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I need to create a list of all the permutation but excluding that ones where there is the same number changed of sign.

For example, from the sequence

[-2, -1, 1, 2]

I would obtain all permutations like these:

[-2, -1], [-2, 1], [-1, -2], [-1, 2], [1, -2], [1, 2], [2, -1], [2, 1]

At the moment I use the following code:

permutation_items = []
permutations = itertools.permutations(range_items, items)
permutation_item = list(permutations)

where for example range_items = [-2, -1, 1, 2] and items = 2

Then to eliminate all opposite duplicates I use

for element in permutation_items:
    for j in element:
        if ((j in element) & ((j*-1) in element)):
            flag = 1
    if flag == 0:

I think this is not the best way because first I create a list with all permutations then I delete those I don't want, could you suggest a better way? Also because if I need to create a list of permutations with 10 or more numbers it becomes very big...

Do you think I'll have some problems with these dimensions?

Please note: with these permutations I need to do further operations (I need to find the minimum number of permutations that give all possible couples of numbers), so I think I need to store them in a variable, also because at the end of my algorithm I need to store results in a file.

...ok guys, your answer are very good and I like your interest...now, if I use for my variable 'range_items' a list of 30 elements (positives and negatives) the time used by the code is very big, I am thinking to ask you for a multithread solution (so I can load the code in a cluster with many cores)...is it feasible?

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Do your basis numbers always come in positive/negative pairs? Or could you have, for example, [-1,1,2,3] as a basis? – Hugh Bothwell May 29 '12 at 16:54
Hi, at the moment I'm evaluating only positive/negative pairs, hence for example [-3,-2,-1,1,2,3], actually I could have also only positive numbers but in this case there isn't the problem to have in the same group the same number with both signs (positive and negative). In each case, in future, it could be interesting also work with not all pairs, hence [-3,-2,1,2]. Thanks for your question. – Rejde May 31 '12 at 15:12

You are basically asking how to combine permutation and product. The following is much more efficient (and simpler) than rejection: You generate all permutations exactly once, and then twiddle the signs. It is asymptotically optimal in terms of time O(N!) and space O(1):

def plusAndMinusPermutations(items):
    for p in permutations(items):
        for signs in product([-1,1], repeat=len(items)):
            yield [a*sign for a,sign in zip(p,signs)]

(using itertools as the OP is)


>>> list( plusAndMinusPermutations([1,2]) )
 [-1, -2], 
 [-1, 2], 
 [1, -2],
 [1, 2],
 [-2, -1],
 [-2, 1],
 [2, -1],
 [2, 1]

This is more efficient by a factor of factorial(N)!!! (Assuming you were using it for lengths larger than 2.)

Alternatively, we can combine them in the opposite order (and map list onto the tuples if you'd like):

def plusAndMinusPermutations(items):
    for signed in product(*[[-a,a] for a in items]):
        for p in permutations(signed):
            yield p

>>> list( plusAndMinusPermutations([1,2]) )
 (-1, -2), 
 (-2, -1), 
 (-1, 2), 
 (2, -1), 
 (1, -2), 
 (-2, 1), 
 (1, 2), 
 (2, 1)

edit in response to OP edit:

I need to find the minimum number of permutations that give all possible couples of numbers --OP

I'm not sure what this mean, but based on how you've phrased it, you almost certainly don't need to do any of this. Just brute-force the problem for numbers from 0 to 10 using your existing method, then input the results into http://oeis.org/ and you will probably find an explicit formula.

share|improve this answer
I'm trying to analyze this solution but at the moment I find a little expensive to store the results. – Rejde Jun 1 '12 at 8:50
I need to store the results in a variable (for example a list) so I need to copy all using for example xxx=list(plusAndMinusPermutations([1,2,3,4,5,6,7])). It takes a lot of time and memory – Rejde Jun 1 '12 at 9:00
@Rejde: that is an issue with your code unfortunately. The above code is a generator with no memory footprint. One should take create care to avoid having to do list(...) because it takes lots of memory for precisely this reason. If you are worried about time, you unfortunately have asked the wrong question: there's no solution to your problem with faster time, because you must read each answer exactly once. See stackoverflow.com/a/6620071/711085 . For example if you wanted a function which prints all permutations, it WILL take N! time at least. – ninjagecko Jun 1 '12 at 14:24
thanks for your answer. I undersand what you say but with this list of permutations I need to do further operations (I need to search for the minimun number of permutations that give all possible couples of numbers, all differents) and finally I need to save results on a file. At this point I'm thinking to use the code in a cluster because I need to evaluate cases with also 50 numbers (+ and -). Do you have any suggestion to create a multithread algorithm for this problem? (I added this question in my first post).Thanks very much – Rejde Jun 4 '12 at 13:24

The following uses the same rejection approach as your code, but is much more efficient:

(s for s in itertools.permutations(l, 2) if len(set(map(abs, s))) == len(s))

where l is the sequence.

