def main(): # Fix for setuptools generated scripts, so that it will # work with multiprocessing fork emulation. # (see multiprocessing.forking.get_preparation_data()) if __name__ != "__main__": sys.modules["__main__"] = sys.modules[__name__] freeze_support() worker = WorkerCommand() worker.execute_from_commandline()
def main(): # Fix for setuptools generated scripts, so that it will # work with multiprocessing fork emulation. # (see multiprocessing.forking.get_preparation_data()) if __name__ != "__main__": sys.modules["__main__"] = sys.modules[__name__] freeze_support() worker = WorkerCommand() worker.execute_from_commandline()
def run(self): freeze_support() kwargs = {} if self.options.daemon: kwargs['logfile'] = zenPath('log', 'zenjobs.log') kwargs['loglevel'] = self.options.logseverity kwargs["pool_cls"] = concurrency.get_implementation( kwargs.get("pool_cls") or self.celery.conf.CELERYD_POOL) return self.celery.Worker(**kwargs).run()
def run(self): freeze_support() kwargs = {} if self.options.daemon: kwargs['logfile'] = zenPath('log', 'zenjobs.log') kwargs['loglevel'] = self.options.logseverity kwargs["pool_cls"] = concurrency.get_implementation( kwargs.get("pool_cls") or self.celery.conf.CELERYD_POOL) return self.celery.Worker(**kwargs).run()
def celeryd(): freeze_support() worker = WorkerCommand() worker.execute_from_commandline()
def celeryd(): freeze_support() worker = WorkerCommand() worker.execute_from_commandline()