# Move every element from list l to list p

I want to transfer every element from one list to another with ascending order. This is my code:

``````l=[10,1,2,3,4,5,6,7,8,9]
p=[]
for x in l :
p.append(min(l))
l.remove(min(l))
print p
print l
``````

But it returns this result:

``````[1, 2, 3, 4, 5]
[10, 6, 7, 8, 9]
``````

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It's a Bad Idea to mutate a data structure while you're iterating over it. For a quick fix, iterate over a copy of l, like `for x in l[:]:` –  Tim Peters Nov 4 '13 at 4:02
You can use `sorted()` –  Puffin GDI Nov 4 '13 at 4:02

try this:

``````p = []
while len(l) > 0:
p.append(min(l))
l.remove(min(l))
``````

Using `while` instead of `for` prevents you from modifying the list as you're iterating over it.

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It helps! Thanks! –  Light Nov 4 '13 at 4:24
I have to point out that this algorithm is `O(n**2)`, and an inefficient `O(n**2)` at that. At least save `min(l)` in a local so you don't compute it twice. –  roippi Nov 4 '13 at 4:33
Sure, the answer was really meant to show the value of not modifying while iterating. The runtime is the same as OP's (if it worked as he/she intended). –  dave Nov 4 '13 at 4:38
@dave I know, not a knock on you. Just a note to the OP, though he's probably not incredibly concerned about time complexity. –  roippi Nov 4 '13 at 4:54

Just do this:

``````p = sorted(l)
#l = [] if you /really/ want it to be empty after the operation
``````

The reason you're getting wonky behavior is that you're changing the size of the sequence `l` as you iterate over it, leading you to skip elements.

If you wanted to fix your method, you would do:

``````for x in l[:]:
``````

`l[:]` creates a copy of `l`, which you can safely iterate over while you do things to the original `l`.

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This is the easiest, most-Pythonic way. Not sure why everyone's complicating it. In addition, if you don't want to assume that `p` is empty, and want to append the sorted elements of `l`, you can do `p += sorted(l)`. –  Jim Stewart Nov 4 '13 at 4:15

If you want to retain the original unsorted array, use a copy of l.