To explain why your script isn't working right now, I'll rename the variable `unsorted`

to `sorted`

.

At first, your list isn't yet sorted. Of course, we set `sorted`

to `False`

.

As soon as we start the `while`

loop, we assume that the list is already sorted. The idea is this: as soon as we find two elements that are not in the right order, we set `sorted`

back to `False`

. `sorted`

will remain `True`

*only if there were no elements in the wrong order*.

```
sorted = False # We haven't started sorting yet
while not sorted:
sorted = True # Assume the list is now sorted
for element in range(0, length):
if badList[element] > badList[element + 1]:
sorted = False # We found two elements in the wrong order
hold = badList[element + 1]
badList[element + 1] = badList[element]
badList[element] = hold
# We went through the whole list. At this point, if there were no elements
# in the wrong order, sorted is still True. Otherwise, it's false, and the
# while loop executes again.
```

There are also minor little issues that would help the code be more efficient or readable.

In the `for`

loop, you use the variable `element`

. Technically, `element`

is not an element; it's a number representing a list index. Also, it's quite long. In these cases, just use a temporary variable name, like `i`

for "index".

```
for i in range(0, length):
```

The `range`

command can also take just one argument (named `stop`

). In that case, you get a list of all the integers from 0 to that argument.

```
for i in range(length):
```

The Python Style Guide recommends that variables be named in lowercase with underscores. This is a very minor nitpick for a little script like this; it's more to get you accustomed to what Python code most often resembles.

```
def bubble(bad_list):
```

To swap the values of two variables, write them as a tuple assignment. The right hand side gets evaluated as a tuple (say, `(badList[i+1], badList[i])`

is `(3, 5)`

) and then gets assigned to the two variables on the left hand side (`(badList[i], badList[i+1])`

).

```
bad_list[i], bad_list[i+1] = bad_list[i+1], bad_list[i]
```

Put it all together, and you get this:

```
my_list = [12, 5, 13, 8, 9, 65]
def bubble(bad_list):
length = len(bad_list) - 1
sorted = False
while not sorted:
sorted = True
for i in range(length):
if bad_list[i] > bad_list[i+1]:
sorted = False
bad_list[i], bad_list[i+1] = bad_list[i+1], bad_list[i]
bubble(my_list)
print my_list
```

(I removed your print statement too, by the way.)

notan easy sort algorithm for people to understand. From both my own experience and experience teaching, I can confidently say that insertion sort, selection sort, min-sort (minimum element sort), even (for some students) mergesort and quicksort are easier to understand — after all, they correspond to somewhat natural ways of sorting a list, but bubble sort is just artificial. Further, bubble sort is prone to many off-by-one errors and infinite loop errors, like this question here. As Knuth says, "the bubble sort seems to have nothing to recommend it, except a catchy name..." – ShreevatsaR Jun 11 '09 at 2:59