# strategy_best4.py # Strategy pattern -- function-based implementation # selecting best promotion from list of functions # registered by a decorator """ >>> joe = Customer('John Doe', 0) >>> ann = Customer('Ann Smith', 1100) >>> cart = [LineItem('banana', 4, .5), ... LineItem('apple', 10, 1.5), ... LineItem('watermelon', 5, 5.0)] >>> Order(joe, cart, fidelity) >>> Order(ann, cart, fidelity) >>> banana_cart = [LineItem('banana', 30, .5), ... LineItem('apple', 10, 1.5)] >>> Order(joe, banana_cart, bulk_item) >>> long_order = [LineItem(str(item_code), 1, 1.0) ... for item_code in range(10)] >>> Order(joe, long_order, large_order) >>> Order(joe, cart, large_order) # tag::STRATEGY_BEST_TESTS[] >>> Order(joe, long_order, best_promo) >>> Order(joe, banana_cart, best_promo) >>> Order(ann, cart, best_promo) # end::STRATEGY_BEST_TESTS[] """ from collections import namedtuple from typing import Callable, List Customer = namedtuple('Customer', 'name fidelity') class LineItem: def __init__(self, product, quantity, price): self.product = product self.quantity = quantity self.price = price def total(self): return self.price * self.quantity class Order: # the Context def __init__(self, customer, cart, promotion=None): self.customer = customer self.cart = list(cart) self.promotion = promotion def total(self): if not hasattr(self, '__total'): self.__total = sum(item.total() for item in self.cart) return self.__total def due(self): if self.promotion is None: discount = 0 else: discount = self.promotion(self) return self.total() - discount def __repr__(self): return f'' # tag::STRATEGY_BEST4[] Promotion = Callable[[Order], float] # <2> def promotion(promo: Promotion) -> Promotion: # <2> promos.append(promo) return promo promos: List[Promotion] = [] # <1> @promotion # <3> def fidelity(order: Order) -> float: """5% discount for customers with 1000 or more fidelity points""" return order.total() * 0.05 if order.customer.fidelity >= 1000 else 0 @promotion def bulk_item(order: Order) -> float: """10% discount for each LineItem with 20 or more units""" discount = 0 for item in order.cart: if item.quantity >= 20: discount += item.total() * 0.1 return discount @promotion def large_order(order: Order) -> float: """7% discount for orders with 10 or more distinct items""" distinct_items = {item.product for item in order.cart} if len(distinct_items) >= 10: return order.total() * 0.07 return 0 def best_promo(order: Order) -> float: # <4> """Select best discount available """ return max(promo(order) for promo in promos) # end::STRATEGY_BEST4[]