python实现2048小游戏_Python

2048的python实现。修改自某网友的代码，解决了原网友版本的两个小bug：

1. 原版游戏每次只消除一次，而不是递归消除。如 [2 ,2 ,2 ,2] 左移动的话应该是 [4, 4, 0, 0] , 而不是[8 , 0 , 0 ,0]
2. 对游戏结束的侦测有bug，已经改正。

2048game.py

				?

									# -*- coding: utf-8 -*-

									"""

									Created on Tue Jul 1 14:15:39 2014

									@author: kelvin

									"""

									import random

									class game2048:

									 totalScore = 0

									 v = [[2, 8, 8, 2],

									   [4, 2, 4, 8],

									   [2, 4, 2, 0],

									   [4, 2, 4, 0]]

									 '''

									 v = [[0, 0, 0, 0],

									   [0, 0, 0, 0],

									   [0, 0, 0, 0],

									   [0, 0, 0, 0]]

									 '''

									 def __init__(self):

									  for i in range(4):

									   self.v[i] = [random.choice([0,0,0,2,2,4]) for x in range(4)]

									 def display(self):

									  print('{0:4} {1:4} {2:4} {3:4}'.format(self.v[0][0], self.v[0][1], self.v[0][2], self.v[0][3]))

									  print('{0:4} {1:4} {2:4} {3:4}'.format(self.v[1][0], self.v[1][1], self.v[1][2], self.v[1][3]))

									  print('{0:4} {1:4} {2:4} {3:4}'.format(self.v[2][0], self.v[2][1], self.v[2][2], self.v[2][3]))

									  print('{0:4} {1:4} {2:4} {3:4}'.format(self.v[3][0], self.v[3][1], self.v[3][2], self.v[3][3]))

									  print('得分为:{0:4}'.format(self.totalScore))

									  print('游戏是否结束:{0:4}'.format(self.isOver()))

									 #重新排列

									 def align(self,vList, direction):

									  for i in range(vList.count(0)):

									   vList.remove(0)

									  zeros = [0 for x in range(4-len(vList))]

									  if direction == 'left':

									   vList.extend(zeros)

									  else:

									   vList[:0] = zeros

									 #将相同的元素相加，返回新增积分

									 def addSame(self,vList, direction):

									  increment=0

									  if direction == 'left':

									   for i in [0,1,2]:

									    if vList[i]==vList[i+1] and vList[i+1]!=0:

									     vList[i] *= 2

									     vList[i+1] = 0

									     increment += vList[i]

									  else:

									   for i in [3,2,1]:

									    if vList[i]==vList[i-1] and vList[i-1]!=0:

									     vList[i] *= 2

									     vList[i-1] = 0

									     increment += vList[i]

									  return increment

									 #处理行和方向,返回新增积分

									 def handle(self, vList, direction):

									  self.align(vList, direction)

									  increment = self.addSame(vList, direction)

									  self.align(vList, direction)

									  self.totalScore += increment #直接加到总值

									  return increment

									 #判断游戏是否结束

									 def judge(self):

									  if self.isOver():

									   print('你输了，游戏结束!')

									   return False

									  else:

									   if self.totalScore >= 2048:

									    print('你赢了，游戏结束！但是你还可以继续玩。')

									   return True

									 #判断游戏是否真正结束

									 def isOver(self):

									  N = self.calcCharNumber(0)

									  if N!=0:

									   return False

									  else:

									   for row in range(4):

									    flag = self.isListOver(self.v[row])

									    if flag==False:

									     return False

									   for col in range(4):

									    # 将矩阵中一列复制到一个列表中然后处理

									    vList = [self.v[row][col] for row in range(4)]

									    flag = self.isListOver(vList)

									    if flag==False:

									     return False

									  return True

									 #判断一个列表是否还可以合并

									 def isListOver(self, vList):

									  for i in [0,1,2]:

									   if vList[i]==vList[i+1] and vList[i+1]!=0:

									    return False

									  return True

									 def calcCharNumber(self, char):

									  n = 0

									  for q in self.v:

									   n += q.count(char)

									  return n

									 def addElement(self):

									  # 统计空白区域数目 N

									  N = self.calcCharNumber(0)

									  if N!=0:

									   # 按2和4出现的几率为3/1来产生随机数2和4

									   num = random.choice([2, 2, 2, 4]) 

									   # 产生随机数k，上一步产生的2或4将被填到第k个空白区域

									   k = random.randrange(1, N+1) #k的范围为[1,N]

									   n = 0

									   for i in range(4):

									    for j in range(4):

									     if self.v[i][j] == 0:

									      n += 1

									      if n == k:

									       self.v[i][j] = num

									       return

									 def moveLeft(self):

									  self.moveHorizontal('left')

									 def moveRight(self):

									  self.moveHorizontal('right')

									 def moveHorizontal(self, direction):

									  for row in range(4):

									   self.handle(self.v[row], direction)

									 def moveUp(self):

									  self.moveVertical('left')

									 def moveDown(self):

									  self.moveVertical('right')

									 def moveVertical(self, direction):

									  for col in range(4):

									   # 将矩阵中一列复制到一个列表中然后处理

									   vList = [self.v[row][col] for row in range(4)]

									   self.handle(vList, direction)

									   # 从处理后的列表中的数字覆盖原来矩阵中的值

									   for row in range(4):

									    self.v[row][col] = vList[row]

									 #主要的处理函数

									 def operation(self):

									  op = input('operator:')

									  if op in ['a', 'A']: # 向左移动

									   self.moveLeft()

									   self.addElement()

									  elif op in ['d', 'D']: # 向右移动

									   self.moveRight()

									   self.addElement()

									  elif op in ['w', 'W']: # 向上移动

									   self.moveUp()

									   self.addElement()

									  elif op in ['s', 'S']: # 向下移动

									   self.moveDown()

									   self.addElement()

									  else:

									   print('错误的输入。请输入 [W, S, A, D] 或者是其小写') 

									#开始

									print('输入：W(上移) S(下移) A(左移) D(右移), press <CR>.')

									g =game2048()

									flag = True

									while True:

									 g.display()

									 flag = g.judge()

									 g.operation()

									 flag = g.judge()