# Why doesn't this return the rotations of the given number?

I'll try to explain what I'm trying to do with an example:

``````Number = ["1","9","7"]
``````

So I want it to return:

``````[["1","9","7"],["9","7","1"],["7","1","9"]]
``````

What I get is:

``````[["7","1","9"],["7","1","9"],["7","1","9"]]
``````

For some obscure reason it replaces my first results with the last one.

``````def Get_Rotations(Number):
Rotations = []
x = 0
while x < len(Number):
Number.insert(0,Number.pop())
Rotations.append(Number)
x += 1
print(Rotations)
return Rotations
``````
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You have to create copies of `Number`. You are manipulating the same list in each iteration and append that list three times to `Rotations`. Therefor you see three times `Number` in it's "end state".

``````Rotations.append(list(Number))
``````

That minor change should do the trick! ;-)

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It does indeed, ty! But I don't understand why your solution works :s Why do you state use list on Number which already is a list? –  Daquicker Dec 9 '11 at 22:16
list(...) is used to create a copy of `Number`. It's not used as type conversion! Otherwise you would just add a reference to `Number`. I would propose that you do the `print(Rotations)` inside the `while` loop. The output will probably make everything clear to you in the split of a second. ;-) –  Achim Dec 9 '11 at 22:20
`from copy import copy ... Rotations.append(copy(Number))` is much clearer. –  rubergly Dec 10 '11 at 3:08

Just want to suggest completely different solution.

``````from collections import deque

number = ['1', '9', '7']

rotator = deque(number)
rotations = [number]

for _i in range(len(number) - 1):
rotator.rotate()
rotations += [list(rotator)]

print(rotations)
``````

Note that this solution is much more efficient.

Also you may or may not want to have `rotator` to be in the initial state after this code block run. Than you may edit this code into following

``````from collections import deque

number = ['1', '9', '7']

rotator = deque(number)
rotations = []

for _i in range(len(number)):
rotations += [list(rotator)]
rotator.rotate()

print(rotations)
``````

Now `rotator` will be in initial `number` state. The code is a little easier to understand but you've got +1 cycle in `for`.

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+1 for using `deque` and `rotate` method. –  ovgolovin Dec 10 '11 at 10:08

When you're doing `Rotations.append(Number)`, you're not copying `Number`, you're adding a reference to `Number`. All three of the indices in `Rotations` are pointing to the same object (basically like `Rotations = [Number, Number, Number]`), so changing Number will affect all three outputs.

Instead, create a new array, fill it with the contents of `Number`, and add it to `Rotations`.

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First Let me give you the correct answer

``````def Get_Rotations(Number):
Rotations = []
x = 0
while len(Number):
Rotations.append(Number.pop())
print(Rotations)
return Rotations

>>> Number = ["1","9","7"]
>>> Get_Rotations(Number)
['7', '9', '1']
['7', '9', '1']
``````

Now in your case, you were doing few things wrong

1. You were popping the Number and always inserting at the beginning.
2. Inserting a List within a List

Do you know you can do this in a much easier way?

``````Number[::-1]

>>> Number[::-1]
['7', '9', '1']
``````
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The reasons why you code doesn't work are very well explained in the other answers.

I want to point one more thing.

Insertions at the beginning of the list are quite costly. You use them here `Number.insert(0,...)` They have `O(n)` complexity (appendings are actually `O(1)`).

Bellow I'll show another way to do the same thing using iterators which just loop over the list with some shifts:

``````from itertools import cycle, islice

def rotate(L):
ln = len(L)
it = cycle(iter(L)) #create an overall iterator
for _ in range(ln): #there are len(L) output lists
yield list(islice(it,3)) #slice next 3 elements, for a list and yield the rusult
it.next() #skip one element to start a new list shifted by one
``````

`rotate` is a generator which is used to create an iterator which will yield the needed lists.

`cycle` and `islice` is from here.

Example of usage:

``````for el in rotate(Number):
print el
``````

Output:

``````['1', '9', '7']
['9', '7', '1']
['7', '1', '9']
``````

Or just using list constructor:

``````print(list(rotate(Number)))
``````

Output:

``````[['1', '9', '7'], ['9', '7', '1'], ['7', '1', '9']]
``````
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A simple way to do it would be:

``````number = ["1","9","7"]

def get_rotations(num):
rotations = []
for i in range(len(num)):
rotations.append(list(num[i:] + num[0:i]))
return rotations
``````

You could also use an integer instead of list of stringified integers. For example:

``````number = 197

def get_rotations(num):
string_num = str(num)
rotations = []
for i in range(len(string_num)):
rotations.append(int(string_num[i:] + string_num[0:i]))
return rotations
``````

This would give:

``````[197, 971, 719]
``````

And it takes a much shorter time to execute.

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