# python itertools product repeat to big

I'm trying to make a python script to calculate some win/loss chances. to do this i'm trying to get all possible combinations off wins and losses (K is the number of wins needed to win the game):

``````for combination in itertools.product(['W','L'], repeat=(K*2)-1):
if ((combination.count('L') < K) and (combination.count('W') == K)):
#calculate the chance of this situation happening
``````

for some reason this works fine, until the repeat becomes to big (for instance if K=25) Can someone give me some pointers on how to solve this?

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The answer lies in the maths and not the code. –  0xc0de Nov 24 '13 at 12:11

Of course it fails when the repeat becomes large. The loop

``````for combination in itertools.product(['W','L'], repeat=(K*2)-1):
``````

iterates through `2**(K*2-1)` elements, which becomes prohibitively large very quickly. For example, when K=3, the loop executes 32 times, but when K=25 it executes 562949953421312 times.

You should not exhaustively try to enumerate all possible combination. A little bit of mathematics can help you: see Binomial Distribution.

Here is how to use the Binomial Distribution to solve your problem: If chance to win a single game is p, then the chance to lose is 1-p. You want to know what is the probability of winning k out of n games. It is:

``````(n choose k) * p**k (1 - p)**(n - k)
``````

Here `(n choose k)` is the number of combinations that have exactly k wins.

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I got this to work but i'm a little confused by the math. How would i go about doing the same thing if the chance on winning is dependent on the result of the previous? (the chance to win increases if the previous result was also a win) –  user3027128 Nov 24 '13 at 15:00
That's a more difficult problem. You may need to ask on math.stackexchange.com . The distribution will depend on what the dependence is precisely, and it may not have a closed-form solution (meaning, a formula). –  Max Nov 24 '13 at 16:17

The following gives you a clue:

``````>>> for K in range(1,11):
...     n = 0
...     for combination in itertools.product(['W','L'], repeat=(K*2)-1):
...         n+=1
...     print (K,n),
...
(1, 2) (2, 8) (3, 32) (4, 128) (5, 512) (6, 2048) (7, 8192) (8, 32768) (9, 131072) (10, 524288)
>>>
``````

So you are going to have to wait a long time for a result at K=25. maybe it is time to work out your probability rather than simply calculating it!

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