# Recursively Identifying Sorted Lists

As a recursion practice exercise, I am writing a Python function that recursively identifies if the input list is sorted from least to greatest, real numbers only, and then returns a Boolean value.

My code is:

``````def det_sorted(listA):
if len(listA) == 1:
return(True)
else:
if listA[0] <= det_sorted(listA[1:]):
return(True)
elif listA[0] > det_sorted(listA[1:]):
return(False)
``````

This function always returns 'False.' The general question: how do I iterate recursively through the list correctly? My specific question: what have I done wrong here?

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My first answer is "you don't". Since you already have `sorted()` available, anything else is more complicated and expensive. – msw Jul 23 '13 at 21:59
An easy way to see what's going wrong is to realize that any call to `sorted()` will return either `True` or `False`, and your `if` statements are doing the inequality check on `True` or `False`. Which isn't what you want. – A.Wan Jul 23 '13 at 22:01
You shouldn't call it `sorted()` because that'll shadow the built-in function. `is_sorted()` will do fine. – 2rs2ts Jul 23 '13 at 22:04
1) Never use names already taken by built-ins 2) Predicates(i.e. functions that return `True`/`False` for given conditions on the inputs) should have names that start with a verb in present tense: e.g. `is_sorted`, `has_fruits`, `can_kill`, `has_moo_powers`. Functions that perform actions should have verbs/sentences as names: `sort`, `grow_fruits`, `kill`, `use_moo_powers`. Using past tense may suggest the fact that the operation is not in-place (e.g. `sorted` suggests that the value returned is sorted, not that the original sequence is being sorted). – Bakuriu Jul 24 '13 at 13:59
@bakuriu Aahh. That's good to know. I will make those changes. – AppliedNumbers Jul 24 '13 at 14:19

you are close , you want to call the recursion for the return

``````else:
if listA[0] <= listA[1]:
return sorted(listA[1:])
``````

or you could combine both statements into the return (and get rid of the else)

``````return  listA[0] <= listA[1] and sorted(listA[1:])
``````
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The second set of code works. The first edited code returns 'None' instead of 'False,' though. – AppliedNumbers Jul 24 '13 at 14:24
none is a falsy value ... so saying `if None:` is essentially the same as saying `if False` ... but it wont match `if None == False`\ – Joran Beasley Jul 24 '13 at 15:56
Definitely. The code works the same, but knowing the output is important as well. – AppliedNumbers Jul 27 '13 at 0:55

@Joran Beasley's answer is correct, but here's another solution to the problem that should be a bit quicker:

``````def is_sorted(l, prev=None):
if l:
if prev is None: return is_sorted(l[1:], l[0])
else: return l[0] > prev and is_sorted(l[1:], l[0])
else:
return True
``````
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You can replace `len(l) == 0` with just `l`. – Blender Jul 23 '13 at 22:06
@Blender thanks, I originally had it as `len(l) <= 1` and forgot to change it when I fixed that. – Nolen Royalty Jul 23 '13 at 22:10
@Blender `if l:` will evaluate as `True` so long as `len(l)` is at least 1. Don't you mean `if not l`? – 2rs2ts Jul 23 '13 at 22:13
@2rs2ts: Yes, thanks. – Blender Jul 23 '13 at 22:14
Note that the usage of `None` for negative infinity and `()` for positive infinity in Python 2 doesn't work in Python 3. In Python 2 `() > 0 > None` is `True` where as in Python 3, it results in `TypeError: unorderable types`. And due to that the code in this answer will work fine on Python 2 but as the OP's tag's specify Python 3 this will not work. – Dan D. Jul 24 '13 at 8:38

Here is a very explicit script that works.

``````def det_sorted(listA):
if len(listA) == 1:
return(True)
else:
if det_sorted(listA[1:]) == True:
if listA[0] <= listA[1]:
return(True)
elif listA[0] > listA[1]:
return(False)
else:
return(False)
``````
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Although a bit longer. – AppliedNumbers Dec 6 '14 at 8:55

Your function doesn't take into consideration the case where `listA` is empty, which should evaluate as sorted. So the full function should look like this:

``````def is_sorted(listA):
if len(listA) == 0 and len(listA) == 1:
return True
else:
return  listA[0] <= listA[1] and is_sorted(listA[1:])
``````

This could be shortened a bit:

``````def is_sorted(listA):
if not (listA and listA[1:])
return True
return listA[0] <= listA[1] and is_sorted(listA[1:])
``````
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