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scripts/Brick-Breaker-Python/README.md
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scripts/Brick-Breaker-Python/README.md
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# Brick-Breaker-Python
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scripts/Brick-Breaker-Python/main.py
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scripts/Brick-Breaker-Python/main.py
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import pygame
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import math
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pygame.init()
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WIDTH, HEIGHT = 800, 600
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win = pygame.display.set_mode((WIDTH, HEIGHT))
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pygame.display.set_caption("Brick Breaker")
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FPS = 60
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PADDLE_WIDTH = 100
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PADDLE_HEIGHT = 15
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BALL_RADIUS = 10
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LIVES_FONT = pygame.font.SysFont("comicsans", 40)
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class Paddle:
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VEL = 5
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def __init__(self, x, y, width, height, color):
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self.x = x
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self.y = y
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self.width = width
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self.height = height
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self.color = color
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def draw(self, win):
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pygame.draw.rect(
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win, self.color, (self.x, self.y, self.width, self.height))
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def move(self, direction=1):
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self.x = self.x + self.VEL * direction
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class Ball:
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VEL = 5
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def __init__(self, x, y, radius, color):
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self.x = x
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self.y = y
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self.radius = radius
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self.color = color
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self.x_vel = 0
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self.y_vel = -self.VEL
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def move(self):
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self.x += self.x_vel
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self.y += self.y_vel
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def set_vel(self, x_vel, y_vel):
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self.x_vel = x_vel
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self.y_vel = y_vel
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def draw(self, win):
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pygame.draw.circle(win, self.color, (self.x, self.y), self.radius)
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class Brick:
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def __init__(self, x, y, width, height, health, colors):
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self.x = x
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self.y = y
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self.width = width
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self.height = height
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self.health = health
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self.max_health = health
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self.colors = colors
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self.color = colors[0]
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def draw(self, win):
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pygame.draw.rect(
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win, self.color, (self.x, self.y, self.width, self.height))
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def collide(self, ball):
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if not (ball.x <= self.x + self.width and ball.x >= self.x):
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return False
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if not (ball.y - ball.radius <= self.y + self.height):
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return False
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self.hit()
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ball.set_vel(ball.x_vel, ball.y_vel * -1)
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return True
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def hit(self):
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self.health -= 1
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self.color = self.interpolate(
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*self.colors, self.health/self.max_health)
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@staticmethod
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def interpolate(color_a, color_b, t):
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# 'color_a' and 'color_b' are RGB tuples
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# 't' is a value between 0.0 and 1.0
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# this is a naive interpolation
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return tuple(int(a + (b - a) * t) for a, b in zip(color_a, color_b))
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def draw(win, paddle, ball, bricks, lives):
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win.fill("white")
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paddle.draw(win)
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ball.draw(win)
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for brick in bricks:
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brick.draw(win)
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lives_text = LIVES_FONT.render(f"Lives: {lives}", 1, "black")
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win.blit(lives_text, (10, HEIGHT - lives_text.get_height() - 10))
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pygame.display.update()
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def ball_collision(ball):
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if ball.x - BALL_RADIUS <= 0 or ball.x + BALL_RADIUS >= WIDTH:
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ball.set_vel(ball.x_vel * -1, ball.y_vel)
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if ball.y + BALL_RADIUS >= HEIGHT or ball.y - BALL_RADIUS <= 0:
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ball.set_vel(ball.x_vel, ball.y_vel * -1)
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def ball_paddle_collision(ball, paddle):
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if not (ball.x <= paddle.x + paddle.width and ball.x >= paddle.x):
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return
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if not (ball.y + ball.radius >= paddle.y):
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return
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paddle_center = paddle.x + paddle.width/2
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distance_to_center = ball.x - paddle_center
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percent_width = distance_to_center / paddle.width
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angle = percent_width * 90
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angle_radians = math.radians(angle)
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x_vel = math.sin(angle_radians) * ball.VEL
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y_vel = math.cos(angle_radians) * ball.VEL * -1
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ball.set_vel(x_vel, y_vel)
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def generate_bricks(rows, cols):
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gap = 2
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brick_width = WIDTH // cols - gap
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brick_height = 20
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bricks = []
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for row in range(rows):
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for col in range(cols):
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brick = Brick(col * brick_width + gap * col, row * brick_height +
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gap * row, brick_width, brick_height, 2, [(0, 255, 0), (255, 0, 0)])
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bricks.append(brick)
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return bricks
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def main():
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clock = pygame.time.Clock()
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paddle_x = WIDTH/2 - PADDLE_WIDTH/2
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paddle_y = HEIGHT - PADDLE_HEIGHT - 5
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paddle = Paddle(paddle_x, paddle_y, PADDLE_WIDTH, PADDLE_HEIGHT, "black")
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ball = Ball(WIDTH/2, paddle_y - BALL_RADIUS, BALL_RADIUS, "black")
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bricks = generate_bricks(3, 10)
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lives = 3
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def reset():
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paddle.x = paddle_x
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paddle.y = paddle_y
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ball.x = WIDTH/2
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ball.y = paddle_y - BALL_RADIUS
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def display_text(text):
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text_render = LIVES_FONT.render(text, 1, "red")
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win.blit(text_render, (WIDTH/2 - text_render.get_width() /
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2, HEIGHT/2 - text_render.get_height()/2))
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pygame.display.update()
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pygame.time.delay(3000)
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run = True
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while run:
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clock.tick(FPS)
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for event in pygame.event.get():
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if event.type == pygame.QUIT:
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run = False
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break
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keys = pygame.key.get_pressed()
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if keys[pygame.K_LEFT] and paddle.x - paddle.VEL >= 0:
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paddle.move(-1)
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if keys[pygame.K_RIGHT] and paddle.x + paddle.width + paddle.VEL <= WIDTH:
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paddle.move(1)
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ball.move()
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ball_collision(ball)
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ball_paddle_collision(ball, paddle)
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for brick in bricks[:]:
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brick.collide(ball)
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if brick.health <= 0:
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bricks.remove(brick)
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# lives check
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if ball.y + ball.radius >= HEIGHT:
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lives -= 1
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ball.x = paddle.x + paddle.width/2
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ball.y = paddle.y - BALL_RADIUS
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ball.set_vel(0, ball.VEL * -1)
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if lives <= 0:
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bricks = generate_bricks(3, 10)
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lives = 3
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reset()
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display_text("You Lost!")
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if len(bricks) == 0:
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bricks = generate_bricks(3, 10)
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lives = 3
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reset()
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display_text("You Won!")
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draw(win, paddle, ball, bricks, lives)
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pygame.quit()
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quit()
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if __name__ == "__main__":
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main()
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