Heim > Artikel > Backend-Entwicklung > Detaillierte Erläuterung von Beispielen für die Verwendung des Frameworks APScheduler für die Planung in Python
In diesem Artikel wird hauptsächlich die Verwendung des Python-Scheduling-Frameworks APScheduler ausführlich erläutert. Jetzt werde ich es mit Ihnen teilen und als Referenz verwenden. Folgen wir dem Editor, um einen Blick darauf zu werfen
Kürzlich habe ich die Verwendung des Python-Scheduling-Frameworks APScheduler untersucht, daher kann der heutige Tag als Studiennotiz betrachtet werden!
# coding=utf-8 """ Demonstrates how to use the background scheduler to schedule a job that executes on 3 second intervals. """ from datetime import datetime import time import os from apscheduler.schedulers.background import BackgroundScheduler def tick(): print('Tick! The time is: %s' % datetime.now()) if name == 'main': scheduler = BackgroundScheduler() scheduler.add_job(tick, 'interval', seconds=3) #间隔3秒钟执行一次 scheduler.start() #这里的调度任务是独立的一个线程 print('Press Ctrl+{0} to exit'.format('Break' if os.name == 'nt' else 'C')) try: # This is here to simulate application activity (which keeps the main thread alive). while True: time.sleep(2) #其他任务是独立的线程执行 print('sleep!') except (KeyboardInterrupt, SystemExit): # Not strictly necessary if daemonic mode is enabled but should be done if possible scheduler.shutdown() print('Exit The Job!')
Nicht blockierende Planung, einmal zu einem bestimmten Zeitpunkt ausgeführt
# coding=utf-8 """ Demonstrates how to use the background scheduler to schedule a job that executes on 3 second intervals. """ from datetime import datetime import time import os from apscheduler.schedulers.background import BackgroundScheduler def tick(): print('Tick! The time is: %s' % datetime.now()) if name == 'main': scheduler = BackgroundScheduler() #scheduler.add_job(tick, 'interval', seconds=3) scheduler.add_job(tick, 'date', run_date='2016-02-14 15:01:05') #在指定的时间,只执行一次 scheduler.start() #这里的调度任务是独立的一个线程 print('Press Ctrl+{0} to exit'.format('Break' if os.name == 'nt' else 'C')) try: # This is here to simulate application activity (which keeps the main thread alive). while True: time.sleep(2) #其他任务是独立的线程执行 print('sleep!') except (KeyboardInterrupt, SystemExit): # Not strictly necessary if daemonic mode is enabled but should be done if possible scheduler.shutdown() print('Exit The Job!')
Nicht blockierende Methode, mit cron ausgeführt
# coding=utf-8 """ Demonstrates how to use the background scheduler to schedule a job that executes on 3 second intervals. """ from datetime import datetime import time import os from apscheduler.schedulers.background import BackgroundScheduler def tick(): print('Tick! The time is: %s' % datetime.now()) if name == 'main': scheduler = BackgroundScheduler() #scheduler.add_job(tick, 'interval', seconds=3) #scheduler.add_job(tick, 'date', run_date='2016-02-14 15:01:05') scheduler.add_job(tick, 'cron', day_of_week='6', second='*/5') ''' year (int|str) – 4-digit year month (int|str) – month (1-12) day (int|str) – day of the (1-31) week (int|str) – ISO week (1-53) day_of_week (int|str) – number or name of weekday (0-6 or mon,tue,wed,thu,fri,sat,sun) hour (int|str) – hour (0-23) minute (int|str) – minute (0-59) second (int|str) – second (0-59) start_date (datetime|str) – earliest possible date/time to trigger on (inclusive) end_date (datetime|str) – latest possible date/time to trigger on (inclusive) timezone (datetime.tzinfo|str) – time zone to use for the date/time calculations (defaults to scheduler timezone) * any Fire on every value */a any Fire every a values, starting from the minimum a-b any Fire on any value within the a-b range (a must be smaller than b) a-b/c any Fire every c values within the a-b range xth y day Fire on the x -th occurrence of weekday y within the month last x day Fire on the last occurrence of weekday x within the month last day Fire on the last day within the month x,y,z any Fire on any matching expression; can combine any number of any of the above expressions ''' scheduler.start() #这里的调度任务是独立的一个线程 print('Press Ctrl+{0} to exit'.format('Break' if os.name == 'nt' else 'C')) try: # This is here to simulate application activity (which keeps the main thread alive). while True: time.sleep(2) #其他任务是独立的线程执行 print('sleep!') except (KeyboardInterrupt, SystemExit): # Not strictly necessary if daemonic mode is enabled but should be done if possible scheduler.shutdown() print('Exit The Job!')
