9. Car Class
Write a Car class.
Set the car’s make, model, year, color on calling the Car class.
Also set the odometer to 0.
e.g.
my_car = Car('ford', 'territory', 2005, "tan")
Write the methods, get_info() and get_odometer() to print a descriptive line, using f-strings.
Write a method to update the odometer to a specified amount and a method to increment the odometer by a specified amount.
Write code to output:
2005 Tan Ford Territory
2005 Tan Ford Territory has done 0 km.
2005 Tan Ford Territory has done 100000 km.
2005 Tan Ford Territory has done 100275 km.
Tasks
Write a Car class using the scaffold below.
class Car: def __init__(self, make, model, year, color): self. = make self. = model self. = year self. = color self.odometer = def info(self): return f"{ year} { color} { make} { model}".title() def get_info(self): print(f"{self.info()}") def get_odometer(self): print(f"{self.get_info()} has done { } km.") def update_odometer(self, km): """Set the odometer reading if km > current reading""" if km >= self.odometer: self. else: print("Km on an odometer can't be lowered.") def increment_odometer(self, km): """increase the odometer reading""" if km >= 0: self. else: print("Km on an odometer can't be lowered.") my_car = Car('ford', 'territory', 2005, "tan") print(my_car.get_info()) # update odometer using attribute my_car. = 20 my_car.get_odometer() # set odometer using method my_car. (100_000) my_car.get_odometer() # increment odometer using method my_car. (275) my_car.get_odometer()
Write a class for a Car.
class Car:
def __init__(self, make, model, year, color):
self.make = make
self.model = model
self.year = year
self.color = color
self.odometer = 0
def info(self):
return f"{self.year} {self.color} {self.make} {self.model}".title()
def get_info(self):
print(f"{self.info()}")
def get_odometer(self):
print(f"{self.info()} has done {self.odometer_reading} km.")
def update_odometer(self, km):
"""Set the odometer reading if km > current reading"""
if km >= self.odometer:
self.odometer = km
else:
print("Km on an odometer can't be lowered.")
def increment_odometer(self, km):
"""increase the odometer reading"""
if km >= 0:
self.odometer += km
else:
print("Km on an odometer can't be lowered.")
my_car = Car('ford', 'territory', 2005, "tan")
print(my_car.get_info())
# update odometer using attribute
my_car.odometer_reading = 20
my_car.get_odometer()
# set odometer using method
my_car.update_odometer(100_000)
my_car.get_odometer()
# increment odometer using method
my_car.increment_odometer(275)
my_car.get_odometer()