Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

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?

share|improve this question
3  
I edited your code to add in an additional " as it is missing. Why did you revert that edit? –  Lattyware 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 Castro May 24 '13 at 13:34

9 Answers 9

up vote 15 down vote accepted

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
share|improve this answer
    
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
1  
Wow!!!! Thanks a lot!! –  Erika Sawajiri May 24 '13 at 12:26
    
Important: Deprecated since version 2.6: The compiler package has been removed in Python 3. –  nacholibre May 24 '13 at 12:27
1  
@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

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.

share|improve this answer
    
it seems correct for the begginning part. But the 7 and d is separated –  Erika Sawajiri May 24 '13 at 12:18
2  
@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
2  
@ErikaSawajiri the last item in the list should be [['7D']], isn't it a typo? –  Saullo 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
share|improve this answer

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()
share|improve this answer

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']
share|improve this answer

Use 2 nested itertools.chain to flatten the list:

In [32]: Cards
Out[32]: [[['QS', '5H', 'AS'], ['2H', '8H'], ['7C']], [['9H', '5C'], ['JH']], ['7D']]

In [33]: from itertools import chain

In [34]: [k for k in chain.from_iterable([i for i in chain.from_iterable(Cards)])]
Out[34]: ['QS', '5H', 'AS', '2H', '8H', '7C', '9H', '5C', 'JH', '7', 'D']
share|improve this answer

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']
share|improve this answer

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.

share|improve this answer
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!

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.