def off_screen(self): return self.x + COIN_SIZE < 0 def show_score(score, surf): text = font.render(f"Score: score", True, BLACK) surf.blit(text, (10, 10))
show_score(score, screen) show_coins(total_coins, screen)
def draw(self, surf): pygame.draw.circle(surf, YELLOW, (self.rect.centerx, self.rect.centery), COIN_SIZE//2) pygame.draw.circle(surf, BLACK, (self.rect.centerx, self.rect.centery), COIN_SIZE//2, 2) Subway Surfers For Linux
for obs in obstacles: obs.draw(screen) for coin in coins: coin.draw(screen) player.draw(screen)
def move_down(self): if self.track < TRACK_COUNT - 1: self.track += 1 self.update_rect() def off_screen(self): return self
def draw(self, surf): pygame.draw.rect(surf, BLUE, self.rect) pygame.draw.rect(surf, BLACK, self.rect, 3) class Obstacle: def (self, track, x): self.track = track self.x = x self.rect = pygame.Rect(x, TRACK_Y[track], OBSTACLE_WIDTH, OBSTACLE_HEIGHT)
class Player: def (self): self.x = 100 self.track = 1 # 0,1,2 self.rect = pygame.Rect(self.x, TRACK_Y[self.track], PLAYER_WIDTH, PLAYER_HEIGHT) 0 def show_score(score
# Spawn obstacles if frame % random.randint(40, 70) == 0: track = random.randint(0, 2) obstacles.append(Obstacle(track, WIDTH))
# Spawn coins (more frequent than obstacles) if frame % random.randint(25, 45) == 0: track = random.randint(0, 2) coins.append(Coin(track, WIDTH))
def move_up(self): if self.track > 0: self.track -= 1 self.update_rect()
# Update obstacles for obs in obstacles[:]: obs.update(speed) if obs.off_screen(): obstacles.remove(obs) # Collision detection if player.rect.colliderect(obs.rect) and player.track == obs.track: running = game_over_screen(score, total_coins) if running: # Reset game player = Player() obstacles.clear() coins.clear() score = 0 total_coins = 0 speed = base_speed frame = 0 else: return