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In a program I'm writing the need to rotate a two-dimensional array came up. Searching for the optimal solution I found this impressive one-liner that does the job:

rotated = zip(*original[::-1])

I'm using it in my program now and it works as supposed. My problem though, is that I don't understand how it works.

I'd appreciate if someone could explain how the different functions involved achieves the desired result.

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Clever. I like it. –  Kris Harper Dec 7 '11 at 19:45
    
Indeed. I found it in this SO question. –  paldepind Dec 7 '11 at 20:01

4 Answers 4

up vote 13 down vote accepted

Consider the following two-dimensional list:

original = [[1, 2],
            [3, 4]]

Lets break it down step by step:

>>> original[::-1]   # elements of original are reversed
[[3, 4], [1, 2]]

This list is passed into zip() using argument unpacking, so the zip call ends up being the equivalent of this:

zip([3, 4],
    [1, 2])
#    ^  ^----column 2
#    |-------column 1
# returns [(3, 1), (4, 2)], which is a original rotated clockwise

Hopefully the comments make it clear what zip does, it will group elements from each input iterable based on index, or in other words it groups the columns.

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A close one. But I chose yours due to the neat ASCII art ;) –  paldepind Dec 7 '11 at 19:58

That's a clever bit. Here's the breakdown:

  • [::1] - makes a shallow copy of the original list in reverse order. Could also use reversed() since the copy is not needed.
  • * - makes each sublist in the original list a separate argument to zip() (i.e., unpacks the list)
  • zip() - takes one item from each argument and makes a list (well, a tuple) from those, and repeats until all the sublists are exhausted. This is where the transposition actually happens.

So assuming you have this:

[ [1, 2, 3],
  [4, 5, 6],
  [7, 8, 9] ]

You first get this (shallow, reversed copy):

[ [7, 8, 9],
  [4, 5, 6],
  [1, 2, 3] ]

Next each of the sublists is passed as an argument to zip:

zip([7, 8, 9], [4, 5, 6], [1, 2, 3])

zip() repeatedly consumes one item from the beginning of each of its arguments and makes a tuple from it, until there are no more items, resulting in:

[(7, 4, 1), 
 (8, 5, 2), 
 (9, 6, 3)]

And Bob's your uncle.

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20 second faster than me! ;) +1 –  mac Dec 7 '11 at 19:37

There are three parts to this:

  1. original[::-1] reverses the original array. This notation is Python list slicing. This gives you a "sublist" of the original list described by [start:end:step], start is the first element, end is the last element to be used in the sublist. step says take every step'th element from first to last. Omitted start and end means the slice will be the entire list, and the negative step means that you'll get the elements in reverse. So, for example, if original was [x,y,z], the result would be [z,y,x]
  2. The * when preceding a list/tuple in the argument list of a function call means "expand" the list/tuple so that each of its elements becomes a separate argument to the function, rather than the list/tuple itself. So that if, say, args = [1,2,3], then zip(args) is the same as zip([1,2,3]), but zip(*args) is the same as zip(1,2,3).
  3. zip is a function that takes n arguments each of which is of length m and produces a list of length m, the elements of are of length n and contain the corresponding elements of each of the original lists. E.g., zip([1,2],[a,b],[x,y]) is [[1,a,x],[2,b,y]]. See also Python documentation.
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+1 since you where the only one probably explaining the first step. –  paldepind Dec 7 '11 at 19:57
    
+1 Thanks for the clear explanation! –  Paul Calabro Jun 22 at 5:34

I was practicing python nested list comprehensions and coded the following to return a list of columns in a matrix, which is analogous to rotating the matrix:

def getColumns(matrix):
  columns = [[row[col] for row in matrix] for col in range(len(matrix[1]))]
  return columns
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1  
This doesn't really answer the question "How does 'zip(*original[::-1])' work" –  fvrghl Jun 10 '13 at 4:47

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