Python实现比较扑克牌大小程序代码示例

是Udacity课程的第一个项目。

先从宏观把握一下思路,目的是做一个比较德州扑克大小的问题

首先,先抽象出一个处理的函数,它根据返回值的大小给出结果。

之后我们在定义如何比较两个或者多个手牌的大小,为方便比较大小,我们先对5张牌进行预处理,将其按照降序排序,如下:

def card_ranks(hand):

ranks = ['--23456789TJQKA'.INDEX(r) for r, s in hand]

ranks.sort(reverse=True)

return ranks

然后我们可以枚举出一共有9种情况,并用数字代表每一种情况的等级,利用Python的比较功能,将等级放在第一位,如果等级相同,那么再比较后面的。

def hand_rank(hand):

"Return a value indicating the ranking of a hand."

ranks = card_ranks(hand)

if straight(ranks) and flush(hand):

return (8, max(ranks))

elif kind(4, ranks):

return (7, kind(4, ranks), kind(1, ranks))

elif kind(3, ranks) and kind(2, ranks):

return (6, kind(3, ranks), kind(2, ranks))

elif flush(hand):

return (5, ranks)

elif straight(ranks):

return (4, max(ranks))

elif kind(3, ranks):

return (3, kind(3, ranks), ranks)

elif two_pair(ranks):

return (2, two_pair(ranks), ranks)

elif kind(2, ranks):

return (1, kind(2, ranks), ranks)

else:

return (0, ranks)

可以看到,如果等级相同,接下来比较的是每套牌中牌的大小了。同时我们需要三个函数,代表同花,顺子,以及kind(n, ranks),代表ranks有n张牌的点数。这里的三个函数实现非常巧妙,利用了set去重的特性。

def straight(ranks):

return (max(ranks) - min(ranks)) == 4 and len(set(ranks)) == 5

def flush(hand):

suit = [s, for r, s in hand]

return len(set(suit)) == 1

def kind(n, ranks):

for s in ranks:

if ranks.count(s) == n : return s

return None

我们发现,有一种情况是含有两个对,于是需要一个函数来判断是否是这种情况,这个函数中调用了kind()函数,由于kind()函数满足短路特性,只会返回先得到的满足情况的点数,于是将其翻转后,在调用一边kind,若得到的结果相同,那么就只有一个对(或者没有),否则就有两个。

def two_pairs(ranks):

pair = kind(2, ranks)

lowpair = kind(2, list(reverse(ranks)))

if pair != lowpair:

return (pair, lowpair)

else:

return None

好了,整体的骨架算是搭完了,接下来处理会产生bug的情况,首先是A2345,当排序时由于A被算作14,所以针对这个问题需要单独列一个if

处理A是最低:

def card_ranks(hand):

ranks = ['--23456789TJQKA'.INDEX(r) for r, s in hand]

ranks.sort(reverse=True)

return [5, 4, 3, 2, 1] if (ranks = [14, 5, 4, 3, 2] else ranks

之后就是进一步的简化了,思路挺好的

def poker(hands):

return allmax(hands, key=hand_ranks)

def allmax(iterable, key=None):

result, maxval = [], None

ket = key or lambda(x): x

for x in iterable:

xval = key(x)

if not result or xval > maxval:

result, maxval = [x], xval

elif:

result.append(x)

return result

"""大于就取代,等于就加入,小于不作处理"""

import random

mydeck = [r+s for r in '23456789TJKQA' for s in'SHDC]

def deal(numhands, n=5, deck = [r+s for r in '23456789TJKQA' for s in'SHDC]):

random.shuffle(deck)

return [deck[n*i:n*(i + 1)] for i in range(numhands)]

def hand_ranks(hand):

groups = group['--23456789TJQKA'.index(r) for r, s in hand]

counts, ranks = unzip(groups)

if rnaks == (14, 5, 4, 3, 2, 1):

ransk = (5, 4, 3, 2, 1)

straight = len(ranks) == 5 and max(ranks) - min(ranks) == 4

flush = len(set([s for r, s in hand])) ==1

return(9 if (5,) == count else

8 if straight and flush else

7 if (4, 1) == counts else

6 if (3, 2) == counts else

5 if flush else

4 if straight else

3 if (3, 1, 1) == counts else

2 if (5, 1, 1) == counts else

1 if (2, 1, 1, 1) == counts else

0), ranks

def group(items):

groups = [(items.count(x), x) for x in set(items)]

return sorted(groups, reverse = True)

def unzips(pairs):return zip(*pairs)

def hand_ranks(hand):

groups = group['--23456789TJQKA'.index(r) for r, s in hand]

counts, ranks = unzip(groups)

if rnaks == (14, 5, 4, 3, 2, 1):

ransk = (5, 4, 3, 2, 1)

straight = len(ranks) == 5 and max(ranks) - min(ranks) == 4

flush = len(set([s for r, s in hand])) ==1

return max(count_ranks[counts], 4*straight + 5 * flush), ranks

count_rankings = {(5,):10, (4, 1):7, (3,2):6, (3,1,1):3, (2,2,1):2,

(2,1,1,1): 1,(1,1,1,1,1):0}

总结下,面对一个问题的思维步骤:

started:understand problems look at specification See if it make sense

define the piece of problem reuse the piece you have test! >explore

最后是是的程序在各个方面达到均衡

correctness elegance efficienct featrues

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