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+#扫雷游戏。 m*n 矩阵中,不规律分布有雷"*", 每个没雷的单元格有数字显示,该单元格周围8个单元格的雷的总和。
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+
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+'''
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+逻辑流程:
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+1) 生成含雷,和数字标识的矩阵
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+2)进入游戏模式:
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+ 请用户输入坐标,以及行为(点开,标雷)
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+ 动作如果是点开,返回坐标结果:是雷,则显示是雷,且已爆炸;不是雷,则返回数字结果。返回矩阵
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+ 动作如果是标雷,则返回标雷后的矩阵
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+ 动作如果是退出,则退出游戏
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+
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+-----------------------------------------------------------
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+如何使用:
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+
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+在包含本文件的目录下,命令行输入: python3 mindsweeper.py
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+'''
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+
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+
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+import random
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+
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+def creat2D(row,line,value = 0):
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+ assert isinstance(row,int),'row number must be int'
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+ assert isinstance(line,int),'line number must be int'
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+
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+ array= []
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+ array_line=[]
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+
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+ array = [None] * row
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+ for index in range(row):
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+ array[index] = [value]*line
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+
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+ return array
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+
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+class mine_matrix():
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+ def __init__(self,m,n):
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+ # print("------this is init-------")
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+ self.matrix = creat2D(m,n)
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+ self.m = int(m)
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+ self.n = int(n)
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+ self.mine_location = []
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+ self.mine_number = 0
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+ self.matrix_known = creat2D(m,n,value = 9)
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+ self.mark_record = []
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+
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+
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+ def create_new(self):
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+ # print('------this is create_new-------')
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+ # m,n = input('please input (line,row):').split(',')
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+
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+
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+ mine_number = int(self.m*self.n/6)
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+ self.mine_number = mine_number
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+ location = [(x,y) for y in range(self.n)for x in range(self.m)]
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+ location1 = location
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+ for i in range(mine_number):
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+ location_number = random.randrange(len(location1))
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+ mine_location=location1[location_number]
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+
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+ self.matrix[mine_location[0]][mine_location[1]] = 'mine'
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+ location1.pop(location_number)
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+ self.mine_location.append(mine_location)
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+
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+ for i in range(self.m):
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+ for j in range(self.n):
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+ i1_list = [i-1,i,i+1 ] if (i>0 and i <self.m-1) else ([i,i+1] if i == 0 else [i-1,i])
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+ j1_list = [j-1,j,j+1 ] if (j>0 and j <self.n-1) else ([j,j+1] if j == 0 else [j-1,j])
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+
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+ if self.matrix[i][j]!='mine':
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+ for i1 in i1_list:
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+ for j1 in j1_list:
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+ if i1 == i and j1 == j:
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+ pass
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+ else:
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+
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+ self.matrix[i][j] +=1 if self.matrix[i1][j1]=='mine' else 0
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+
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+
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+ return self.matrix
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+
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+ def check(self,i,j):
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+ # print('-------this is check--------')
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+ if self.matrix[i][j] == 'mine':
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+ for line in self.matrix:
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+ print(line)
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+ print('you got bombed!')
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+ return False
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+ else:
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+ return True
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+
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+ def mark(self,i,j):
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+ return 'm'
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+
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+ def win(self):
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+ # print('--------this is win----------')
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+ if len(self.mark_record) == self.mine_number:
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+
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+ self.mine_location.sort(key = lambda x:x[0])
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+ self.mark_record.sort(key = lambda x:x[0])
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+ if self.mine_location == self.mark_record:
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+ return True
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+ else:
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+ return False
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+ else:
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+ return False
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+
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+ def print_matrix(self):
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+ # print('------this is print_matrix--------')
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+ for line in self.matrix:
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+ print(line)
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+
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+ def print_known(self):
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+ # print('------this is print_known-------')
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+ for line in self.matrix_known:
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+ print(line)
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+
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+ def operation(self,m,n,i,j,operation):
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+ # print('------operation-------')
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+ if operation == 'c':
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+ if not self.check(i,j):
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+ if not self.choice(m,n):
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+
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+ return False
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+ else:
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+ return True
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+ else:
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+ self.matrixknown(i,j)
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+ return True
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+
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+ if operation == 'm':
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+ self.matrix_known[i][j] = 'm'
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+ self.mark_record.append((i,j))
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+ return True
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+
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+
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+ def matrixknown(self,i,j):
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+ # print('-----matrixknown------')
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+ self.matrix_known[i][j] =self.matrix[i][j]
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+ # print('matrix_know[{0}][{1}] is {2}'.format(i,j,self.matrix_known[i][j]))
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+ # print('matrix[{0}][{1}] is {2}'.format(i,j,self.matrix[i][j]))
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+
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+
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+
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+
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+ def choice(self,m,n):
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+ # print('-----choice------')
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+ new_choice = input('would you want to start a new game(n) or to quit(q)?')
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+
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+ if new_choice == 'n':
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+ print('start a new game with the same scale')
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+ self.__init__(m,n)
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+ self.create_new()
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+ return True
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+
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+
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+
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+ else:
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+ return False
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+
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+def new_choice(m,n):
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+ new_choice = input('would you want to start a new game(n) or to quit(q)?')
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+
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+ if new_choice == 'n':
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+ print('start a new game with the same scale')
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+ mine1 = mine_matrix(m,n)
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+
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+
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+ return mine1
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+
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+ else:
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+ return False
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+
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+def main():
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+ m = int(input('please input m:'))
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+ n = int(input('please input n:'))
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+
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+ mine1 = mine_matrix(m,n)
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+ mine1.create_new()
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+
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+
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+ while True:
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+ if mine1.win():
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+ print('you win!')
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+ for line in mine1.matrix:
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+ print (line)
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+
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+
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+ mine1 = new_choice(m,n)
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+ mine1.create_new()
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+ if not mine1:
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+ break
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+
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+ mine1.print_known()
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+
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+ choice= input('please input(i,j,[c]heck/[m]ark),or input "q" to quit:')
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+
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+ if choice == 'q':
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+ print('you chose to quit the game')
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+ break
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+ else:
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+ i,j,operation = choice.split(',')
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+ i = int(i)
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+ j = int(j)
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+ op_result = mine1.operation(m,n,i,j,operation)
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+ # print('op_result is {0}'.format(op_result))
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+ if not op_result:
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+ break
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+
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+
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+
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+
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+
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+
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+main()
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