Dismiss
Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Learn more about Documentation →

# Most efficient way to generate “ordered subsets” of a sequence

I need to generate all "ordered subsets" (apologies if I'm not using correct mathematical terminology) of a sequence in Python, with omitted elements replaced with `None`.Given `[1, 2]`, I want `[(1, 2), (1, None), (None, 2), (None, None)]`. Each "ordered subset" should have the property that at each position, it is either exactly the same element as in the seed sequence, or it is `None`.

I can fairly easily generate subsets with omitted elements missing with the following:

``````from itertools import combinations
for length in xrange(len(items), 0, -1):
for combination in combinations(items, length):
yield combination
``````

I can't figure out what the most effective way of reconstructing the missing elements, would be though. My first thought is to do something like this:

``````from itertools import combinations
indexes = range(len(items))
for length in xrange(len(items), 0, -1):
for combination in combinations(indexes, length):
yield tuple(items[i] if i in combination else None for i in indexes)
``````

Just wondering if anyone can spot any obvious deficiencies in this, or if there's a more efficient solution I've missed. (Note that the `items` will be a fairly short list, typically under 10 elements, so I am not concerned about the O(N) search of "combination" in the inner loop).

-

## 4 Answers

``````from itertools import product, repeat
given = [1, 2]
with_nones = zip(given, repeat(None))
print(list(product(*with_nones)))
``````
-
Since I love generators, I'll use a version with `izip_longest` -- but awesome, thanks! – dcrosta Aug 17 '12 at 21:01
+1. Here's the `izip_longest` version (based on dcrosta's comment): `list(product(*izip_longest(given, [])))` – Steven Rumbalski Aug 17 '12 at 21:07
this is in the wrong order tho: `[(None, None), (None, 2), (1, None), (1, 2)]` – the wolf Aug 18 '12 at 0:30
@carrot-top: Fixed, I overlooked the part that said "ordered subsets". – Joel Cornett Aug 18 '12 at 0:43
I don't care about the order of the subsets, just the order of elements within each one, as it turns out. I'm using something very like Steven Rumbalski's solution, but without `list(...)`, since I only need to iterate once – dcrosta Aug 18 '12 at 1:22

You could start with an empty list, for every element in your seed you can copy all the final lists and add the seed at the end.

e.g.

``````solutions = []
solutions.append([])
for elem in seed:
newPartials = []
for partial in solutions:
newPartial = partial[:]
newPartial.append(elem)
newPartials.append(newPartial)
solutions.extend(newPartials)
``````

or, you could create the number of possible solutions, `2^n`, where `n` is the length of your seed list, and using modular arithmetic, remove elements, like so:

``````solutions = []
for i in xrange(2**n):
solutions.append(seed[:])
seedLen = len(seed)
for i in xrange(2**(n-1)): // % 0 case of following loop
solutions[i].pop(0)
for elemLoc in xrange(1,seedLen):
for solutionNum in xrange(2**n):
if solutionNum % elemLoc = 0:
solutions[solutionNum].pop(elemLoc)
``````

This solution is hilariously inefficient, I mostly included it because it's an interesting way to solve the problem.

-
One of my co-workers proposed a one-liner version of your first suggestion -- took me a while to unravel it: `reduce(lambda x,y: x+[e+[y] for e in x], items, [[]]))` – dcrosta Aug 18 '12 at 1:24
I was specifically going for understandability over elegance when they conflicted. Neat tricks are for people who know what they're doing, and sometimes not even then. – rsegal Aug 18 '12 at 2:18

An alternate -- in case you want to show off how silly you are to NOT use itertools:

``````>>> given=[1,2]
>>> gz=zip(given,[None]*len(given))
>>> [(i,j) for i in gz[0] for j in gz[1]]
[(1, 2), (1, None), (None, 2), (None, None)]
``````
-
Neat. Can you generalize it to more than a 2-element `given` though? – dcrosta Aug 18 '12 at 1:22

Here is another:

``````>>> given=[1,2,3,4]
>>> rtr=[[]]
>>> for t in map(None,*(given,[None])):
...    rtr=[x+[y] for x in rtr for y in t]
...
>>> rtr
[[1, 2, 3, 4], [1, 2, 3, None], [1, 2, None, 4], [1, 2, None, None], [1, None, 3, 4], [1, None, 3, None], [1, None, None, 4], [1, None, None, None], [None, 2, 3, 4], [None, 2, 3, None], [None, 2, None, 4], [None, 2, None, None], [None, None, 3, 4], [None, None, 3, None], [None, None, None, 4], [None, None, None, None]]
``````
-