C语言实战：用Pygame打造高难度水果消消乐游戏

水果消消乐 - 困难模式

以下是一个基于Python和Pygame的水果消消乐游戏实现，包含困难模式的特点：

import pygame
import random
import sys
from pygame.locals import *# 初始化
pygame.init()
pygame.mixer.init()# 游戏常量
FPS = 60
WINDOW_WIDTH = 800
WINDOW_HEIGHT = 600
GRID_SIZE = 8
CELL_SIZE = 60
GRID_OFFSET_X = (WINDOW_WIDTH - GRID_SIZE * CELL_SIZE) // 2
GRID_OFFSET_Y = (WINDOW_HEIGHT - GRID_SIZE * CELL_SIZE) // 2 + 20# 颜色
WHITE = (255, 255, 255)
BLACK = (0, 0, 0)
BACKGROUND_COLOR = (230, 230, 250)
GRID_COLOR = (200, 200, 220)# 水果类型
FRUITS = ['apple', 'banana', 'orange', 'pear', 'watermelon', 'strawberry', 'grape']
FRUIT_COLORS = {'apple': (255, 50, 50),'banana': (255, 255, 100),'orange': (255, 165, 0),'pear': (150, 255, 150),'watermelon': (100, 200, 100),'strawberry': (255, 100, 150),'grape': (150, 50, 200)
}# 困难模式设置
TIME_LIMIT = 90  # 90秒时间限制
MOVE_LIMIT = 25  # 25步限制
TARGET_SCORE = 2000  # 目标分数class Fruit:def __init__(self, x, y, type):self.x = xself.y = yself.type = typeself.color = FRUIT_COLORS[type]self.selected = Falseself.scale = 1.0self.scale_direction = 1def draw(self, surface):rect = pygame.Rect(GRID_OFFSET_X + self.x * CELL_SIZE + 5,GRID_OFFSET_Y + self.y * CELL_SIZE + 5,CELL_SIZE - 10,CELL_SIZE - 10)if self.selected:pygame.draw.rect(surface, WHITE, rect, 3)# 绘制水果（简化版，实际游戏可以用图片）pygame.draw.ellipse(surface, self.color, rect)# 水果动画效果if self.scale < 0.95 or self.scale > 1.05:self.scale_direction *= -1self.scale += 0.005 * self.scale_directionclass Game:def __init__(self):self.clock = pygame.time.Clock()self.screen = pygame.display.set_mode((WINDOW_WIDTH, WINDOW_HEIGHT))pygame.display.set_caption('水果消消乐 - 困难模式')self.font = pygame.font.SysFont('Arial', 24)self.big_font = pygame.font.SysFont('Arial', 48)self.grid = [[None for _ in range(GRID_SIZE)] for _ in range(GRID_SIZE)]self.selected = Noneself.score = 0self.time_left = TIME_LIMITself.moves_left = MOVE_LIMITself.game_over = Falseself.win = Falseself.last_time = pygame.time.get_ticks()# 初始化网格self.initialize_grid()def initialize_grid(self):# 确保初始网格没有匹配项while True:for y in range(GRID_SIZE):for x in range(GRID_SIZE):self.grid[y][x] = Fruit(x, y, random.choice(FRUITS))if not self.check_matches(False):breakdef draw(self):self.screen.fill(BACKGROUND_COLOR)# 绘制网格背景for y in range(GRID_SIZE):for x in range(GRID_SIZE):rect = pygame.Rect(GRID_OFFSET_X + x * CELL_SIZE,GRID_OFFSET_Y + y * CELL_SIZE,CELL_SIZE,CELL_SIZE)pygame.draw.rect(self.screen, GRID_COLOR, rect, 1)# 绘制水果for row in self.grid:for fruit in row:if fruit:fruit.draw(self.screen)# 绘制游戏信息score_text = self.font.render(f'分数: {self.score}', True, BLACK)time_text = self.font.render(f'时间: {int(self.time_left)}秒', True, BLACK)moves_text = self.font.render(f'剩余步数: {self.moves_left}', True, BLACK)target_text = self.font.render(f'目标: {TARGET_SCORE}', True, BLACK)self.screen.blit(score_text, (20, 20))self.screen.blit(time_text, (20, 50))self.screen.blit(moves_text, (20, 80))self.screen.blit(target_text, (20, 110))# 游戏结束提示if self.game_over:if self.win:text = self.big_font.render('恭喜获胜!', True, (0, 200, 0))else:text = self.big_font.render('游戏结束!', True, (200, 0, 0))text_rect = text.get_rect(center=(WINDOW_WIDTH//2, WINDOW_HEIGHT//2))self.screen.blit(text, text_rect)restart_text = self.font.render('按R键重新开始', True, BLACK)restart_rect = restart_text.get_rect(center=(WINDOW_WIDTH//2, WINDOW_HEIGHT//2 + 50))self.screen.blit(restart_text, restart_rect)pygame.display.flip()def handle_events(self):for event in pygame.event.get():if event.type == QUIT:pygame.quit()sys.exit()if event.type == KEYDOWN:if event.key == K_r and self.game_over:self.