The only tricky bit is len(set(map(abs, s))) == len(s). It puts the absolute values of all elements of the permutation into a set, and ensures that the set has the same size as the permutation.

To make it even faster, you can replace len(s) with the length of the permutation (2 in the example above).

The only algorithmic improvement that I can think of is to remove duplicate numbers from the original sequence. Whether or not that buys you much depends on whether you're like to have duplicates in the first place.

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In this case, wouldn't product work as well? (Splitting range into tuples of +/- pairs?) – Joel Cornett May 29 '12 at 17:10
@JoelCornett: I don't see how it would work, but feel free to write it up if you think otherwise. – NPE May 29 '12 at 17:12
At first glance it appeared doable, but now I think I have to agree with you. – Joel Cornett May 29 '12 at 17:20
If you're using the rejection approach, you could probably just sum() the tuple generated, and test it for truthiness. – Joel Cornett May 29 '12 at 17:22
With this solution, the code generates the list of all permutations and then checks each item or analyze item per item whilst these are generated by the function "permutations"? I hope my question is clear. – Rejde May 31 '12 at 15:27

I thought about it a bit more, and I think you'll like this:

from collections import defaultdict
from itertools import permutations, product

def make_groups(seq):
    found = defaultdict(set)
    for num in seq:
    return [list(v) for v in found.itervalues()]

def selective_permutations(seq, r=None):
    for g in permutations(make_groups(seq), r):
        for p in product(*g):
            yield p

It takes your input sequence - for example [-2, -1, 0, 1, 2] - and groups it by mutually-exclusive values - so [[-2, 2], [-1, 1], [0]].

It then runs permutations on the groups - so you will get, for example, [[-2, 2], [-1, 1]] - then runs product against the resulting groups, yielding [[-2, -1], [-2, 1], [2, -1], [2, 1]], which is what we were looking for.

It respects the r parameter (for sequence length), and does an optimally efficient job on both balanced and unbalanced sequences - so, for example:

for p in selective_permutations([-3,-2,1,2], 2):
    print p

results in

(1, 2)
(1, -2)
(1, -3)
(2, 1)
(-2, 1)
(2, -3)
(-2, -3)
(-3, 1)
(-3, 2)
(-3, -2)

without having to discard any combinations.

Hope that helps! ;-)

share|improve this answer

assuming you only wants the numbers in pairs (if not you have to do something with recursion), and no equal numbers in the sequence

def make_perm(sequens):
    perm_s = []
    for e1 in sequens:
        for e2 in sequens:
            if abs(e1) != abs(e2):
               perm_s += [[e1,e2]] 

    return perm_s

print make_perm([-2,-1,1,2])


[[-2, -1], [-2, 1], [-1, -2], [-1, 2], [1, -2], [1, 2], [2, -1], [2, 1]]

this solution handles different item length.

def perm(list_to_perm,perm_l,items):
    if len(perm_l) == items:
        print perm_l
        for i in  list_to_perm:

            if i not in perm_l:
                if -i not in perm_l:
                    perm(list_to_perm,list(perm_l) +[i],items)

a = [-2,-1,1,2]


[-2, -1]
[-2, 1]
[-1, -2]
[-1, 2]
[1, -2]
[1, 2]
[2, -1]
[2, 1]
share|improve this answer
I don't know if I wrote wrong the code but if I try with a number of elements inside sequens greater than 2 I don't have the right solution – Rejde May 31 '12 at 16:01
see my new code. – fhtuft May 31 '12 at 19:43

This may seem a bit strange. I'm still learning python. I'm duplicating code so the order is more natural. There are probably shortcuts. This turns out to be the answer to a Rosalind.info problem. I don't like the code, it's a bit noisy but it works.

    def signedPerm(x):
        if len(x) == 1:
            yield x
            yield x
            for i in range(len(x)):
            for s in [1, -1]:
            for j in signedPerm(x[:i]+x[i+1:]):
              yield y+j

then call

    [x for x in signedPerm(list(set([abs(y) for y in [-1, -2, 1, 4]])))]

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