# Get the cartesian product of a series of lists in Python

How can I get the Cartesian product (every possible combination of values) from a group of lists?

Input:

``````somelists = [
[1, 2, 3],
['a', 'b'],
[4, 5]
]
``````

Desired output:

``````[(1, 'a', 4), (1, 'a', 5), (1, 'b', 4), (1, 'b', 5), (2, 'a', 4), (2, 'a', 5) ...]
``````
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be aware that 'every possible combination' is not quite the same as 'Cartesian product', since in Cartesian products, duplicates are allowed. –  Triptych Feb 10 '09 at 20:08
Is there a non duplicate version of cartesian product? –  KJW Nov 13 '13 at 5:32
@KJW Yes, `set(cartesian product)` –  NoBugs Feb 12 at 7:04

In Python 2.6+

``````import itertools
for element in itertools.product(*somelists):
print element
``````

Documentation: Python 2 - itertools.product

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Just wanted to add the '*' character is required if you use the variable somelists as provided by the OP. –  brian buck Jan 13 '11 at 22:51

Here is a recursive generator, which doesn't store any temporary lists

``````def product(ar_list):
if not ar_list:
yield ()
else:
for a in ar_list[0]:
for prod in product(ar_list[1:]):
yield (a,)+prod

print list(product([[1,2],[3,4],[5,6]]))
``````

Output:

``````[(1, 3, 5), (1, 3, 6), (1, 4, 5), (1, 4, 6), (2, 3, 5), (2, 3, 6), (2, 4, 5), (2, 4, 6)]
``````
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They're stored in the stack, though. –  Quentin Pradet Mar 16 at 11:09
@QuentinPradet do you mean a generator like `def f(): while True: yield 1` will keep on increasing its stack size as we go through it? –  Anurag Uniyal Mar 16 at 22:42
no, but def f(): yield 1; f() will, right? –  Quentin Pradet Mar 17 at 10:09
@QuentinPradet yeah, but even in this case only the stack needed for max depth, not the whole list, so in this case stack of 3 –  Anurag Uniyal Mar 17 at 16:14
It's true, sorry. A benchmark could be interesting. :) –  Quentin Pradet Mar 17 at 18:24

with itertools.product:

``````import itertools
result = list(itertools.product(*somelists))
``````
-

For Python 2.5 and older:

``````>>> [(a, b, c) for a in [1,2,3] for b in ['a','b'] for c in [4,5]]
[(1, 'a', 4), (1, 'a', 5), (1, 'b', 4), (1, 'b', 5), (2, 'a', 4),
(2, 'a', 5), (2, 'b', 4), (2, 'b', 5), (3, 'a', 4), (3, 'a', 5),
(3, 'b', 4), (3, 'b', 5)]
``````

Here's a recursive version of `product()` (just an illustration):

``````def product(*args):
if not args:
return iter(((),)) # yield tuple()
return (items + (item,)
for items in product(*args[:-1]) for item in args[-1])
``````

Example:

``````>>> list(product([1,2,3], ['a','b'], [4,5]))
[(1, 'a', 4), (1, 'a', 5), (1, 'b', 4), (1, 'b', 5), (2, 'a', 4),
(2, 'a', 5), (2, 'b', 4), (2, 'b', 5), (3, 'a', 4), (3, 'a', 5),
(3, 'b', 4), (3, 'b', 5)]
>>> list(product([1,2,3]))
[(1,), (2,), (3,)]
>>> list(product([]))
[]
>>> list(product())
[()]
``````
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The recursive version doesn't work if some of `args` are iterators. –  J.F. Sebastian Feb 10 '09 at 21:43
I vote up for the list comprehension one. Maybe next time it would be nice (for you) to post different answers, can you? –  Gra Jun 22 '11 at 20:58

In Python 2.6 and above you can use 'itertools.product`. In older versions of Python you can use the following (almost -- see documentation) equivalent code from the documentation:

``````def product(*args, **kwds):
# product('ABCD', 'xy') --> Ax Ay Bx By Cx Cy Dx Dy
# product(range(2), repeat=3) --> 000 001 010 011 100 101 110 111
pools = map(tuple, args) * kwds.get('repeat', 1)
result = [[]]
for pool in pools:
result = [x+[y] for x in result for y in pool]
for prod in result:
yield tuple(prod)
``````

The result of both is an iterator, so if you really need a list for furthert processing, use `list(result)`.

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Per the documentation, the actual itertools.product implementation does NOT build intermediate results, which could be expensive. Using this technique could get out of hand quite quickly for moderately sized lists. –  Triptych Feb 10 '09 at 20:05
i can only point the OP to the documentation, not read it for him. –  hop Feb 10 '09 at 20:19
i forgot... programmers are babies –  hop Feb 10 '09 at 20:29
The code from the documentation is meant to demonstrate what the product function does, not as a workaround for earlier versions of Python. –  Triptych Mar 10 '09 at 21:07
your point being? –  hop Mar 10 '09 at 22:37
``````import itertools
>>> for i in itertools.product([1,2,3],['a','b'],[4,5]):
...         print i
...
(1, 'a', 4)
(1, 'a', 5)
(1, 'b', 4)
(1, 'b', 5)
(2, 'a', 4)
(2, 'a', 5)
(2, 'b', 4)
(2, 'b', 5)
(3, 'a', 4)
(3, 'a', 5)
(3, 'b', 4)
(3, 'b', 5)
>>>
``````
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