__init__()  # 重置游戏if not self.game_over and event.type == MOUSEBUTTONDOWN:x, y = event.posgrid_x = (x - GRID_OFFSET_X) // CELL_SIZEgrid_y = (y - GRID_OFFSET_Y) // CELL_SIZEif 0 <= grid_x < GRID_SIZE and 0 <= grid_y < GRID_SIZE:if self.selected is None:self.selected = (grid_x, grid_y)self.grid[grid_y][grid_x].selected = Trueelse:prev_x, prev_y = self.selected# 检查是否是相邻的格子if ((abs(grid_x - prev_x) == 1 and grid_y == prev_y) or (abs(grid_y - prev_y) == 1 and grid_x == prev_x)):# 交换水果self.swap_fruits(prev_x, prev_y, grid_x, grid_y)# 检查是否有匹配matches = self.check_matches()if not matches:# 如果没有匹配，交换回来self.swap_fruits(prev_x, prev_y, grid_x, grid_y)else:# 减少步数self.moves_left -= 1# 取消选择self.grid[prev_y][prev_x].selected = Falseself.selected = Nonedef swap_fruits(self, x1, y1, x2, y2):self.grid[y1][x1].x, self.grid[y2][x2].x = self.grid[y2][x2].x, self.grid[y1][x1].xself.grid[y1][x1].y, self.grid[y2][x2].y = self.grid[y2][x2].y, self.grid[y1][x1].yself.grid[y1][x1], self.grid[y2][x2] = self.grid[y2][x2], self.grid[y1][x1]def check_matches(self, remove=True):matches = []# 检查水平匹配for y in range(GRID_SIZE):for x in range(GRID_SIZE - 2):if (self.grid[y][x] and self.grid[y][x+1] and self.grid[y][x+2] andself.grid[y][x].type == self.grid[y][x+1].type == self.grid[y][x+2].type):match = [(x, y), (x+1, y), (x+2, y)]# 检查更长的匹配for i in range(x+3, GRID_SIZE):if self.grid[y][i] and self.grid[y][i].type == self.grid[y][x].type:match.append((i, y))else:breakmatches.append(match)# 检查垂直匹配for x in range(GRID_SIZE):for y in range(GRID_SIZE - 2):if (self.grid[y][x] and self.grid[y+1][x] and self.grid[y+2][x] andself.grid[y][x].type == self.grid[y+1][x].type == self.grid[y+2][x].type):match = [(x, y), (x, y+1), (x, y+2)]# 检查更长的匹配for i in range(y+3, GRID_SIZE):if self.grid[i][x] and self.grid[i][x].type == self.grid[y][x].type:match.append((x, i))else:breakmatches.append(match)if remove and matches:# 移除匹配的水果并计算分数removed = set()for match in matches:for x, y in match:if (x, y) not in removed:removed.add((x, y))self.score += 10 * len(match)  # 匹配越长分数越高# 移除水果并填充新水果for x, y in sorted(removed, key=lambda pos: pos[1]):# 从上方掉落水果for dy in range(y, 0, -1):self.grid[dy][x] = self.grid[dy-1][x]if self.grid[dy][x]:self.grid[dy][x].y = dy# 顶部添加新水果self.grid[0][x] = Fruit(x, 0, random.choice(FRUITS))# 递归检查新的匹配self.check_matches()return len(matches) > 0def update(self):if self.game_over:return# 更新时间current_time = pygame.time.get_ticks()if current_time - self.last_time > 1000:  # 每秒更新一次self.time_left -= 1self.last_time = current_time# 检查游戏结束条件if self.time_left <= 0 or self.moves_left <= 0:self.game_over = Trueself.win = self.score >= TARGET_SCOREif self.score >= TARGET_SCORE:self.game_over = Trueself.win = Truedef run(self):while True:self.handle_events()self.update()self.draw()self.clock.tick(FPS)if __name__ == '__main__':game = Game()game.run()

困难模式特点

1. 时间限制：玩家只有90秒时间来完成游戏

2. 步数限制：最多只能进行25步操作

3. 高目标分数：需要达到2000分才能获胜

4. 连锁反应：消除水果后会自动检查新的匹配，增加了策略性

5. 惩罚机制：无效的交换不会消耗步数，但有效的交换会减少剩余步数

如何运行

1. 确保安装了Python和Pygame库（pip install pygame）

2. 复制上面的代码到一个.py文件中

3. 运行该文件

游戏操作说明

1. 点击一个水果选中它（会显示白色边框）

2. 点击相邻的水果进行交换

3. 如果交换后形成3个或更多相同水果的直线，它们会被消除并获得分数

4. 无效的交换会自动回退

5. 游戏目标是在限时和限步数内达到目标分数