# Python: How to sort the alphabet in a list without sorted functions?

This is not based on efficiency, and has to be done with only a very very basic knowledge of python (Strings, Tuples, Lists basics) so no importing functions or using sort/sorted. (This is using Python 2.7.3).

For example I have a list:

``````unsort_list = ["B", "D", "A", "E", "C"]
sort_list = []
``````

sort_list needs to be able to print out:

``````"A, B, C, D, E"
``````

I can do it with numbers/integers, is there a similar method for alphabetical order strings? if not what would you recommend (even if it isn't efficient.) without importing or sort functions.

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en.wikipedia.org/wiki/Sorting_algorithm. Selection or bubble are easiest to implement. –  georg Oct 27 '12 at 15:24
It's your homework, it's yours to do! –  qarma Oct 27 '12 at 15:25
If you can do it with numbers, you can do it for strings without any change in your code. In python you can compare strings using `<`, `>` etc. just like numbers. –  Vikas Oct 27 '12 at 15:28
Ascii character codes are organized such that `ord("A") < ord("B") < ord("C") ...`, `ord()` being the ordinal function. If there is a one-to-one mapping between integers and strings, then you can use the exact same algorithm to sort letters as you can numbers. –  Joel Cornett Oct 27 '12 at 15:36

Here's a very short implementation of the Quicksort algorithm in Python:

``````def quicksort(lst):
if not lst:
return []
return (quicksort([x for x in lst[1:] if x <  lst[0]])
+ [lst[0]] +
quicksort([x for x in lst[1:] if x >= lst[0]]))
``````

It's a toy implementation, easy to understand but too inefficient to be useful in practice. It's intended more as an academic exercise to show how a solution to the problem of sorting can be written concisely in a functional programming style. It will work for lists of comparable objects, in particular for the example in the question:

``````unsort_list = ['B', 'D', 'A', 'E', 'C']
sort_list   = quicksort(unsort_list)

sort_list
> ['A', 'B', 'C', 'D', 'E']
``````
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filter + lambda? Not sure I like this. –  georg Oct 27 '12 at 15:50
@thg435 ok, me neither. I changed it to use comprehensions –  Óscar López Oct 27 '12 at 15:53

just for fun:

``````from random import shuffle
unsorted_list = ["B", "D", "A", "E", "C"]

def is_sorted(iterable):
for a1,a2 in zip(iterable, iterable[1:]):
if a1 > a2: return False
return True

sorted_list = unsorted_list
while True:
shuffle(sorted_list)
if is_sorted(sorted_list): break
``````

the average complexity should be factorial and the worst case infinite

-

even simpler:

``````dc = { }
for a in unsorted_list:
dc[a] = '1'

sorted_list = dc.keys()
``````
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Nope, this doesn't work. –  georg Oct 27 '12 at 15:51
this works only for `int` because in this case the hash is the `int` itself –  Ruggero Turra Oct 27 '12 at 17:18
``````u = ["B", "D", "A", "E", "C"]
y=[]
count=65
while len(y)<len(u):
for i in u:
if ord(i)==count:
y.append(i)
count+=1
print(y)
``````
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This uses only the `min()` built-in and `list` object methods:

``````unsort_list = ["B", "D", "A", "E", "C"]
sort_list = []

while unsort_list:
smallest = min(unsort_list)
sort_list.append(smallest)
unsort_list.pop(unsort_list.index(smallest))

print sort_list
``````

It destroys the unsorted list, so you might want to make a copy of it and use that.

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