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Given a string, I want to generate all possible combinations. In other words, all possible ways of putting a comma somewhere in the string.

For example:

input:  ["abcd"]
output: ["abcd"]

I am a bit stuck on how to generate all the possible lists. Combinations will just give me lists with length of subset of the set of strings, permutations will give all possible ways to order.

I can make all the cases with only one comma in the list because of iterating through the slices, but I can't make cases with two commas like "ab","c","d" and "a","b","cd"

My attempt w/slice:


for x in range(len(test)):
     print test[:x],test[x:]
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a while loop with max number of commas equal to array.length - 1 , would be where i'd start, and then once you have all the possible combinations of that , which is just a comma between each letter, then have another while loop with array.length - 2, and then so on –  iStimple Dec 24 '13 at 4:30
to the itertools commenter, what page? i'm looking through this docs.python.org/2/library/itertools.html but maybe this is the incorrect one to be searching through –  Noob Coder Dec 24 '13 at 4:35
There are 2^(n-1) possibilities (you missed ['a', 'bc', 'd'] in your example) because at each point in between letters, you could either split the string or not. –  Karl Knechtel Dec 24 '13 at 4:36

5 Answers 5

up vote 15 down vote accepted

How about something like:

from itertools import combinations

def all_splits(s):
    for numsplits in range(len(s)):
        for c in combinations(range(1,len(s)), numsplits):
            split = [s[i:j] for i,j in zip((0,)+c, c+(None,))]
            yield split

after which:

>>> for x in all_splits("abcd"):
...     print(x)
['a', 'bcd']
['ab', 'cd']
['abc', 'd']
['a', 'b', 'cd']
['a', 'bc', 'd']
['ab', 'c', 'd']
['a', 'b', 'c', 'd']
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+1 Why don't you simply yield it, instead of storing it in split? –  thefourtheye Dec 24 '13 at 4:45
@thefourtheye: only 'cause I tend to work line by line, and I didn't realize I was deep enough to yield at the time. :^) You're right, of course, there's no need to bind a local to it. –  DSM Dec 24 '13 at 4:47
its crazy to me how much is going on in this line: split = [s[i:j] for i,j in zip((0,)+c, c+(None,))], but i finally got it! –  Noob Coder Dec 24 '13 at 5:08
@NoobCoder: yeah, that idiom is useful for taking a bunch of split locations and generating the corresponding sequences. –  DSM Dec 24 '13 at 5:14

You can certainly use itertools for this, but I think it's easier to write a recursive generator directly:

def gen_commas(s):
    yield s
    for prefix_len in range(1, len(s)):
        prefix = s[:prefix_len]
        for tail in gen_commas(s[prefix_len:]):
            yield prefix + "," + tail


print list(gen_commas("abcd"))


['abcd', 'a,bcd', 'a,b,cd', 'a,b,c,d', 'a,bc,d', 'ab,cd', 'ab,c,d', 'abc,d']

I'm not sure why I find this easier. Maybe just because it's dead easy to do it directly ;-)

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Now try that on a really long string.. (I know, I know, don't tug on Superman's cape..) –  DSM Dec 24 '13 at 5:21

You could generate the power set of the n - 1 places that you could put commas:

what's a good way to combinate through a set?

and then insert commas in each position.

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Using itertools:

import itertools
input_str =  "abcd"
for k in range(1,len(input_str)):
    for subset in itertools.combinations(range(1,len(input_str)), k): 
        s = list(input_str)
        for i,x in enumerate(subset): s.insert(x+i, ",")
        print "".join(s)



Also a recursive version:

def commatoze(s,p=1):
    if p == len(s):
        print s
    commatoze(s[:p] + ',' + s[p:], p + 2)
    commatoze(s, p + 1)

input_str =  "abcd"
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More options for generating the power set in a response to a previous question: stackoverflow.com/questions/1482308/… –  James King Dec 24 '13 at 4:46

You can solve the integer composition problem and use the compositions to guide where to split the list. Integer composition can be solved fairly easily with a little bit of dynamic programming.

def composition(n):
    if n == 1: 
        return [[1]] 
    comp = composition (n - 1) 
    return [x + [1] for x in comp] + [y[:-1] + [y[-1]+1] for y in comp]

def split(lst, guide):
    ret = []
    total = 0
    for g in guide:
        total += g
    return ret

lst = list('abcd')
for guide in composition(len(lst)):
    print split(lst, guide)

Another way to generate integer composition:

from itertools import groupby
def composition(n):
    for i in xrange(2**(n-1)):
        yield [len(list(group)) for _, group in groupby('{0:0{1}b}'.format(i, n))]
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