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I do not want to use while or for loops, just want to use recursion to return the odd numbers in a given list. Thanks!

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closed as too localized by Tim, Useless, ρяσѕρєя K, Jay Riggs, tereško Sep 29 '12 at 23:34

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@user481083: Ah! you should always say so. – pyfunc Oct 28 '10 at 2:51
@user481083: Deleting my answer as you wanted recursion and the answer is provided by GWW. I am not sure, why i got upvoted for my answer. +1 to GWW – pyfunc Oct 28 '10 at 2:59
-1 @ zero-effort "do my homework for me so I can avoid the inconvenience of learning anything" – Glenn Maynard Oct 28 '10 at 3:18
@GlennMaynard sorry it came off as hw, as of 1 year ago [when this question was asked] I was in school studying a totally unrelated subject (finance)! I labaled it hw, because it was akin to questions asked in the hw section. Sorry it bothered you though.. – zallarak Mar 16 '12 at 0:25

11 Answers 11

up vote 6 down vote accepted
def find_odds(numbers):
  if not numbers:
    return []
  if numbers[0] % 2 == 1:
    return [numbers[0]] + find_odds(numbers[1:])
  return find_odds(numbers[1:])

No extra variables or parameters needed.

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This is (IMNSHO) the best solution to date since it both minimises the arguments passed and doesn't damage the original list. +1. – paxdiablo Oct 28 '10 at 7:16
@pax, I have a dumb question to ask...isn't a new list being created everytime [numbers[0]] + find_odds(numbers[1:]) is executed? :-\ @Josh, +1 – st0le Oct 28 '10 at 10:02
@st0le, that line actually creates two lists, one with the first element, and one with all the remaining elements. – jnnnnn Jan 13 '13 at 23:38
def only_odd(L):
    return L[0:L[0]&1]+only_odd(L[1:]) if L else L

This version is much faster as it avoids making copies of L

def only_odd_no_copy(L, i=0):
    return L[i:i+(L[i]&1)]+only_odd_no_copy(L, i+1) if i<len(L) else []

This one only uses O(log n) stack space

def only_odd_logn(L):
    return L[:L[0]&1] + only_odd2(L[1:x]) + only_odd_logn(L[x:]) if L else L
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nice! I like the use of & – dcolish Oct 28 '10 at 4:58
@dcolish: some_int & 1 is just an obfuscated version of some_int % 2 ... what's to like? It's the L[0:boolean] that's the stroke of gnenius ... +1 from me. – John Machin Oct 28 '10 at 7:54
Hmm...i must have put that zero there because explicit is better than implicit – John La Rooy Oct 28 '10 at 10:01
@gnibbler, You must have, but I went ahead and removed it while I was profiling your code. +1 I think you had the best answer before mine ;) – aaronasterling Oct 28 '10 at 12:19
@John, whats not too like. Bitwise ops are awesome and I don't think we see them used enough. Yes that other bit is quite clever too. – dcolish Oct 28 '10 at 14:00

Considering the default stack depth limit of 1000 in python, I would really not use recursion for this. I know there are a lot of recursive implementations above so here's a non-recursive one that is doing it the python way:

print filter(lambda x: x % 2, range(0, 10))

And for the sake of completeness; if you really really must use recursion here's my go at it. This is very similar to the version by Josh Matthews.

def rec_foo(list):
    if not list:
        return []
    return ([list[0]] if list[0] % 2 else []) + rec_foo(list[1:])

print rec_foo(range(1, 10))
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+1: filter seems to be the pythonic way. – Paulo Scardine Oct 28 '10 at 4:53
A more-pythonic way would be [x for x in lst if x % 2]. And please don't use builtin names (list) as parameter names. – Rudi Oct 28 '10 at 8:56
Well, I'll admit the use of list wasnt the best choice, but hey we all make mistakes. What I'll never understand is how a list comp is more pythonic than a builtin function. – dcolish Oct 28 '10 at 13:59
Sort of declared that comprehensions are a "better" way in this: – apg Nov 14 '10 at 12:29
I've always been one for testing his benevolence. – dcolish Nov 14 '10 at 23:30

Here's another way of doing it which returns the list of odd numbers rather than modifying the list passed in. Very similar to that provided by GWW but I thought I'd add it for completeness.

def find_odds(numbers, odds):
    if len(numbers) == 0:
        return odds

    if numbers[0] % 2 == 1:

    return find_odds(numbers[1:],odds)

print find_odds([1,2,3,4,5,6,7,8,9],[])

Output is:

[1, 3, 5, 7, 9]
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can you think of a way to do it with only one parameter? thank you – zallarak Oct 28 '10 at 3:28
Sure, you could (as one way) create the list to contain all the information and just pass the list. But that's an even worse requirement than your equally arbitrary "must use recursion" one, since it was added after the question was answered. And, to be honest, I'd rather help people out than play "let's change the requirements" games - it's not as if I don't get enough of that in my real job :-) – paxdiablo Oct 28 '10 at 3:30
def find_odds(numbers, odds):
    if len(numbers) == 0:
    v = numbers.pop()
    if v % 2 == 1:
    find_odds(numbers, odds)

odds = []
numbers = [1,2,3,4,5,6,7]
# Now odds has the odd numbers
print odds

Here's a test output of what I get when I run this

[7, 5, 3, 1]

