()
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self.start_time = time.time()
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self.positioning.set_valid_time(self.start_time)
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duration = 700 # millisecond
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freq = 640 # Hz
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beep(freq, duration)
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self.__start_running.set()
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# 初始化记录
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self.running_record = {
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tag: {
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RUNNING_COUNTING: -1,
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RUNNING_STATUS: STATUS_EXIT,
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RUNNING_MES: "离开",
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RUNNING_COST: 0,
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RUNNING_DONE: False,
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}
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for tag in self.test_tag
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}
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# 启动计算线程
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threading.Thread(target=self._thread_running, daemon=True).start()
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threading.Thread(target=self._thread_processing, daemon=True).start()
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def kill(self):
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# 记录手环
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self.test_tag.clear()
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self.running_record_list.clear()
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self.__start_running.clear()
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def stop(self):
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# # 起跑时间
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self.stop_time = time.time()
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# self.start_time = 0
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self.kill()
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# 计算最终成绩
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self.final_data.clear()
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raw_score = self.get_score()
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for score in raw_score:
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band_id = score["band_id"]
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person_mes = self.person_mes[band_id]
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tag_mes = self.running_record[band_id]
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score.update(person_mes)
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score.update(tag_mes)
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person_id = score["id"]
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round_time = self.round_record.get(person_id)
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round_time_record = round_time if round_time else []
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score.update({"round_time": round_time_record})
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score.update({
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"fix": False, "final_result": round_time_record
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})
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self.final_data[person_id] = score
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# 获得当前所有成绩
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def get_all_score(self):
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return list(self.final_data.values())
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# 成绩修复
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def fix_score(self, person_id):
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if not self.final_data[person_id][RUNNING_DONE]:
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detected_round = len(self.final_data[person_id]["round_time"])
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lacked_round = self.round_num - detected_round + 1
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result = [
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self.final_data[person_id]["round_time"][i]
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for i in range(detected_round)
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]
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# 如果没有成绩,按最终完成时间去计算
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if len(result) <= 1:
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total_time = self.stop_time - self.start_time
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result = [total_time / (self.round_num + 1) for i in range(self.round_num + 1)]
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# 如果有成绩
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else:
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for _ in range(lacked_round):
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max_result = max(result)
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index = result.index(max_result)
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result = result[0:index:] + [max_result / 2, max_result / 2] + result[index + 1::]
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self.final_data[person_id]["final_result"] = {
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i: result[i] for i in range(len(result))
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}
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self.final_data[person_id]["fix"] = True
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self.final_data[person_id]["total_time"] = sum(result)
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# 修复撤销
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def fix_withdraw(self, person_id):
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self.final_data[person_id]["final_result"] = self.final_data[person_id]["round_time"]
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self.final_data[person_id]["fix"] = False
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def _thread_processing(self):
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while self.__start_running.is_set():
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data = self.positioning.get_last_information()
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try:
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# 过滤无效操作
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if data:
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# print(data)
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record_time, mes = data
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# print(self.start_time - record_time, len(self.positioning.tag_information))
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if record_time < self.start_time - 3:
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continue
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tag = mes[TAG]
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if tag not in self.test_tag:
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continue
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avg_distance = mes[DIST]
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avg_rssi = mes[RSSI]
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self.running_record_list.setdefault(tag, [])
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self.running_record_list[tag].append(
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{RECORD: record_time, DIST: avg_distance, RSSI: avg_rssi}
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)
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except Exception as e:
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traceback.format_exc()
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print(f"获取数据时发生错误:{e.args}")
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def _thread_running(self):
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# 提前开始检测时间
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bias = 3
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# 判定周期时间
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judge_window_time = 6
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detect_time_range = judge_window_time / 2
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# 有效进入距离
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effective_distance = 300
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effective_rssi = -80
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# 开始判定距离
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judge_distance = 700
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judge_rssi = -82
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while self.__start_running.is_set():
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this_time = time.time()
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for tag, record in self.running_record_list.copy().items():
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if tag not in self.test_tag or self.running_record[tag][RUNNING_DONE]:
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continue
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# 获取测试人员id
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person_id = self.person_mes[tag]["id"]
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sorted_record = sorted(record, key=lambda x: x[RECORD])
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this_tag = {
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RUNNING_COUNTING: -1,
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RUNNING_STATUS: STATUS_EXIT,
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RUNNING_MES: "离开",
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RUNNING_COST: 0,
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RUNNING_DONE: False
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}
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# Cache
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last_status_time = -1
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last_enter_time = self.start_time
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for one_record in sorted_record:
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try:
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record_time = one_record[RECORD]
