# Iterating nested list inside-out

I have the following python nested list structure:

``````test = ['a', ['c', ['e'], 'd'], 'b']
``````

or the same, just formatted:

``````test = [
'a',
[
'c',
[
'e'
],
'd'
],
'b'
]
``````

I was wondering what the best way would be to iterate over the complete list, starting with the innermost nested list object ('e') to the outermost list ('a', [...], 'b') in reversed order. A call to reversed(test) just doesn't do the trick with nested lists. And it should be able invoke a callback function on every depth of the iteration.

The iterations should look something like this ([xx] == computed value from previously invoked callback):

``````1st e --> callback(e)
2nd c [e] d --> callback(c [e] d)
3rd a [c e d] b --> callback(a [c e d] b)
``````

Hope this explains my problem & thanks for your help

-
Is flattening the list not an option? –  StoryTeller Feb 19 '13 at 14:56
@StoryTeller: Flattening would loop over `[b, d, e, c a]` instead. –  Martijn Pieters Feb 19 '13 at 14:58
I also tought that this might help. The problem is that i have to calculate every nested list-item with a callback function. After flattening i have no idea which item should be calculated... –  hetsch Feb 19 '13 at 15:00

What you are looking for is a postorder traversal of the structure:

``````def traverse(l):
for x in l:
if isinstance(x, list):
traverse(x)
callback(l)
``````

If `callback` is defined as `print`, we get

``````['e']
['c', ['e'], 'd']
['a', ['c', ['e'], 'd'], 'b']
``````
-
Thank's, this looks simpler than @Abhijit answer. –  hetsch Feb 19 '13 at 15:11
Note that type checking isn't pythonic - and using `isinstance(x, list)` means this won't work with tuples, for example. Do also note that this is a recursive function, meaning that if you have huge lists, you could end up hitting the maximum recursion depth. It's also likely to be relatively inefficient. –  Lattyware Feb 19 '13 at 15:19
@Lattyware: `isinstance(x, list)` can easily be changed to `isinstance(x, collections.Iterable)`, in any case, user's example only deals with lists. –  Abhijit Feb 19 '13 at 15:24
@Lattyware: If you are dealing with lists nested deeper than 1000 levels, you will probably have other problems. (Hell, Python's parser gives up on literals nested that deep). I argue it is pretty efficient -- the other solution may use a lot of extra memory for the queue, but this one goes only to the maximum depth of the structure. If you want to avoid recursion, it is trivial to rewrite with an explicit stack. –  nneonneo Feb 19 '13 at 15:33
Now I see it. But I don't think that can answer the OP's problem, because it specifically only recurses on the second element of every list, unless that's what OP actually has as the data structure. My solution is intended to iterate completely arbitrary nested lists inside-out. –  nneonneo Feb 19 '13 at 15:44

One possible solution I would propose is

``````>>> def foo(test):
queue = []
try:
while True:
queue.append(test)
test = test[1]
except IndexError:
for e in reversed(queue):
yield e

>>> data = foo(test)
>>> next(data)
['e']
>>> next(data)
['c', ['e'], 'd']
>>> next(data)
['a', ['c', ['e'], 'd'], 'b']
>>> next(data)

Traceback (most recent call last):
File "<pyshell#753>", line 1, in <module>
next(data)
StopIteration
>>>
``````

How it works

1. Traverse depth-first, and push the elements in a queue
2. Loop through the reversed queue and yield the elements
-
Thank's seems to be a nice solution!!! Have to check it out... –  hetsch Feb 19 '13 at 15:04
Perfect..., thank you! –  hetsch Feb 19 '13 at 15:06
Note that this can be simplified down in Python >= 3.3, `for e in reversed(queue): yield e` is equivalent to `yield from reversed(queue)`. –  Lattyware Feb 19 '13 at 15:17