# How to get every element in a list of list of lists?

I'm making a heart game for my assignment but I don't know how to get every element in a list of list:

``````>>>Cards = [[["QS","5H","AS"],["2H","8H"],["7C"]],[["9H","5C],["JH"]],[["7D"]]]
``````

and what comes to my mind is :

``````for values in cards:
for value in values:
``````

But I think I just got element that has 2 list. How to calculate the one that has 3 and 1 list in the cards?

• I edited your code to add in an additional `"` as it is missing. Why did you revert that edit? – Gareth Latty May 24 '13 at 12:10
• You will need some recursivity to achieve what you want in a clean way. – Maresh May 24 '13 at 12:10
• Do you have all cards at the same depth? Then you just need to go there. – Thomas Fenzl May 24 '13 at 12:11
• It looks like you have a list of list of lists, but haven't closed the final bracket. – Peter Collingridge May 24 '13 at 12:11
• @Erika Sawajiri Isn't it an error in the last item ['7D']? Shouldn't it be [['7D']]? – Saullo G. P. Castro May 24 '13 at 13:34

Like this:

``````>>> Cards = [[["QS","5H","AS"],["2H","8H"],["7C"]],[["9H","5C"],["JH"]],["7D"]]
>>> from compiler.ast import flatten
>>> flatten(Cards)
['QS', '5H', 'AS', '2H', '8H', '7C', '9H', '5C', 'JH', '7D']
``````

As, nacholibre pointed out, the `compiler` package is deprecated. This is the source of `flatten`:

``````def flatten(seq):
l = []
for elt in seq:
t = type(elt)
if t is tuple or t is list:
for elt2 in flatten(elt):
l.append(elt2)
else:
l.append(elt)
return l
``````
• Brilliant! I didn't know this existed. – HennyH May 24 '13 at 12:24
• I don't think they intended that function to be used like this, but if it works ... :). – Blubber May 24 '13 at 12:25
• Important: `Deprecated since version 2.6: The compiler package has been removed in Python 3.` – nacholibre May 24 '13 at 12:27
• @Hans but your flatten function will separate all the elements like 7 and C. What I want is 7C – Erika Sawajiri May 24 '13 at 12:45
• Will it? I think it will only iterate lists and tuples, not strings. – Hans Then May 24 '13 at 12:51

Slightly obscure oneliner:

``````>>> [a for c in Cards for b in c for a in b]
['QS', '5H', 'AS', '2H', '8H', '7C', '9H', '5C', 'JH', '7', 'D']
``````

You might want to give a, b and c more descriptive names.

• it seems correct for the begginning part. But the 7 and d is separated – Erika Sawajiri May 24 '13 at 12:18
• @blubber the problem is they aren't nested uni-formally (which is an odd way to store your game data...) – HennyH May 24 '13 at 12:19
• Yes, I see that now. Well you can't use this then, it only works on regularly formed lists. – Blubber May 24 '13 at 12:20
• @ErikaSawajiri the last item in the list should be [['7D']], isn't it a typo? – Saullo G. P. Castro May 24 '13 at 13:32

If your cards are nested in a unwieldy way:

``````>>> Cards = [[["QS","5H","AS"],["2H","8H"],["7C"]],[["9H","5C"],["JH"]],["7D"]]
>>> def getCards(cardList,myCards=[]): #change this to myCards, and pass in a list to mutate this is just for demo
if isinstance(cardList,list):
for subList in cardList:
getCards(subList)
else:
myCards.append(cardList)
return myCards
>>> getCards(Cards)
['QS', '5H', 'AS', '2H', '8H', '7C', '9H', '5C', 'JH', '7D']
``````

Will recursivly go through the list and find all the elements. These are some timeings I've run comparing performance of the selected `flattern` method to mine:

``````>>> print(timeit.timeit(r'getCards([[["QS","5H","AS"],["2H","8H"],["7C"]],[["9H","5C"],["JH"]],["7D"]],[])',setup="from clas import getCards"))
5.24880099297
>>> timeit.timeit(r'flatten([[["QS","5H","AS"],["2H","8H"],["7C"]],[["9H","5C"],["JH"]],["7D"]])',setup="from compiler.ast import flatten")
7.010887145996094
``````

Your list is an incomplete nested list, so you can first make it rectangular, using the procedure explained here, for example, and then flatten the resulting `numpy.ndarray`.

The "ifs" below wouldn't be necessary as well if the last element ['7D'] was [['7D']] (then the other answers would also work).

``````import numpy as np
collector = np.zeros((3,3,3),dtype='|S20')

for (i,j,k), v in np.ndenumerate( collector ):
try:
if not isinstance(cards[i], str):
if not isinstance(cards[i][j], str):
collector[i,j,k] = cards[i][j][k]
else:
collector[i,j,0] = cards[i][j]
else:
collector[i,0,0] = cards[i]
except IndexError:
collector[i,j,k] = ''

print collector[collector<>''].flatten()
``````

Using generators, it's possible to write a much more readable implementation of `flatten`:

``````def flatten(l):
if isinstance(l, list):
for e1 in l:
for e2 in flatten(e1):
yield e2
else:
yield l
``````

Or, if you're using Python 3.3, which added the `yield from` syntax:

``````def flatten(l):
if isinstance(l, list):
for e in l:
yield from flatten(e)
else:
yield l
``````

Result:

``````>>> list(flatten([[["QS","5H","AS"],["2H","8H"],["7C"]],[["9H","5C"],["JH"]],[["7D"]]]))
['QS', '5H', 'AS', '2H', '8H', '7C', '9H', '5C', 'JH', '7D']
``````

Use 2 nested itertools.chain to flatten the list:

``````In : Cards
Out: [[['QS', '5H', 'AS'], ['2H', '8H'], ['7C']], [['9H', '5C'], ['JH']], ['7D']]

In : from itertools import chain

In : [k for k in chain.from_iterable([i for i in chain.from_iterable(Cards)])]
Out: ['QS', '5H', 'AS', '2H', '8H', '7C', '9H', '5C', 'JH', '7', 'D']
``````

This solution is very robust for any kind of nested lists or tuples (to add other iterable types just add more `or isinstance(...)` in the code below.

It just calls recursively a function that unfolds itself:

``````def unfold(lst):
output = []
def _unfold(i):
if isinstance(i, list) or isinstance(i, tuple):
[_unfold(j) for j in i]
else:
output.append(i)
_unfold(lst)
return output

print unfold(cards)
#['QS', '5H', 'AS', '2H', '8H', '7C', '9H', '5C', 'JH', '7D']
``````

Using Flatten a list from Rosetta Code you could do:

``````>>> def flatten(lst):
return sum( ([x] if not isinstance(x, list) else flatten(x)
for x in lst), [] )

>>> Cards = [[["QS","5H","AS"],["2H","8H"],["7C"]],[["9H","5C"],["JH"]],["7D"]]
>>> flatten(Cards)
['QS', '5H', 'AS', '2H', '8H', '7C', '9H', '5C', 'JH', '7D']
>>>
``````

The solution only flattens nested lists - not tuples or strings.

``````from itertools import chain, imap

l= [[["QS","5H","AS"],["2H","8H"],["7C"]],[["9H","5C"],["JH"]],[["7D"]]]

k = list(chain.from_iterable(imap(list, l)))
m = list(chain.from_iterable(imap(list, k)))

print m
``````

output: ['QS', '5H', 'AS', '2H', '8H', '7C', '9H', '5C', 'JH', '7D']

Itertools is amazing!