门面(Facade)设计模式为子系统中的一组接口提供统一的接口。 它定义了任何子系统都可以使用的更高级别的接口。
一个门面(Facade)类知道哪个子系统负责请求。
现在让我们看看如何设计一个门面(Facade)设计模式。参考以下实现代码 -
class _IgnitionSystem(object): @staticmethod def produce_spark(): return True class _Engine(object): def __init__(self): self.revs_per_minute = 0 def turnon(self): self.revs_per_minute = 2000 def turnoff(self): self.revs_per_minute = 0 class _FuelTank(object): def __init__(self, level=30): self._level = level @property def level(self): return self._level @level.setter def level(self, level): self._level = level class _DashBoardLight(object): def __init__(self, is_on=False): self._is_on = is_on def __str__(self): return self.__class__.__name__ @property def is_on(self): return self._is_on @is_on.setter def is_on(self, status): self._is_on = status def status_check(self): if self._is_on: print("{}: ON".format(str(self))) else: print("{}: OFF".format(str(self))) class _HandBrakeLight(_DashBoardLight): pass class _FogLampLight(_DashBoardLight): pass class _Dashboard(object): def __init__(self): self.lights = {"handbreak": _HandBrakeLight(), "fog": _FogLampLight()} def show(self): for light in self.lights.values(): light.status_check() # Facade class Car(object): def __init__(self): self.ignition_system = _IgnitionSystem() self.engine = _Engine() self.fuel_tank = _FuelTank() self.dashboard = _Dashboard() @property def km_per_litre(self): return 17.0 def consume_fuel(self, km): litres = min(self.fuel_tank.level, km / self.km_per_litre) self.fuel_tank.level -= litres def start(self): print("\nStarting...") self.dashboard.show() if self.ignition_system.produce_spark(): self.engine.turnon() else: print("Can't start. Faulty ignition system") def has_enough_fuel(self, km, km_per_litre): litres_needed = km / km_per_litre if self.fuel_tank.level > litres_needed: return True else: return False def drive(self, km = 100): print("\n") if self.engine.revs_per_minute > 0: while self.has_enough_fuel(km, self.km_per_litre): self.consume_fuel(km) print("Drove {}km".format(km)) print("{:.2f}l of fuel still left".format(self.fuel_tank.level)) else: print("Can't drive. The Engine is turned off!") def park(self): print("\nParking...") self.dashboard.lights["handbreak"].is_on = True self.dashboard.show() self.engine.turnoff() def switch_fog_lights(self, status): print("\nSwitching {} fog lights...".format(status)) boolean = True if status == "ON" else False self.dashboard.lights["fog"].is_on = boolean self.dashboard.show() def fill_up_tank(self): print("\nFuel tank filled up!") self.fuel_tank.level = 100 # the main function is the Client def main(): car = Car() car.start() car.drive() car.switch_fog_lights("ON") car.switch_fog_lights("OFF") car.park() car.fill_up_tank() car.drive() car.start() car.drive() if __name__ == "__main__": main()
执行上面程序,生成以下输出 -
注意:这个程序是设计一个场景。 这是启动汽车或任何车辆的发动机。 如果您观察代码,它还包括驱动,停车和消耗燃料的相关功能。