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22.1. Introduction: Class Inheritance¶
Classes can “inherit” methods and class variables from other classes. We’ll see the mechanics of how this works in subsequent sections. First, however, let’s motivate why this might be valuable. It turns out that inheritance doesn’t let you do anything that you couldn’t do without it, but it makes some things a lot more elegant. You will also find it’s useful when someone else has defined a class in a module or library, and you just want to override a few things without having to reimplement everything they’ve done.
Consider our Tamagotchi game. Suppose we wanted to make some different kinds of pets that have the same structure as other pets, but have some different attributes or behave a little differently. For example, suppose that dog pets should show their emotional state a little differently than cats or act differently when they are hungry or when they are asked to fetch something.
You could implement this by making an instance variable for the pet type and dispatching on that instance variable in various methods.
from random import randrange class Pet(): boredom_decrement = 4 hunger_decrement = 6 boredom_threshold = 5 hunger_threshold = 10 sounds = ['Mrrp'] def __init__(self, name = "Kitty", pet_type="dog"): self.name = name self.hunger = randrange(self.hunger_threshold) self.boredom = randrange(self.boredom_threshold) self.sounds = self.sounds[:] # copy the class attribute, so that when we make changes to it, we won't affect the other Pets in the class self.pet_type = pet_type def clock_tick(self): self.boredom += 1 self.hunger += 1 def mood(self): if self.hunger <= self.hunger_threshold and self.boredom <= self.boredom_threshold: if self.pet_type == "dog": # if the pet is a dog, it will express its mood in different ways from a cat or any other type of animal return "happy" elif self.pet_type == "cat": return "happy, probably" else: return "HAPPY" elif self.hunger > self.hunger_threshold: if self.pet_type == "dog": # same for hunger -- dogs and cats will express their hunger a little bit differently in this version of the class definition return "hungry, arf" elif self.pet_type == "cat": return "hungry, meeeeow" else: return "hungry" else: return "bored" def __str__(self): state = " I'm " + self.name + ". " state += " I feel " + self.mood() + ". " return state def hi(self): print(self.sounds[randrange(len(self.sounds))]) self.reduce_boredom() def teach(self, word): self.sounds.append(word) self.reduce_boredom() def feed(self): self.reduce_hunger() def reduce_hunger(self): self.hunger = max(0, self.hunger - self.hunger_decrement) def reduce_boredom(self): self.boredom = max(0, self.boredom - self.boredom_decrement)
- That code is exactly the same as the code defining the
Petclass that you saw in the Tamagotchi section, except that we’ve added a few things.
A new input to the constructor – the
pet_typeinput parameter, which defaults to
"dog", and the
if..elif..else in the
self.mood()method, such that different types of pets (a dog, a cat, or any other type of animal) express their moods and their hunger in slightly different ways.
But that’s not an elegant way to do it. It obscures the parts of being a pet that are common to all pets and it buries the unique stuff about being a dog or a cat in the middle of the mood method. What if you also wanted a dog to reduce boredom at a different rate than a cat, and you wanted a bird pet to be different still? Here, we’ve only implemented dogs, cats, and other – but you can imagine the possibilities.
If there were lots of different types of pets, those methods would start to have long and complex if..elif..elif code clauses, which can be confusing. And you’d need that in every method where the behavior was different for different types of pets. Class inheritance will give us a more elegant way to do it.