# I need help coming up with a function in python that can take 3 arguements as lists and give me all combinations of there elements [duplicate]

This question already has an answer here:

What I have so far does pretty much nothing

def dress_me(shirt, tie, suit):

#    if type(shirt) != list or type(tie) != list or type(suit) != list:
#        return None
combinations = dress_me(shirt, tie, suit)
for combo in combinations:
print(combo)
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## marked as duplicate by zsong, Jonathan Leffler, Nanne, Stony, devnullAug 8 at 11:51

def dress_me(shirt, tie, suit):
if type(shirt) != list or type(tie) != list or type(suit) != list:
return None
return list(itertools.product(shirt, tie, suit))

Demo:

>>> dress_me([1,2,3],[4,5,6],[7,8,9])
[(1, 4, 7), (1, 4, 8), (1, 4, 9), (1, 5, 7), (1, 5, 8), (1, 5, 9), (1, 6, 7), (1, 6, 8), (1, 6, 9), (2, 4, 7), (2, 4, 8), (2, 4, 9), (2, 5, 7), (2, 5, 8), (2, 5, 9), (2, 6, 7), (2, 6, 8), (2, 6, 9), (3, 4, 7), (3, 4, 8), (3, 4, 9), (3, 5, 7), (3, 5, 8), (3, 5, 9), (3, 6, 7), (3, 6, 8), (3, 6, 9)]
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I think it would be more Pythonic if there were no list test. Any iterable would actually work. I'm not sure it makes a whole lot of sense to return None if one of the inputs is invalid; that seems counter-intuitive. I'd expect an exception if I passed it a non-iterable; it would make tracking my problem down easier. If returning None is actually required, then see this answer for checking for iterable types. –  jpmc26 Aug 8 at 6:58
Yes. What you say is reasonable. But first I just answer the question the OP seems to want. And then test if is Iterable is no good. What if a string is passed? I would lead to error. try...except is a good choice. I like that too. –  zhangyangyu Aug 8 at 7:04
A string is an iterable; you'd get a product of all the characters, which might be exactly what the caller wants. (I checked, and the answer I linked works for strings, at least in 2.7.) I would assume that the programmer calling the function is aware that strings are iterable, and if it's not the output they wanted, they'll see that very quickly. –  jpmc26 Aug 8 at 7:09
If a string is passed, what you get is apprently not the OP wants. –  zhangyangyu Aug 8 at 7:11

Or, for completeness, in the generator-fashion without an extra function:

import itertools

for combination in itertools.product(shirts, ties, suits):
whatever_you_want_to_do(combination)
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def dress_me(shirt, tie, suit):
all_combinations = []
for s in shirt:
for t in tie:
for su in suit:
all_combinations.append((s,t,su))
return all_combination

Maybe there is a more pythonic way to do it :)

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Since it looks like you were trying to come up with a recursive solution, here is the general form of it:

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

This works for most kinds of iterables. Demo:

In [5]: list(all_perms(('shirt','tie','suit')))
Out[5]:
[('shirt', 'tie', 'suit'),
('tie', 'shirt', 'suit'),
('tie', 'suit', 'shirt'),
('shirt', 'suit', 'tie'),
('suit', 'shirt', 'tie'),
('suit', 'tie', 'shirt')]

Recursion is difficult to understand at first, but the general form is:

if simplest_case:
return simplest_case
else:
#recurse

In this case, return is replaced by yield in order to make a generator, which is more memory-friendly. You still shouldn't expect this to be the best-performing solution, but I'm including it for completeness since "USE ITERTOOLS" doesn't end up teaching you much other than itertools is cool.

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