# Why does this recursion code work? [duplicate]

``````def permutation(li,result=[]):
print(li, result)               # I added this print statement as a diagnostic.
if li == [] or li == None:      # As coded, I expected each recursive call to
return                      # reinitialize 'result=[]' because there is no
# second argument being passed in the recursive
if len(li) == 1:                # call below.
result.append(li[0])
print(''.join(result))
result.pop()
return

for i in range(0,len(li)):
result.append(li[i])
permutation(li[:i] + li[i+1:])          # I would have thought that the
#permutation(li[:i] + li[i+1:], result)  # recursive call needed to be this.
result.pop()

test=list('123')
permutation(test)
``````

Results:

``````['1', '2', '3'] []
['2', '3'] ['1']
['3'] ['1', '2']
123
['2'] ['1', '3']
132
['1', '3'] ['2']
['3'] ['2', '1']
213
``````
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The key when using default arguments is that the default value is referencing the same list each time not constructing a new one. And since lists are mutable, that list is not the same from call to call. –  cmd Apr 15 '13 at 21:54
because `result` is a mutable list. to put it simply, if you append items to a list, the item is still there unless the list or the item is garbage-collected. in your code, `result` points to same list object that is declared as a default argument of `permutation` function. you do not build a new list for `result` upon every call of `permutation` function. Because you push/pop item(s) for every permutation, you might think(and it looks like) your function is 'stateless', but it is not.