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Lesson 6 - Arena with warriors in Python

In the previous lesson, Warrior for the arena in Python, we created the Warrior class. Our rolling die is already finished from the early lessons. In today's Python tutorial, we're going to put it all together and create a fully functioning arena. The tutorial is going to be simple and will help you get some more practice on working with objects.

We'll need to write some code that will manage our warriors and print messages to the user. Of course, we won't put all this in the main program but we'll keep things organized. We'll create an Arena object where our fight will take place. The main program part will only provide the necessary objects, and the Arena object will take care of the rest.

The class will be rather simple, it'll include three needed instances as the attributes: the 2 warriors and the rolling die. These attributes will be initialized from the constructor parameters. The class code will be as following (add comments accordingly):

class Arena:


    def __init__(self, warrior_1, warrior_2, die):
        self.__warrior_1 = warrior_1
        self.__warrior_2 = warrior_2
        self.__die = die

Let's think about the methods. We're definitely going to need a public method to simulate the fight. We'll make the program output fancy and allow the Arena class to access the console directly. We've decided that the printing will be done by the Arena class since it makes sense here. If the printing was performed by warriors, the design would be flawed since the warriors would not be universal. We need a method that prints information about the round and the warriors' health to the console. The damage and defense messages will be printed with a dramatic pause so as to make the fight more intense. We'll create a helper method for this. Let's start with the method that renders the information screen:

def __render(self):
    self.__clear_screen()
    print("-------------- Arena -------------- \n")
    print("Warriors health: \n")
    print("{0} {1}".format(self.__warrior_1,
                           self.__warrior_1.health_bar()))
    print("{0} {1}".format(self.__warrior_2,
                           self.__warrior_2.health_bar()))

At the beginning, we call another method, __clear_screen(). We call the methods within the object as follows:

self.method_name

The rest is clear. Both methods are private, we'll use them only within the class.

The code of the private __clear_screen() method looks like this:

def __clear_screen(self):
    import sys as _sys
    import subprocess as _subprocess
    if _sys.platform.startswith("win"):
        _subprocess.call(["cmd.exe", "/C", "cls"])
    else:
        _subprocess.call(["clear"])

We import the sys and subprocess modules needed to clear the console screen. According to the OS, we execute the appropriate command to clear the screen. Let's create another private method that will print messages with a dramatic pause:

def __print_message(self, message):
    import time as _time
    print(message)
    _time.sleep(0.75)

The code is obvious except for the sleep() function from the time module, which suspends the program thread for a given number of seconds. We'll work with threads at the end of the course.

Both methods just print to the console, I think we don't have to try them now. Let's move on to the fighting part. The fight() method will be parameterless and won't return anything. There will be a loop inside calling the warriors' attacks in turns and printing the information screen with the messages. The method would look something like this:

def fight(self):
    print("Welcome to the Arena!")
    print("Today {0} will battle against {1}!".format(self.__warrior_1, self.__warrior_2))
    print("Let the battle begin...", end=" ")
    input()
    # fight loop
    while (self.__warrior_1.is_alive() and self.__warrior_2.is_alive()):
        self.__warrior_1.attack(self.__warrior_2)
        self.__render()
        self.__print_message(self.__warrior_1.get_last_message()) # attack message
        self.__print_message(self.__warrior_2.get_last_message()) # defense message
        self.__warrior_2.attack(self.__warrior_1)
        self.__render()
        self.__print_message(self.__warrior_2.get_last_message()) # attack message
        self.__print_message(self.__warrior_1.get_last_message()) # defense message
        print("")

The code prints introductory lines and executes the fighting loop after the user presses any key. It's a while loop that repeats as long as both warriors are alive. The first warrior attacks his opponent and his attack internally calls the other warrior's defense. After the attack, we render the information screen. The messages about the attack and defense are printed by our __print_message() method which makes a dramatic pause after the printing. The same thing will happen with the other warrior.

Let's move back to the end of the program. We'll create the needed instances and call the fight() method on the arena:

# creating objects
die = RollingDie(10)
zalgoren = Warrior("Zalgoren", 100, 20, 10, die)
shadow = Warrior("Shadow", 60, 18, 15, die)
arena = Arena(zalgoren, shadow, die)
# fight
arena.fight()
input()

You can change the values to whatever you'd like. Here's what the program looks like at runtime:

Console application
-------------- Arena --------------

Warriors health:

Zalgoren [##                  ]
Shadow [                    ]
Shadow attacks with a hit worth 19 hp
Zalgoren blocked the hit

The result is quite impressive. The objects communicate with each other, the health bar decreases as expected, the experience is enhanced by a dramatic pause. However, our arena still has two issues:

  • In the fight loop, the first warrior attacks the other one. Then, the second warrior attacks back, even if he has already been killed by the first warrior. Look at the output above, at the end, Shadow attacked even though he was dead. The while loop terminated just after that. There are no issues with the first warrior, but we have to check whether the second warrior is alive before letting him attack.
  • The second problem is that the warriors always fight in the same order so "Zalgoren" has an unfair advantage. Let's use the rolling die to decide who will start the fight. Since there will always only be two warriors, we can set the warriors' turns based off of whether the rolled number is less or equal to half of the number of die sides. Meaning that if it rolls a number less than 5 on a ten-sided die, the second warrior goes first, otherwise, the first one does.

The updated version preventing the second warrior from attacking when he's already dead and letting the warriors start randomly can look like this:

def fight(self):
    import random as _random
    print("Welcome to the Arena!")
    print("Today {0} will battle against {1}!".format(self.__warrior_1, self.__warrior_2))
    print("Let the battle begin...", end=" ")
    input()
    # swapping the warriors
    if _random.randint(0, 1):
        (self.__warrior_1, self.__warrior_2) = (self.__warrior_2,
          self.__warrior_1)
    # fight loop
    while (self.__warrior_1.is_alive() and self.__warrior_2.is_alive()):
        self.__warrior_1.attack(self.__warrior_2)
        self.__render()
        self.__print_message(self.__warrior_1.get_last_message()) # attack message
        self.__print_message(self.__warrior_2.get_last_message()) # defense message
        if self.__warrior_2.is_alive():
            self.__warrior_2.attack(self.__warrior_1)
            self.__render()
            self.__print_message(self.__warrior_2.get_last_message()) # attack message
            self.__print_message(self.__warrior_1.get_last_message()) # defense message
        print("")

We swap the warriors using the parentheses expression above. If the parentheses weren't there, Python would have thrown an error. We wrapped a line at this place so that the code won't be too wide. The recommended line length is 80 characters.

Now, let's take her for a spin!

Console application
-------------- Arena --------------

Warriors health:

Zalgoren [###########         ]
Shadow [                    ]
Zalgoren attacks with a hit worth 27 hp
Shadow defended against the attack but still lost 9 hp, and died

Congratulations! If you've gotten this far and have actually read through, you have the basis of object-oriented programming in Python and should be able to create reasonable applications :)

In the next lesson, Inheritance and polymorphism in Python, we'll explain object-oriented programming in further detail. We mentioned that OOP is based on three core concepts - encapsulation, inheritance, and polymorphism. We're already familiar with the encapsulation, the other two await you in the next lesson.


 

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