That's a clever bit.
First, as noted in a comment, in Python 3
zip() returns an iterator, so you need to enclose the whole thing in
list() to get an actual list back out, so as of 2020 it's actually:
Here's the breakdown:
[::-1] - makes a shallow copy of the original list in reverse order. Could also use
reversed() which would produce a reverse iterator over the list rather than actually copying the list (more memory efficient).
* - 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.
list() converts the output of
zip() to a list.
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([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 (after it's converted to a list):
[(7, 4, 1),
(8, 5, 2),
(9, 6, 3)]
And Bob's your uncle.
To answer @IkeMiguel's question in a comment about rotating it in the other direction, it's pretty straightforward: you just need to reverse both the sequences that go into
zip and the result. The first can be achieved by removing the
[::-1] and the second can be achieved by throwing a
reversed() around the whole thing. Since
reversed() returns an iterator over the list, we will need to put
list() around that to convert it. With a couple extra
list() calls to convert the iterators to an actual list. So:
rotated = list(reversed(list(zip(*original))))
We can simplify that a bit by using the "Martian smiley" slice rather than
reversed()... then we don't need the outer
rotated = list(zip(*original))[::-1]
Of course, you could also simply rotate the list clockwise three times. :-)