It also saves the highest score. There are some bugs to be fixed.
The bar can be raised for a certain amount. Now we have the score and the stage on the screen.
New stages
The random new stages are made with this
def make_stages(): blist= [] for n in range(5): riga = [str(choice([0,1])) for x in range(8)] print(riga) blist.append("".join(riga)) return blist
# pong! import pygame from pygame import gfxdraw import os from random import choice class Brick: "Draw Player 2" def __init__(self, x, y): self.x = x self.y = y # This is for collisions self.rect = pygame.Rect(self.x, self.y, 50, 20)def update(self): # when you update it will go to self.x and self.y pygame.draw.rect(screen, GREEN, (self.x, self.y, 50, 20)) class Bar: "Draw Player 2" def __init__(self, x, y): self.x = x self.y = y def update(self): pygame.draw.rect(screen, RED, (self.x, self.y, 60, 10)) self.rect = pygame.Rect(self.x, self.y, 60, 10) class Ball: "Draw Player 2" def __init__(self, x, y): self.x = x self.y = y self.color = RED def update(self): "The ball moves" global ball global ball_x, ball_y # sull'asse x Va verso sinistra if ball_x == "left": # sottraggo perchè vado a sinistra ball.x -= velx # se arriva a 10 rimbalza if ball.x < 10: ball_x = "right" # va in basso if ball_y == 'down': # allora aumenta y quando va in basso (parte da 0 in alto) ball.y += vel_y if ball_y == 'up': # quando va in alto tolgo ball.y -= vel_y # se arriva in cima rimbalza in basso if ball.y < 10: ball_y = 'down' # se va a destra aumenta x if ball_x == "right": ball.x += velx # a 480 rimbalza verso sinistra if ball.x > 480: ball_x = "left" gfxdraw.filled_circle(screen, ball.x, ball.y, 6, self.color) # gfxdraw.filled_circle(screen, ball.x, ball.y, 5, YELLOW) self.rect = pygame.Rect(self.x, self.y, 6, 6) def reverse(): global ball_x, velx, vel_y ball_x = "right" if ball_x == "left" else "right" def collision(): global ball, bar, ball_y, ball_x, vely, velx, mousedir, bricks global diff, lives, stage, score, loop if ball.rect.colliderect(bar): pygame.mixer.Sound.play(s_coin) ball_y = "up" velx = 2 if diff > 0 else 1 print(f"you hit with diff: {diff} vel_x = {velx}") for n, brick in enumerate(bricks): if ball.rect.colliderect(brick): score += 20 pygame.mixer.Sound.play(s_brick) print("You hit a brick") if ball_y == "up": # the ball is lower than the brick of 20 if ball.y == (brick.y + 20 - vel_y) : ball_y = "down" # if the balls hit the brick on a side else: if ball_x == "left": ball_x = "right" else: ball_x = "left" elif ball_y == "down": if ball.y <= brick.y - 1: ball_y = "up" else: if ball_x == "left": ball_x = "right" else: ball_x = "left" bricks.pop(n) if bricks == []: ball.y = 300 ball.x = 100 if stage < len(blist): stage += 1 pygame.mixer.Sound.play(s_ready) else: stage = 0 bricks = create_bricks(make_stages()) if ball.y > 500: ball.x, ball.y = 500, 300 lives -= 1 pygame.mixer.Sound.play(s_out) if lives < 0: pygame.mixer.Sound.play(s_over) score = 0 stage = 0 ball_y = 'down' ball_x = 'left' loop = 0 def exit(event, loop): if event.type == pygame.QUIT: loop = 0 if event.type == pygame.KEYUP: if event.key == pygame.K_ESCAPE: loop = 0 return loop def create_bricks(blist): "The bricks scheme" bricks = [] h = 30 w = 0 for line in blist: for brick in line: if brick == "1": bricks.append(Brick(20 + w * 60, h)) w += 1 if w == 8: w = 0 h += 30 return bricks def show_bricks(): for brick in bricks: brick.update() stage = 0 lives = 3 def make_stages(): blist= [] for n in range(5): riga = [str(choice([0,1])) for x in range(8)] print(riga) blist.append("".join(riga)) return blist blist = make_stages() BLACK = (0, 0, 0) RED = (255, 0, 0) GREEN = (0, 255, 0) YELLOW = (255, 255, 0) ball_x = 'left' ball_y = 'down' # speed horizzontal velx = 1 # speed vertical vel_y = 1 ###################### # sound ##################### pygame.mixer.pre_init(44100, -16, 1, 512) pygame.init() pygame.mixer.quit() pygame.mixer.init(22050, -16, 2, 512) pygame.mixer.set_num_channels(32) # =================================== s_coin = pygame.mixer.Sound('sound\\coin.wav') s_out = pygame.mixer.Sound('sound\\out.wav') s_brick = pygame.mixer.Sound('sound\\brick.wav') s_ready = pygame.mixer.Sound('sound\\GetReady1.wav') s_over = pygame.mixer.Sound('sound\\GameOver1.wav') clock = pygame.time.Clock() screen = pygame.display.set_mode((500, 500)) pygame.display.set_caption("Game") startx = 0 bar = Bar(10, 480) ball = Ball(100, 300) bricks = create_bricks(blist) background = pygame.image.load("img\\background.png").convert() pygame.mouse.set_visible(False) mousedir = "stop" diff = 0 score = 0 font = pygame.font.SysFont("Arial", 24) scoremax = 0 def update_fps(): global score, scoremax fps = f"Score: {score} Max: {scoremax} Lives: {lives} Stage: {stage}" fps_text = font.render(fps, 0, pygame.Color("coral")) return fps_text def mainloop(): global startx, mousedir, diff pygame.mixer.Sound.play(s_ready) loop = 1 while loop: screen.blit(background, (0, 0)) screen.blit(update_fps(), (12, 10)) # screen.fill((0, 0, 0)) keys = pygame.key.get_pressed() for event in pygame.event.get(): loop = exit(event, loop) # This is the position of the mouse on the x axe posx= pygame.mouse.get_pos()[0] if pygame.mouse.get_pos()[1] > 400: bar.y = pygame.mouse.get_pos()[1] if posx > 10 and posx < 430: # il surface si muove come il mouse bar.x = posx ball.update() bar.update() collision() if startx > posx: mousedir = "left" elif startx < posx: mousedir = "right" else: mousedir = "stop" diff = abs(startx - posx) startx = posx show_bricks() pygame.display.update() clock.tick(240) try: if "score.txt" in os.listdir(): with open("score.txt", "r") as file: print("Scoremax = " + file.readlines()[0]) scoremax = int(file.readlines()[0]) else: with open("score.txt", "w") as file: file.write("100") except: with open("score.txt", "w") as file: file.write("100") mainloop() pygame.quit() with open("score.txt", "w") as file: if scoremax < score: file.write(str(score))
1.1 – Pong the father of Arkanoid
1.2 – Starting arkanoid… from pong
1.3 – Adding background
1.4 – Collision detection
1.5 – Bricks collisions
1.6 – Still on Collisions
1.7 – Fixed strange bouncing
1.8 – How to destroy the bricks
1.9 – More levels
2.1 – Infinite level generator
2.3 – Sounds and faster frame rate tecnique
2.5 – New nicer levels simmetric and in color and menus
2.6 – Keyboard control
2.7 – Mouse exclusive control
2.xxx – Tiny version
5.0 – Arkagame: 5 different versions
Github repository
https://github.com/formazione/arkapygame
Twitter: @pythonprogrammi - python_pygame