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Im having trouble trying to make a permutation code with recursion. This is suppose to return a list back to the use with all the posible position for each letter. so for the word cat it is suppose to return ['cat','act',atc,'cta','tca','tac'] . so far i have this

def permutations(s):
    if len(s) == 1 or len(s) == 0 :
        # Return a list containing the string, not the string
        return [s]
    # Call permutations to get the permutations that don't include the
    # first character of s
    plst = permutations(s[1:])
    for item in plst:
        print (item)
        plst= permutations(s[1+1:])

         # Now move through each possible position of the first character
        # and create a new string that puts that character into the strings
        # in plst
        for i in range(len(s)):
            # Create a new string out of item
            # and put it into lst
        # Modify
    for item in lst:

There are steps there but im not sure how to use them

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I am not sure why you are writing this, but you can also use itertools.permutations(). It uses yield so it does not have to construct the whole list. – Ben Ruijl Oct 28 '12 at 13:47
I haven't learn how to use yield yet. so i was wondering if there was a way to do this code with out using yeild – brian Chiem Oct 28 '12 at 13:49
Why don't you check Numpy.. I think it provides these features. Not sure though – Surya Oct 28 '12 at 13:59
@brianChiem, itertools.permutations() use of yield is mostly transparent to you, so give it a whirl. Use list(itertools.permutations(...) if you don't plan on iterating over it in a for loop. – Brian Cain Oct 28 '12 at 14:56

You want to do recursion, so you first have to find out how the recursion would work. In this case it is the following:

permutation [a,b,c,...] = [a + permutation[b,c,...], b + permutation[a,c,..], ...]

And as a final condition:

permutation [a] = [a]

So the recursion splits up the list in sublists with one element extracted each time. Then this element is added to the front of each of the permutations of the sublist.

So in pseudo-code:

def permutation(s):
   if len(s) == 1:
     return [s]

   perm_list = [] # resulting list
   for a in s:
     remaining_elements = [x for x in s if x != a]
     z = permutation(remaining_elements) # permutations of sublist

     for t in z:
       perm_list.append([a] + t)

   return perm_list

Does this help?

share|improve this answer
so for the z = s without element a does plst = permutations(s[1:]) work for it – brian Chiem Oct 28 '12 at 14:09
Yes, but you have to do this for every element of s. So the next one (with the 'b' removed) would be permutations(s[0] + s[2:]). Note that the 'a' is included in this subset. – Ben Ruijl Oct 28 '12 at 14:32
Where's the recursive call? Shouldn't it be for each t in permutations(z): perm_list.append([a]+t])? – tobias_k Oct 28 '12 at 14:52
@tobias_k: Ah yes, I looked over that! I've corrected it now. – Ben Ruijl Oct 28 '12 at 14:53
im not sure what should i put in this part perm_list.append([a] + t) i think it is the recursive call but im not sure. i was thinking that i should put permutations(s[1:]) +permutation(s[0]) – brian Chiem Oct 28 '12 at 22:10

When you're lost in recursive function, you should draw the call tree. The following version (inspired @Ben answer) keep the input order (if the input is in lexicographic order, the list of permutations will be, '012' -> ['012', '021', '102', '120', '201', '210'].

def permut2(mystr):
    if len(mystr) <= 1:
        return [mystr]
    res = []
    for elt in mystr:
        permutations = permut2(mystr.replace(elt, ""))
        for permutation in permutations:
            res.append(elt + permutation)
    return res

The following version works for strings and lists, notice the reconstruction step is not the same:

def permut(array):
    if len(array) == 1:
        return [array]
    res = []
    for permutation in permut(array[1:]):
        for i in range(len(array)):
            res.append(permutation[:i] + array[0:1] + permutation[i:])
    return res

As an exercice, you should draw call tree of the these functions, do you notice something ?

share|improve this answer

Recursively, think about the base case and build from that intuition.

1) What happens when there's only one character 'c'? There's only one permutation of that element, and so we return a list containing only that element.

2) How can we generate the next permutation given the last one? Adding an additional letter 'a' at all possible positions in the previous permutation 'c' gives us 'ca', 'ac'.

3) We can continue building larger and larger permutations by adding an additional character at all possible positions in each earlier permutation.

The following code returns a list of one character if the string has one character or less. Otherwise, for all permutations not including the last character in the string s[-1], we generate a new string for each position where we could include that character and append the new string to our current list of permutations.

def permutations(s):
    if len(s) <= 1:
        return [s]
        perms = []
        for e in permutations(s[:-1]):
            for i in xrange(len(e)+1):
                perms.append(e[:i] + s[-1] + e[i:])
        return perms
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