Extreme Thinking
Rython class(Pokemon_test)

2020-06-22


密大作業 ..

The class, Pokemon, is provided below and describes a Pokemon and its leveling and evolving characteristics. An instance of the class is one pokemon that you create.

Grass_Pokemon is a subclass that inherits from Pokemon but changes some aspects, for instance, the boost values are different.

For the subclass Grass_Pokemon, add another method called action that returns the string "[name of pokemon] knows a lot of different moves!". Create an instance of this class with the name as "Belle". Assign this instance to the variable p1.
Modify the Grass_Pokemon subclass so that the attack strength for Grass_Pokemon instances does not change until they reach level 10. At level 10 and up, their attack strength should increase by the attack_boost amount when they are trained.

To test, create an instance of the class with the name as "Bulby". Assign the instance to the variable p2. Create another instance of the Grass_Pokemon class with the name set to "Pika" and assign that instance to the variable p3. Then, use Grass_Pokemon methods to train the p3 Grass_Pokemon instance until it reaches at least level 10.
Along with the Pokemon parent class, we have also provided several subclasses. Write another method in the parent class that will be inherited by the subclasses. Call it opponent. It should return which type of pokemon the current type is weak and strong against, as a tuple.

Grass is weak against Fire and strong against Water

Ghost is weak against Dark and strong against Psychic

Fire is weak against Water and strong against Grass

Flying is weak against Electric and strong against Fighting

For example, if the p_type of the subclass is 'Grass', .opponent() should return the tuple ('Fire', 'Water')
class Pokemon():
    attack = 12
    defense = 10
    health = 15
    p_type = "Normal"

    def __init__(self, name,level = 5):
        self.name = name
        self.level = level
        self.weak = "Normal"
        self.strong = "Normal"

    def train(self):
        self.update()
        self.attack_up()
        self.defense_up()
        self.health_up()
        self.level = self.level + 1
        if self.level%self.evolve == 0:
            return self.level, "Evolved!"
        else:
            return self.level

    def attack_up(self):
        self.attack = self.attack + self.attack_boost
        return self.attack

    def defense_up(self):
        self.defense = self.defense + self.defense_boost
        return self.defense

    def health_up(self):
        self.health = self.health + self.health_boost
        return self.health

    def update(self):
        self.health_boost = 5
        self.attack_boost = 3
        self.defense_boost = 2
        self.evolve = 10

    def __str__(self):
        self.update()
        return "Pokemon name: {}, Type: {}, Level: {}".format(self.name, self.p_type, self.level)

    def opponent(self):
        if(self.p_type=="Grass"):
            return ('Fire', 'Water')
        if(self.p_type=="Ghost"):
            return ('Dark','Psychic')
        if(self.p_type=="Fire"):
            return ("Water","Grass")
        if(self.p_type=="Flying"):
            return("Electric","Fighting")
                    
class Grass_Pokemon(Pokemon):
    attack = 15
    defense = 14
    health = 12
    p_type = "Grass"
    attack_boost=10

    def update(self):
        self.health_boost = 6
        self.attack_boost = 2
        self.defense_boost = 3
        self.evolve = 12

    def moves(self):
        self.p_moves = ["razor leaf", "synthesis", "petal dance"]
        
    def action(self):
        return "{} knows a lot of different moves!".format(self.name)
class Ghost_Pokemon(Pokemon):
    p_type = "Ghost"

    def update(self):
        self.health_boost = 3
        self.attack_boost = 4
        self.defense_boost = 3

class Fire_Pokemon(Pokemon):
    p_type = "Fire"

class Flying_Pokemon(Pokemon):
    p_type = "Flying"

p1 = Grass_Pokemon('Belle')
print (p1.action())
p2=Grass_Pokemon("Bulby")
p3=Grass_Pokemon("Pika")