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+#利用蒙特卡洛模拟赌徒概率
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+
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+'''
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+sum : 一次模拟中累计的资金数,刚开始模拟时则是启动资金数
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+bet:每次下注的金额(赢了则获得同等数量金额,输了则失去同等数量金额)
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+target:期望账户累计到多少金额就不玩了,默认账户为0就不玩了
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+trials: 模拟的次数
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+
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+期望结果:
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+在模拟次数中,胜出的比例是多少。
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+每次胜出,用了多少次,平均数/最大数/最小数/中位数如何
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+
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+'''
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+import random
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+import optparse
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+
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+def gambler(sum_start,bet,target,trials):
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+
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+ win_trial = []
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+
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+ for t in range(trials):
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+ _sum = sum_start
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+
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+ times = 0
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+ times_win = 0
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+ while _sum >0 and _sum <target:
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+ result = bet if random.randrange(0,2)>0 else -bet
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+ _sum += result
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+ times+=1
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+
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+ if _sum >= target:
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+ win_trial.append((times,_sum))
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+
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+
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+
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+ print('total {0} times win, ratio is {1}'.format(len(win_trial),len(win_trial)/trials))
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+
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+ l1 = [t for t,s in win_trial] #获得所有胜出模拟中,投注的次数
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+ average = int(sum(l1)/len(l1)) #获得平均胜出投注次数
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+ max_num = max(l1)
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+ min_num = min(l1)
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+ mid_num = l1[int(len(l1)/2)] if (len(l1)/2)%2 == 1 else (l1[int(len(l1)/2)] + l1[int(len(l1)/2)-1])/2
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+
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+ print('average is {0}, max_num is {1},min_num is {2},mid_num is {3}'.format(average,max_num,min_num,mid_num))
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+
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+
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+def main():
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+ parser = optparse.OptionParser("""\
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+usage: %prog [options] infile outfile
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+
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+simulate the gamble result: how many times you will win, what's the possibility,
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+average, max, min & middle number of bets""")
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+
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+ parser.add_option("-b", "--bet", dest="bet",
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+ help=("input the sum_start,bet,target,trials"))
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+ opts, args = parser.parse_args()
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+
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+ sum_start,bet,target,trials = opts.bet.split(',')
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+
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+
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+ gambler(int(sum_start),int(bet),int(target),int(trials))
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+
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+main()
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