import threading import time <h1>共享事件对象</h1><p>event = threading.Event()</p><p>def listener(): print("监听线程启动，等待事件...") event.wait()  # 阻塞直到事件被set print("事件已被触发，开始处理...")</p><p>def trigger(): time.sleep(2) print("触发事件") event.set()  # 触发事件，唤醒wait()</p><h1>创建并启动线程</h1><p>t1 = threading.Thread(target=listener) t2 = threading.Thread(target=trigger)</p><p>t1.start() t2.start()</p><p>t1.join() t2.join() 

 import threading import queue import time <p>event_queue = queue.Queue()</p><p>def event_producer(name): for i in range(3): event = {'type': 'data', 'source': name, 'value': i} event_queue.put(event) print(f"{name} 发布事件: {event}") time.sleep(1)</p><p>def event_consumer(): while True: event = event_queue.get() if event is None:  # 结束信号 break print(f"处理事件: {event}") event_queue.task_done()</p><h1>启动消费者线程</h1><p>consumer_thread = threading.Thread(target=event_consumer, daemon=True) consumer_thread.start()</p><h1>启动多个生产者</h1><p>threads = [] for name in ['sensor_A', 'sensor_B']: t = threading.Thread(target=event_producer, args=(name,)) t.start() threads.append(t)</p><h1>等待所有生产者完成</h1><p>for t in threads: t.join()</p><h1>发送结束信号</h1><p>event_queue.put(None) consumer_thread.join() 

 import threading <p>condition = threading.Condition() ready = False</p><p>def worker(): with condition: print("工作线程等待准备信号...") while not ready: condition.wait() print("开始执行任务！")</p><p>def coordinator(): global ready with condition: print("协调线程准备资源...") time.sleep(2) ready = True condition.notify_all()  # 通知所有等待线程 

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