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import pygame, random, time
# main function where we call all other functions, start the game loop, quit pygame and clean up the window. Inside we create a game object, display surface, and start the game loop by calling the play method on the game object. There is also a set caption with the title of the game.
def main():
    pygame.init()
    size =(500,400)
    surface=pygame.display.set_mode(size)
    pygame.display.set_caption('Pong v2')
    game = Game(surface)
    game.play()
    center_ball=self.ball.center
    pygame.quit()
# This is where we define the class game    
class Game():
    # an object in this class represents a complete game

    # here we initialize a game. self is the game that is initialized surface is the display window surface object we also set default values for continuing the game and closing the window. we also define what fps we are running the game at, and define the velocity color position and radius of the ball
    def __init__(self,surface):

        # defining surface, fps, background color
        self.surface=surface
        self.FPS=120
        self.bg_color=pygame.Color('black')
        screen_width = surface.get_width()
        screen_height = surface.get_height()

        # defining ball attributes
        ball_radius=10
        ball_pos = [random.randint(ball_radius, screen_width-ball_radius), 
                    random.randint(ball_radius, screen_height-ball_radius)]
        ball_color=pygame.Color('white')
        ball_velocity=[2,1]
        self.ball=Ball(ball_pos,ball_radius,ball_color,ball_velocity,surface)

        # defining paddle attributes

        rect_left=[50,450]
        rect_top=225
        rect_height=60
        rect_width=10
        self.Paddle1=Rect(rect_left[0],rect_top,rect_width,rect_height,surface)
        self.Paddle2=Rect(rect_left[1],rect_top,rect_width,rect_height,surface)


        self.game_Clock=pygame.time.Clock()
        self.close_clicked=False
        self.continue_game=True
        self.score1=0
        self.score2=0
        self.frame_counter=0
        #return ball_radius

    def play(self):
        # game is played until player clicks close and until score1/score2 reaches 11
        while not self.close_clicked and self.score1 <=11 and self.score2 <=11:  

            self.handle_events()

            self.draw()


            # if nothing sets this to false the game will continue to update
            if self.continue_game:
                self.update()

            self.game_Clock.tick(self.FPS)
    # score is drawn onto the screen (unimportant this is just playing with a feature for the next version), we define color font background etc of the score message and update score upon points being scored
    def draw_score(self):
        font_color = pygame.Color("white")
        font_bg    = pygame.Color("black")
        font       = pygame.font.SysFont("arial", 18)
        text_img   = font.render("Score for Player 1: " + str(self.score1) + ' Score for Player 2: ' + str(self.score2), True, font_color, font_bg)     
        text_pos   = (0,0)
        self.surface.blit(text_img, text_pos)

    # ball, surface, score, and two paddles are drawn, pygame also updates this drawing once per frame    
    def draw(self):
        self.surface.fill(self.bg_color)

        self.draw_score()

        self.Paddle1.draw()
        self.Paddle2.draw()

        self.ball.draw()


        pygame.display.update()
    # score value set to default of 0 we tell ball to move and add 1 to frame counter upon each update. update game object for the next frame 
    def update(self):
        self.ball.move()
        self.score=0
        #get_ball_radius=self.init()

        get_self_center=self.ball.move()
        if get_self_center[0] + ball_radius <=0:
            score1+=1
        if get_self_center[0] + ball_radius>=sizee[0]:
            score2+=1

        if self.Paddle1.collide_point(get_self_center[0],get_self_center[1])or self.Paddle2.collide_point(get_self_center[0],get_self_center[1])==True:
            self.ball.bounce()
        #if self.Paddle1.collide_point(self.ball.move[0],self.ball.move[1]) == True:
            #game.ball.velocity=-game.ball.velocity


        #if self.rect.collidepoint(Game.ball.center[0],Game.ball.center[1])==True:
            #pass    


        self.frame_counter+=self.frame_counter+1











    # here we setup an event loop and figure out if the action to end the game has been done
    def handle_events(self):
        events=pygame.event.get()
        for event in events:
            if event.type== pygame.QUIT:
                self.close_clicked=True
# user defined class ball            
class Ball:
    # self is the ball to intialize. color/center/radius are defined for the ball that is initialized
    def __init__(self,center,radius,color,velocity,surface):
        self.center=center
        self.radius=radius
        self.color=color
        self.velocity=velocity
        self.surface=surface
    # screen size is determined and edge of ball is checked that it is not touching the edge. if it is touching the edge it bounces and reverses velocity   
    def move(self):
        screen_width=self.surface.get_width()
        screen_height=self.surface.get_height()
        screen_size=(screen_width,screen_height)
        for i in range(0,len(self.center)):
            #print(self.center)
            self.center[i]+=self.velocity[i]
            if (self.center[i]<=0 + self.radius or self.center[i]>=screen_size[i] - self.radius):
                self.velocity[i]=-self.velocity[i]
        return self.center
    def bounce(self):
        self.velocity=-self.velocity


    # ball is drawn            
    def draw(self):
        self.circle=pygame.draw.circle(self.surface,self.color,self.center,self.radius)


class Rect:
    def __init__(self,left,top,width,height,surface):
        #self.left=left
        #self.top=top
        #self.width=width
        #self.height=height
        self.surface=surface
        self.rect=pygame.Rect(left,top,width,height)


    def draw(self):
        pygame.draw.rect(self.surface,pygame.Color('red'),self.rect)

    def collide_point(self, x, y,):
        get_self_center=self.ball.move()
        pygame.Rect.collidepoint(get_self_center)

        #print(self.move())






















main()

I am trying to make the classic arcade game pong, but I cannot get this to work. the score feature for some reason won't take the balls radius + the centre in order for me to update the scores when a player scores. And the collision detection will not stop returning me errors no matter what I change when I try to detect collision between the ball and the paddle for it to bounce off. It keeps saying that like Rect is not an attribute of Rect or that I'm trying to pass in an int when it needs a pygame.Rect object. Can somebody please explain what is going wrong? Object oriented programming is super confusing for me

marked as duplicate by toolic, Rabbid76, Community Nov 7 at 21:24

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

0

It looks like you don't really have a main 'game loop' to handle the actions. A game loop looks something like this in Python (this is just a skeleton):

while running:
    process_events() # Events like input, e.g
    update() # Update frame
    draw() # Render things onto screen

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