# Could someone explain this python permutation code?

I've seen some postings of code for permutations on here but I haven't really been able to find a good step-by-step walk through of what is actually going on. If someone could just explain what is actually happening in each step of this code I would really appreciate it. I can't quite seem to wrap my head around it. The code I'm looking at is in Python and is from http://snippets.dzone.com/posts/show/753.

``````def all_perms(str):
if len(str) <=1:
yield str
else:
for perm in all_perms(str[1:]):
for i in range(len(perm)+1):
yield perm[:i] + str[0:1] + perm[i:]

for p in all_perms(['a','b','c']):
print p
``````
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First of all, the name of the parameter `str` is a bad choice. It's probably due to the fact that it works for all kinds of sequence types in Phyton but it should be `seq` or something to make the intention clear.

1. If the length of the list is <= 1 (empty or one element) return the list (there is just one solution for this case).

2. For all other cases:

a) Create all permutations of `str[1:]` (i.e. the list just without the head element).

b) Insert the head element at each position in each permutation created in a) and return the result

`yield` works a bit like `return`; the main difference is that the current value is returned and, when the function is called again, it continues with the instruction after the `yield`.

This way, it's easy to assemble the result.

Example:

`'a'` gives `'a'` (trivial). `'ab'` first chops of the head (`'a'`), then creates all permutations of `b` (there is just one: `'b'` itself). Now the head is inserted at every position, so we end up with `'ab'` (head+list) and `'ba'` (list+head).

etc.

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Thank you! This is what I was looking for. The combination of the yield and recursion made it tough for me to grasp at first, but it makes sense now. And I know what you're saying about the str variable. Had I written it I wouldn't have named it that either, but I just grabbed it from the site I mentioned in my original post. Thanks again! – bb89 Mar 25 '11 at 17:07
It's astonishing how much more simple some code can become when you give variables the proper names; that's why I mentioned it. – Aaron Digulla Mar 25 '11 at 17:09
``````def all_perms(str):
# If there is only one item, there can be only one permutation
# yield the single item
if len(str) <=1:
yield str
else:
# loop over the permutations returned by a recursive call to all_perms
# note it is passing a subset of the list passed in.
for perm in all_perms(str[1:]):
# for each returned sub-permutation insert the item that
# wasn't passed into each possible position.
for i in range(len(perm)+1):
yield perm[:i] + str[0:1] + perm[i:]

for p in all_perms(['a','b','c']):
print p
``````

So you pass in `['a','b','c']`.

It calls `all_perms(['b', 'c'])` and that calls `all_perms(['c'])` which yields 'c'.

the `yield` statement means that `all_perms()` is a generator the fact that it calls itself means it is using recursion.

I'd recommend using itertools.permutations rather than that snippet.

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Thank you, this was very helpful. I knew about itertools.permutations but I really just wanted to have a better understanding of what was going on in the code I posted. Thanks again! – bb89 Mar 25 '11 at 17:09

What you see is a iterator generator. It's a function that returns an object which can be looped over.

during the execution of the `for` loop, `all_perms` is executed up to the point where it hits a `yield`. The value `yield`ed is passed to the loop as `p` variable. Then the execution of `all_perms` is continued at the position after the `yield` statement where the method exited last time.

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