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The python docs gives this code as the reverse operation of zip:

>>> x2, y2 = zip(*zipped)

In particular "zip() in conjunction with the * operator can be used to unzip a list". Can someone explain to me how the * operator works in this case? As far as I understand, * is a binary operator and can be used for multiplication or shallow copy...neither of which seems to be the case here.

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possible duplicate of Why does x,y = zip(*zip(a,b)) work in Python? –  schnaader May 6 '11 at 22:15
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4 Answers 4

up vote 9 down vote accepted

When used like this, the * (asterisk, also know in some circles as the "splat" operator) is a signal to unpack arguments from a list. See http://docs.python.org/tutorial/controlflow.html#unpacking-argument-lists for a more complete definition with examples.

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Although hammar's answer explains how the reversing works in the case of the zip() function, it may be useful to look at argument unpacking in a more general sense. Let's say we have a simple function which takes some arguments:

>>> def do_something(arg1, arg2, arg3):
...     print 'arg1: %s' % arg1
...     print 'arg2: %s' % arg2
...     print 'arg3: %s' % arg3
... 
>>> do_something(1, 2, 3)
arg1: 1
arg2: 2
arg3: 3

Instead of directly specifying the arguments, we can create a list (or tuple for that matter) to hold them, and then tell Python to unpack that list and use its contents as the arguments to the function:

>>> arguments = [42, 'insert value here', 3.14]
>>> do_something(*arguments)
arg1: 42
arg2: insert value here
arg3: 3.14

This behaves as normal if you don't have enough arguments (or too many):

>>> arguments = [42, 'insert value here']
>>> do_something(*arguments)
---------------------------------------------------------------------------
TypeError                                 Traceback (most recent call last)

/home/blair/<ipython console> in <module>()

TypeError: do_something() takes exactly 3 arguments (2 given)

You can use the same construct when defining a function to accept any number of positional arguments. They are given to your function as a tuple:

>>> def show_args(*args):
...     for index, value in enumerate(args):
...         print 'Argument %d: %s' % (index, value)
...
>>> show_args(1, 2, 3)
Argument 0: 1
Argument 1: 2
Argument 2: 3

And of course you can combine the two techniques:

>>> show_args(*arguments)
Argument 0: 42
Argument 1: insert value here

You can do a similar thing with keyword arguments, using a double asterix (**) and a dictionary:

>>> def show_kwargs(**kwargs):
...     for arg, value in kwargs.items():
...         print '%s = %s' % (arg, value)
...
>>> show_kwargs(age=24, name='Blair')
age = 24
name = Blair

And, of course, you can pass keyword arguments through a dictionary:

>>> values = {'name': 'John', 'age': 17}
>>> show_kwargs(**values)
age = 17
name = John

It is perfectly acceptable to mix the two, and you can always have required arguments and optional extra arguments to a function:

>>> def mixed(required_arg, *args, **kwargs):
...     print 'Required: %s' % required_arg
...     if args:
...         print 'Extra positional arguments: %s' % str(args)
...     if kwargs:
...         print 'Extra keyword arguments: %s' % kwargs
...
>>> mixed(1)
Required: 1
>>> mixed(1, 2, 3)
Required: 1
Extra positional arguments: (2, 3)
>>> mixed(1, 2, 3, test=True)
Required: 1
Extra positional arguments: (2, 3)
Extra keyword arguments: {'test': True}
>>> args = (2, 3, 4)
>>> kwargs = {'test': True, 'func': min}
>>> mixed(*args, **kwargs)
Required: 2
Extra positional arguments: (3, 4)
Extra keyword arguments: {'test': True, 'func': <built-in function min>}

If you are taking optional keyword arguments and you want to have default values, remember you are dealing with a dictionary and hence you can use its get() method with a default value to use if the key does not exist:

>>> def take_keywords(**kwargs):
...     print 'Test mode: %s' % kwargs.get('test', False)
...     print 'Combining function: %s' % kwargs.get('func', all)
... 
>>> take_keywords()
Test mode: False
Combining function: <built-in function all>
>>> take_keywords(func=any)
Test mode: False
Combining function: <built-in function any>
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+1 for the super detailed explanation with examples! –  Philip Southam May 7 '11 at 0:34
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zip(*zipped) means "feed each element of zipped as an argument to zip". zip is similar to transposing a matrix in that doing it again will leave you back where you started.

>>> a = [(1, 2, 3), (4, 5, 6)]
>>> b = zip(*a)
>>> b
[(1, 4), (2, 5), (3, 6)]
>>> zip(*b)
[(1, 2, 3), (4, 5, 6)]
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I propose this one to unzip a zipped list of lists when zip is done with izip_longest:

>>> a =[2,3,4,5,6]
>>> b = [5,4,3,2]
>>> c=[1,0]]

>>>[list([val for val in k if val != None]) for k in 
                                       zip(*itertools.izip_longest(a,b,c))]

as izip_longest is appending None for lists shortest than the longest, I remove None beforehand. And I am back to the original a,b,c

[[2, 3, 4, 5, 6], [5, 4, 3, 2], [1, 0]]
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