python pygame实现2048游戏
作者:bbappyuanyuan
这篇文章主要为大家详细介绍了python pygame实现2048游戏,具有一定的参考价值,感兴趣的小伙伴们可以参考一下
实现2048相对来说比较简单,用4*4的二维数组保存地图,pygame.key.get_pressed()获取键盘操作,详见代码。
效果图
代码
# -*- coding: utf-8 -*- #!/usr/bin/python ''' Created on May 31, 2014 @author: yuanzi ''' import random import sys import pygame from pygame.locals import * PIXEL = 150 SCORE_PIXEL = 100 SIZE = 4 # 地图的类 class Map: def __init__(self, size): self.size = size self.score = 0 self.map = [[0 for i in range(size)] for i in range(size)] self.add() self.add() # 新增2或4,有1/4概率产生4 def add(self): while True: p = random.randint(0, self.size * self.size - 1) if self.map[p / self.size][p % self.size] == 0: x = random.randint(0, 3) > 0 and 2 or 4 self.map[p / self.size][p % self.size] = x self.score += x break # 地图向左靠拢,其他方向的靠拢可以通过适当旋转实现,返回地图是否更新 def adjust(self): changed = False for a in self.map: b = [] last = 0 for v in a: if v != 0: if v == last: b.append(b.pop() << 1) last = 0 else: b.append(v) last = v b += [0] * (self.size - len(b)) for i in range(self.size): if a[i] != b[i]: changed = True a[ : ] = b return changed # 逆时针旋转地图90度 def rotate90(self): self.map = [[self.map[c][r] for c in range(self.size)] for r in reversed(range(self.size))] # 判断游戏结束 def over(self): for r in range(self.size): for c in range(self.size): if self.map[r][c] == 0: return False for r in range(self.size): for c in range(self.size - 1): if self.map[r][c] == self.map[r][c + 1]: return False for r in range(self.size - 1): for c in range(self.size): if self.map[r][c] == self.map[r + 1][c]: return False return True def moveUp(self): self.rotate90() if self.adjust(): self.add() self.rotate90() self.rotate90() self.rotate90() def moveRight(self): self.rotate90() self.rotate90() if self.adjust(): self.add() self.rotate90() self.rotate90() def moveDown(self): self.rotate90() self.rotate90() self.rotate90() if self.adjust(): self.add() self.rotate90() def moveLeft(self): if self.adjust(): self.add() # 更新屏幕 def show(map): for i in range(SIZE): for j in range(SIZE): # 背景颜色块 screen.blit(map.map[i][j] == 0 and block[(i + j) % 2] or block[2 + (i + j) % 2], (PIXEL * j, PIXEL * i)) # 数值显示 if map.map[i][j] != 0: map_text = map_font.render(str(map.map[i][j]), True, (106, 90, 205)) text_rect = map_text.get_rect() text_rect.center = (PIXEL * j + PIXEL / 2, PIXEL * i + PIXEL / 2) screen.blit(map_text, text_rect) # 分数显示 screen.blit(score_block, (0, PIXEL * SIZE)) score_text = score_font.render((map.over() and "Game over with score " or "Score: ") + str(map.score), True, (106, 90, 205)) score_rect = score_text.get_rect() score_rect.center = (PIXEL * SIZE / 2, PIXEL * SIZE + SCORE_PIXEL / 2) screen.blit(score_text, score_rect) pygame.display.update() map = Map(SIZE) pygame.init() screen = pygame.display.set_mode((PIXEL * SIZE, PIXEL * SIZE + SCORE_PIXEL)) pygame.display.set_caption("2048") block = [pygame.Surface((PIXEL, PIXEL)) for i in range(4)] # 设置颜色 block[0].fill((152, 251, 152)) block[1].fill((240, 255, 255)) block[2].fill((0, 255, 127)) block[3].fill((225, 255, 255)) score_block = pygame.Surface((PIXEL * SIZE, SCORE_PIXEL)) score_block.fill((245, 245, 245)) # 设置字体 map_font = pygame.font.Font(None, PIXEL * 2 / 3) score_font = pygame.font.Font(None, SCORE_PIXEL * 2 / 3) clock = pygame.time.Clock() show(map) while not map.over(): # 12为实验参数 clock.tick(12) for event in pygame.event.get(): if event.type == QUIT: sys.exit() # 接收玩家操作 pressed_keys = pygame.key.get_pressed() if pressed_keys[K_w] or pressed_keys[K_UP]: map.moveUp() elif pressed_keys[K_s] or pressed_keys[K_DOWN]: map.moveDown() elif pressed_keys[K_a] or pressed_keys[K_LEFT]: map.moveLeft() elif pressed_keys[K_d] or pressed_keys[K_RIGHT]: map.moveRight() show(map) # 游戏结束 pygame.time.delay(3000)
后续可以考虑实现动画和AI。
以上就是本文的全部内容,希望对大家的学习有所帮助,也希望大家多多支持脚本之家。