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I am writing a program in Python, and I realized that a problem I need to solve requires me, given a set S with n elements (|S|=n), to test a function on all possible subsets of a certain order m (i.e. with m number of elements). To use the answer to produce a partial solution, and then try again with the next order m=m+1, until m=n.

I am on my way to write a solution of the form:

def findsubsets(S, m):
    subsets = set([])
    return subsets

But knowing Python I expected a solution to be already there.

What is the best way to accomplish this?

share|improve this question
scipy.misc.comb(S, m) gives the number of subsets you will get. You should eventually make a check before you execute your code as the number of m-sized subsets of S gets very big very fast. – Martin Thoma Feb 20 '15 at 17:19
up vote 70 down vote accepted

itertools.combinations is your friend if you have Python 2.6 or greater. Otherwise, check the link for an implementation of an equivalent function.

import itertools
def findsubsets(S,m):
    return set(itertools.combinations(S, m))
share|improve this answer
i would not return a set, but simply return the iterator (or just use combinations() without defining a findsubsets()...) – hop Dec 17 '08 at 14:23
Thank you, I just tested it and it works perfectly. – Pietro Speroni Dec 17 '08 at 15:00
@hop the OP particularly asked for sets. Omitting the set cast allows repetitions in different orders, eg: (1,2,3), (2,3,1), (3,1,2)... – James Bradbury Feb 10 at 14:30
@JamesBradbury: I'm sorry, I don't understand what you mean. Are you confusing this with permutations? – hop Feb 10 at 14:58
@hop, Ah yes you're right. I am! – James Bradbury Feb 10 at 15:17

Using the canonical function to get the powerset from the the itertools recipe page:

from itertools import chain, combinations

def powerset(iterable):
  xs = list(iterable)
  # note we return an iterator rather than a list
  return chain.from_iterable( combinations(xs,n) for n in range(len(xs)+1) )

Used like:

>>> list(powerset("abc"))
[(), ('a',), ('b',), ('c',), ('a', 'b'), ('a', 'c'), ('b', 'c'), ('a', 'b', 'c')]

>>> list(powerset(set([1,2,3])))
[(), (1,), (2,), (3,), (1, 2), (1, 3), (2, 3), (1, 2, 3)]

map to sets if you want so you can use union, intersection, etc...:

>>> map(set, powerset(set([1,2,3])))
[set([]), set([1]), set([2]), set([3]), set([1, 2]), set([1, 3]), set([2, 3]), set([1, 2, 3])]

>>> reduce(lambda x,y: x.union(y), map(set, powerset(set([1,2,3]))))
set([1, 2, 3])
share|improve this answer

Here's a one-liner that gives you all subsets of the integers [0..n], not just the subsets of a given length:

from itertools import combinations, chain
allsubsets = lambda n: list(chain(*[combinations(range(n), ni) for ni in range(n+1)]))

so e.g.

>> allsubsets(3)
[(), (0,), (1,), (2,), (0, 1), (0, 2), (1, 2), (0, 1, 2)]
share|improve this answer
Useful formula, but use chain.from_iterable instead of star-expanding a potentially very long set. And what's the point of iterating the combinations into a list ([ ... ]), star-expanding, chaining into an iterator (chain), and then turning into a list again? PS. a better recipe is in the itertools documentation, and in another (later) answer here. – alexis Nov 6 '13 at 12:47

It seems like this recipe does the trick:

share|improve this answer

Here's some pseudocode - you can cut same recursive calls by storing the values for each call as you go and before recursive call checking if the call value is already present.

The following algorithm will have all the subsets excluding the empty set.

list * subsets(string s, list * v) {

    if(s.length() == 1) {
        return v;
        list * temp = subsets(s[1 to length-1], v);
        int length = temp->size();

        for(int i=0;i<length;i++) {

        return temp;

So, for example if s = "123" then output is:

share|improve this answer

Without using itertools:

In Python 3 you can use yield from to add a subset generator method to buit-in set class:

class SetWithSubet(set):
    def subsets(self):
        s1 = []
        s2 = list(self)

        def recfunc(i=0):            
            if i == len(s2):
                yield frozenset(s1)
                yield from recfunc(i + 1)
                s1.append(s2[ i ])
                yield from recfunc(i + 1)

        yield from recfunc()

For example below snippet works as expected:

x = SetWithSubet({1,2,3,5,6})
{2,3} in x.subsets()            #True
set() in x.subsets()            #True
x in x.subsets()                #True
x|{7} in x.subsets()            #False
set([5,3]) in x.subsets()       #True - better alternative: set([5,3]) < x
len(x.subsets())                #32
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