Python - dividing a list and maintaining the original index (Recursion)

i have homework in which i must use recursion to find all occurances of a number/letter/word in a list and return their index in the original list.. I have searched this site for previously answered question but I couldn't find any answer regarding recursion with the option to continue checking the list even after the first occurances has been found..

should look like this pretty much:

``````>>> find_value( [4,7,5,3,2,5,3,7,8,6,5,6], 5)
[2,5,10]
``````

my code so far goes like this:

``````def find_all(x,y):
if len(x) == 1 and x[0] == y:
return [i for i, y in enumerate(x)]
return find_all(x[1:],y)
``````

Though it only minimize the list and gives me the same [0] as the index.. which is true, for the divided list.. this way I will never get the original index.. Thanks - if this already exist, I am sorry for i have searched and couldn't find.

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If you ever deal with Lisp, you might understand my answer's inspiration. –  Noctis Skytower Nov 20 '12 at 21:42

The point of assigning a homework is usually so that you can explore the problem and learn from it - in this case, it's recursion which is usually hard for begginers.

The point of recursion is to construct an answer for a larger problem, from a solution of a smaller ones. So it's best to start off with the smallest one possible:

``````def find_all(haystack, needle):
if not haystack:
# no occurences can happen
return []
``````

If the list is not empty, we can check if the first element is what we are looking for:

``````    if haystack[0] == needle:
occurences = [0] # the index of the first element is always 0
else:
occurences = []
``````

We will also need the solution to the smaller problem:

``````    recursive_occurences = find_all(haystack[1:], needle)
``````

Now the problem you have noticed, is that the indeces that are returned are always 0. That's because they are indeces in the smaller list. If an item has index `0` in a smaller list, it means it's index in the largest list is actually `1` (this is the main part your program was missing), thus:

``````    for x in recursive_occurences:
occurences.append(x+1)
``````

And return the complete answer:

``````    return occurences
``````

I hope this helps you a bit, so you can do your next homework on your own.

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Thank you very much, Helped alot, Now I just need to research it a little and figure it out! –  Spectalecy Nov 17 '12 at 16:34

Here's a simple non-recursive solution:

``````def find_value(l, lookfor):
return [i for i, v in enumerate(l) if v == lookfor]
``````

As a piece of advice for your homework - just pass the progress through the list as an optional third argument to `find_all`:

``````def find_value(list, lookfor, position=0)
``````

And add one to `position` each time you recurse

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Though as I mentioned, Recursive must be used.. as it is a practice homeworK :P –  Spectalecy Nov 17 '12 at 14:33
@Spectalecy: See my edit. Don't expect people to do all your homework for you. –  Eric Nov 17 '12 at 14:33
I didn't, Though I mentioned before it must be recursive, Looping around with for is not required here and I'm aware of the options. Once again, I value your help, but no need to be hostile. –  Spectalecy Nov 17 '12 at 16:18
@Spectalecy: I didn't mean to come across as hostile –  Eric Nov 17 '12 at 16:38

Here are several solution:

in one go, ugly, but working:

``````def find_value(lst, elt):
return [x + 1
for x in ([] if not lst else
(([-1] if lst[0] == elt else []) +
find_value(lst[1:], elt)))]
``````

prettier, but with hidden index param:

``````def find_value(lst, elt, idx=0):
return [] if not lst else \
(([idx] if lst[0] == elt else []) +
find_value(lst[1:], elt, idx + 1))
``````

pretty?, long with inner recursive function... more maintainable ?

``````def find_value(lst, elt):
def _rec(lst, elt, idx):
if not lst:
return []
res = [idx] if lst[0] == elt else []
return res + _rec(lst[1:], elt, idx + 1)
return _rec(lst, elt, idx=0)
``````
-

There is a very simple solution to this problem, even if you are using recursion to solve the assignment:

``````>>> def find_value(array, value):
*head, tail = array
array = find_value(head, value) if head else []
return array + [len(head)] if tail == value else array

>>> find_value([4, 7, 5, 3, 2, 5, 3, 7, 8, 6, 5, 6], 5)
[2, 5, 10]
>>>
``````
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