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where is the odds list returned? – zallarak Oct 28 '10 at 3:11
The variable odds I edited my answer to help a bit – GWW Oct 28 '10 at 3:14
It is modified by reference . So you'd call the function like result = []; find_odds(nums, result) – David Winslow Oct 28 '10 at 3:16
i tried this out and it is not working for me – zallarak Oct 28 '10 at 3:18
It's working perfectly fine for me. – GWW Oct 28 '10 at 3:21

Since it's a party, I just thought I'd chime in with a nice, sensible, Real ProgrammerTM solution. It's written in emacs and inspired by gnibbler's answer. Like his, it uses &1 instead of % 2 (adding 2 into co_consts is pure decadence if 1 is already there) and uses that nifty trick for getting the first element only if it's odd, but shaves some cycles off for a time savings of around 5% (on my machine, running 2.6.5 compiled with GCC 4.4.3 on a linux2 kernel).

from opcode import opmap
import types

opcodes = [opmap['LOAD_FAST'],      0,0,   #    L
           opmap['JUMP_IF_FALSE'],  24,0, 
           opmap['LOAD_CONST'],     0,0,   #    0
           opmap['LOAD_CONST'],     1,0,   #    1
           opmap['LOAD_GLOBAL'],    0,0,   #    odds
           opmap['LOAD_FAST'],      0,0,
           opmap['LOAD_CONST'],     1,0,
           opmap['CALL_FUNCTION'],  1,0,

code_str = ''.join(chr(byte) for byte in opcodes)

code = types.CodeType(1, 1, 4, 0x1 | 0x2 | 0x40, code_str, (0, 1),
                      ('odds',), ('L',), '<nowhere>', 'odds',
                      0, '')

odds = types.FunctionType(code, globals())
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+1, Would love to see the outcome of the OP submitting this for their homework. I added a couple of improved options to my answer – John La Rooy Oct 28 '10 at 20:56
+1 for the wtf look of the prof – Scott Oct 29 '10 at 6:07
odds = []
def findOdds(listOfNumbers):
    if listOfNumbers[0] % 2 == 1:
    if len(listOfNumbers) > 1:

print odds
# returns [1,3,5,7,9]
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What about recursion? – thyrgle Oct 28 '10 at 3:16
This is clearly a superior solution to recursion. – Rafe Kettler Oct 28 '10 at 3:19
So, when your customer asks you for a web app to run under IIS (a very specific requirement), what do you think they will say when you deliver a Websphere version because it's "clearly a superior solution"? :-) – paxdiablo Oct 28 '10 at 3:26
In this situation, I would berate the teacher for asking a stupid question. :) It always was a favorite past-time of mine. – Scott Oct 28 '10 at 3:26
-1 for the incorrect regex-based solution. Not only does it not use recursion, but it doesn't come close to working (it returns 1 if you pass it 12)! If you want to do it with just a single expression, filter(lambda x: x % 2 == 1, arrayOfNumbers) is the proper way to do it, not regexes. – Gabe Oct 28 '10 at 4:51
def odds(L):
    if L == []: 
        return []
        if L[0]%2:
            B = odds(L[1:])
            return B
            return odds(L[1:])
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>>> def fodds(alist, odds=None):
...     if odds is None: odds = []
...     if not alist: return odds
...     x = alist[0] # doesn't destroy the input sequence
...     if x % 2: odds.append(x)
...     return fodds(alist[1:], odds)
>>> fodds(range(10)) # only one arg needs to be supplied
[1, 3, 5, 7, 9] # same order as input

This one avoids the list copying overhead, at the cost of getting the answer backwards and a big increase in the ugliness factor:

>>> def fo(aseq, pos=None, odds=None):
...     if odds is None: odds = []
...     if pos is None: pos = len(aseq) - 1
...     if pos < 0: return odds
...     x = aseq[pos]
...     if x % 2: odds.append(x)
...     return fo(aseq, pos - 1, odds)
>>> fo(range(10))
[9, 7, 5, 3, 1]
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well since we're all contributing:

def odds(aList):
    from operator import lshift as l
    if aList and not aList[1:]:
        return aList if aList[-1] - l(aList[0]>>1, 1) else list()
    return odds(aList[:len(aList)/3+1]) + odds(aList                                     \
    [len(aList)/3+1:]) if aList else []
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Well, there are a bunch of other answers but I think mine's the cleanest:

def odds(L):
   if not L: 
      return []
   return [L[0]] * (L[0] % 2) + odds(L[1:])

Fun exercise but just to reiterate, don't ever do this recursively in practice.

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mutating the input arg to an empty list is clean? – John Machin Oct 28 '10 at 7:39

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