Blockierende Methode, ausführen einmal alle 3 Sekunden
# coding=utf-8 """ Demonstrates how to use the background scheduler to schedule a job that executes on 3 second intervals. """ from datetime import datetime import os from apscheduler.schedulers.blocking import BlockingScheduler def tick(): print('Tick! The time is: %s' % datetime.now()) if name == 'main': scheduler = BlockingScheduler() scheduler.add_job(tick, 'interval', seconds=3) print('Press Ctrl+{0} to exit'.format('Break' if os.name == 'nt' else 'C')) try: scheduler.start() #采用的是阻塞的方式,只有一个线程专职做调度的任务 except (KeyboardInterrupt, SystemExit): # Not strictly necessary if daemonic mode is enabled but should be done if possible scheduler.shutdown() print('Exit The Job!')
Blockierungsmethode übernehmen, nur einmal ausführen
# coding=utf-8 """ Demonstrates how to use the background scheduler to schedule a job that executes on 3 second intervals. """ from datetime import datetime import os from apscheduler.schedulers.blocking import BlockingScheduler def tick(): print('Tick! The time is: %s' % datetime.now()) if name == 'main': scheduler = BlockingScheduler() scheduler.add_job(tick, 'date', run_date='2016-02-14 15:23:05') print('Press Ctrl+{0} to exit'.format('Break' if os.name == 'nt' else 'C')) try: scheduler.start() #采用的是阻塞的方式,只有一个线程专职做调度的任务 except (KeyboardInterrupt, SystemExit): # Not strictly necessary if daemonic mode is enabled but should be done if possible scheduler.shutdown() print('Exit The Job!')
Blockierungsmethode übernehmen, Cron-Planungsmethode verwenden
# coding=utf-8 """ Demonstrates how to use the background scheduler to schedule a job that executes on 3 second intervals. """ from datetime import datetime import os from apscheduler.schedulers.blocking import BlockingScheduler def tick(): print('Tick! The time is: %s' % datetime.now()) if name == 'main': scheduler = BlockingScheduler() scheduler.add_job(tick, 'cron', day_of_week='6', second='*/5') ''' year (int|str) – 4-digit year month (int|str) – month (1-12) day (int|str) – day of the (1-31) week (int|str) – ISO week (1-53) day_of_week (int|str) – number or name of weekday (0-6 or mon,tue,wed,thu,fri,sat,sun) hour (int|str) – hour (0-23) minute (int|str) – minute (0-59) second (int|str) – second (0-59) start_date (datetime|str) – earliest possible date/time to trigger on (inclusive) end_date (datetime|str) – latest possible date/time to trigger on (inclusive) timezone (datetime.tzinfo|str) – time zone to use for the date/time calculations (defaults to scheduler timezone) * any Fire on every value */a any Fire every a values, starting from the minimum a-b any Fire on any value within the a-b range (a must be smaller than b) a-b/c any Fire every c values within the a-b range xth y day Fire on the x -th occurrence of weekday y within the month last x day Fire on the last occurrence of weekday x within the month last day Fire on the last day within the month x,y,z any Fire on any matching expression; can combine any number of any of the above expressions ''' print('Press Ctrl+{0} to exit'.format('Break' if os.name == 'nt' else 'C')) try: scheduler.start() #采用的是阻塞的方式,只有一个线程专职做调度的任务 except (KeyboardInterrupt, SystemExit): # Not strictly necessary if daemonic mode is enabled but should be done if possible scheduler.shutdown() print('Exit The Job!')
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