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# 消除无效数据
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if record_time < self.start_time - bias or this_time - record_time < detect_time_range:
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continue
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distance = one_record[DIST]
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rssi = one_record[RSSI]
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# 更新时间窗口中的数据
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frontward_window = list(
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filter(
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lambda x: -detect_time_range <= record_time - x[RECORD] < 0,
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sorted_record
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)
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)
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# 冲线判定
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if (
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(
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# CASE1 未来没有减少的趋势
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len(frontward_window) == 0
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# 未来距离都比现在大
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or min([fw[DIST] for fw in frontward_window]) > distance
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# 未来信号都比现在弱
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or max([fw[RSSI] for fw in frontward_window]) < rssi
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) or (
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# CASE2 小于有效距离
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distance <= effective_distance
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or rssi >= effective_rssi
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)
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) and (
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# 并且时间大于单圈时间,且已经离开,并且达到判定距离
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record_time - last_status_time > self.min_round_time
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and this_tag[RUNNING_STATUS] == STATUS_EXIT
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and (distance < judge_distance or rssi >= judge_rssi)
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):
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last_status_time = record_time
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this_tag[RUNNING_STATUS] = STATUS_ACROSS
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this_tag[RUNNING_MES] = "冲线"
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this_tag[RUNNING_COUNTING] += 1
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# 圈数时间记录
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self.round_record.setdefault(person_id, {})
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self.round_record[person_id][
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this_tag[RUNNING_COUNTING]
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] = 0 if record_time - last_enter_time < 0 else record_time - last_enter_time
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last_enter_time += self.round_record[person_id][
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this_tag[RUNNING_COUNTING]
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]
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# 结束判定
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if this_tag[RUNNING_COUNTING] == self.round_num:
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this_tag[RUNNING_DONE] = True
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this_tag[RUNNING_COST] = record_time - self.start_time
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# 离开判定1
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elif (
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(
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# 如果还有数据,并且之前已经进入了判定距离
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len(frontward_window) > 0
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and
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(
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min([fw[DIST] for fw in frontward_window]) > judge_distance
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or max([fw[RSSI] for fw in frontward_window]) < judge_rssi
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)
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) and (
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# 并且当前距离已离开范围,当前状态为冲线,距离上次判定时间超过一个判定间隔
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(
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distance > effective_distance
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or rssi < effective_rssi
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)
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and this_tag[RUNNING_STATUS] == STATUS_ACROSS
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and record_time - last_status_time > detect_time_range
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)
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):
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last_status_time = record_time
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this_tag[RUNNING_STATUS] = STATUS_EXIT
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this_tag[RUNNING_MES] = "离开"
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# 离开判定2
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if (
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(
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# 如果已无数据
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len(frontward_window) == 0
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) and (
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# 并且当前距离已离开范围,当前状态为冲线
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(distance > 0 or rssi < -60)
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# 或者最后一条数据已经过了离开判定时间了
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or this_time - record_time > detect_time_range
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)
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and this_tag[RUNNING_STATUS] == STATUS_ACROSS
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):
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last_status_time = record_time
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this_tag[RUNNING_STATUS] = STATUS_EXIT
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this_tag[RUNNING_MES] = "离开"
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except Exception as e:
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traceback.format_exc()
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print(f"计算时发生错误:{e.args}")
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if this_time - last_status_time > self.min_round_time and this_tag[RUNNING_STATUS] == STATUS_EXIT:
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this_tag[RUNNING_MES] = "回程"
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# 更新记录
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self.update_and_play(tag=tag, new_record=this_tag)
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# 休息一下
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time.sleep(1)
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def get_person_round_time(self, person_id):
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if person_id not in self.final_data.keys():
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return {}
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return self.final_data[person_id]["final_result"]
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def get_valid_score(self):
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result = []
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for person_id, data in self.final_data.items():
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if data["done"] or data["fix"]:
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data["score"] = score_compute(data["age"], data["total_time"], self.score_data)
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result.append(data)
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return result
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# 获取成绩接口
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def get_score(self):
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score = []
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this_cost_time = time.time() - self.start_time
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for tag, record in self.running_record.items():
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if record[RUNNING_COUNTING] < 0:
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finish_status = "未起始"
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else:
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if record[RUNNING_COUNTING] == 0:
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finish_status = f"已开始({record[RUNNING_MES]})"
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else:
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finish_status = f"考试中({record[RUNNING_MES]})"
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if record[RUNNING_COUNTING] == self.round_num:
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finish_status = "已完成考试"
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age = self.person_mes[tag]["age"]
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one = {
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"band_id": tag,
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"score": score_compute(age, record[RUNNING_COST], self.score_data)
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if record[RUNNING_COUNTING] == self.round_num else 0,
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"total_time": record[RUNNING_COST] if record[RUNNING_DONE] else this_cost_time,
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"round": record[RUNNING_COUNTING] if record[RUNNING_COUNTING] > 0 else 0,
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"finish": finish_status,
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"percentage": record[RUNNING_COUNTING] / self.round_num
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if record[RUNNING_COUNTING] > 0 else 0
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}
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score.append(one)
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return score
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