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def index(L,v)
    ''' Return index of value v in L '''

I need help with implementing this function using recursion. Really new to recursion stuffs so any advices would help.!

Note that L is a list. v is a value.

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is it your homework? –  JBernardo Jun 26 '11 at 0:45
What have you got so far? –  sth Jun 26 '11 at 0:49
It's not a homework. I have an upcoming midterm on Thursday. And this was one of the exercises. I got something like this def index(L,v): if L[0] == v: return 0 else: return index(L[1:], v) (This is assuming that v is in the list already, then It wouldn't work right!) Turned out I was only missing a (+ 1) all this time :( SIGH I wish i can understand recursion better! –  s4kur402 Jun 27 '11 at 14:30
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7 Answers

Why would someone write recursive code for that??

>>> [1,2,4,8].index(4)
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I agree! lol but they want us to practice .. –  s4kur402 Jun 27 '11 at 14:31
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I assume this is homework.

So you need to understand recursion. Here's an example:

def countdown(n):
    if n == 0:
        print "Hello World!"
        print n

You need to start with a starting point, in your case it would probably be the 0th element.

You need an end point, which should be the length - 1 or when you find the element.

Simple if else should do here, with a modified version of countdown as above.

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I'm new with recursion, really having trouble mainly on what is happening in the stack data. It seems like magic to me. Would you be able to recommend any website that teaches you recursion or help you learn it better? –  s4kur402 Jun 27 '11 at 14:27
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That works

def recursive_index(L, v):
    return 0 if L[0] == v else 1 + recursive_index(L[1:], v)

but is pretty stupid (and will only work if the value exists)

You can add if v not in L: return -1 to make it work for any case, but that is even worst.

Do it really has to be recursive?

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Yes. It's a practice question lol I find it stupid too –  s4kur402 Jun 27 '11 at 14:31
what if there are more occurences of value v in the lst? –  s4kur402 Jun 27 '11 at 15:33
@michelle it'll find the first one, as expected –  JBernardo Jun 27 '11 at 19:47
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Yet another way:

def rec(l,v, index=0):
        if l[index] == v:
            return index
    except IndexError:
        return -1            

    return rec(l,v,index+1)
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Hope it is not homework :) –  Trufa Jun 26 '11 at 1:28
I hope this is not due to didactical purposes, but why do you subsequently pop the first element off of the list? Since you pass the current index to the function anyway, you can just check the value at the given index. :) –  jena Jun 26 '11 at 1:37
@jena: I'm still hangover :) thanks! –  Trufa Jun 26 '11 at 1:43
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L = [1, 2, 3, 4, 5, 6, 7, 11, 13]

def index(L, v):
    if len(L) == 0:
            return -1000000
    elif L[0] == v:
        return 0
        return 1 + index(L[1:], v)

print index(L, 7)
print index(L, 13)
print index(L, 100)

* Remote Interpreter Reinitialized *




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Assuming 0 indexing, the following code will return the index of the element if it exists, or -1 if it is not contained in the list:

def index(L, v):
    if L == []:
        return -1
    elif L[0] == v:
        return 0
    rv = index(L[1:], v)
    if rv < 0:
        return rv
    return rv + 1
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Here a tail recursive version of it:

def indexof(elem, list_):
    return indexof_tailrec(elem, list_, 0)

def indexof_tailrec(elem, list_, index):
    if index >= len(list_):
        return None
    if list_[index] == elem:
        return index
    return indexof_tailrec(elem, list_, index + 1)

Note, however, that Python does not have tail call optimization (at least not as far as I know).

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