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How to define a function is_member() that takes a value (i.e. a number, string, etc) x and a list of values a, and returns True if x is a member of a, False otherwise. (Note that this is exactly what the in operator does, but for the sake of the exercise I should pretend Python did not have this operator.

This is what I've come up with, but it doesn't work!

def is_member(x, a):
   return x == a[::]
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In real code, you'd use a set if you need this more than a few times. –  delnan Oct 24 '10 at 13:24

6 Answers 6

up vote 3 down vote accepted

Recursive solution:

def is_member(value, array):
    if len(array) == 0:
        return False
    return value == array[0] or is_member(value, array[1:])
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This is exactly what I need! Thanks everyone for the efforts. –  Gusto Oct 24 '10 at 14:58
I wouldn't accept this unless your trying to get a stack overflow... –  alternative Oct 24 '10 at 15:04
And now for the real question: What makes this acceptable that doesn't make the other answers acceptable? Stay tuned. Question should be tagged "quiz" ;) –  Magnus Hoff Oct 24 '10 at 15:06
Since this is tagged homework, why didn't you go further and make it something like is_member = lambda x, y: False if len(y) == 0 else x == y[0] or is_member(x, y[1:]).? –  martineau Nov 3 '10 at 1:53
As someone else one said "I lump this into the gratuitous recursion category, along with recursive implementations of factorial (when iterative versions are just as good, without all the function call overhead)". –  martineau Nov 3 '10 at 1:57

I can think of two (edit: three) ways to do this:


def is_member(array, value):
    except ValueError:
        return False
        return True


def is_member(array, value):
    for item in array:
        if item == value:
            return True
    return False

EDIT: Also, third:

def is_member(array, value):
    return array.count(value) > 0
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second way is using 'in' operator, which is not allowed. The two others do nothing i.e is_member([1], [3,4,1]) return False in both cases –  Gusto Oct 24 '10 at 13:40
I thought "in" was only unallowed in direct use. Anyways, you're mixing up the arguments, it's is_member([3, 4, 1], 1) (note that 2nd isn't an array). –  Tim Čas Oct 24 '10 at 13:45
Fourth way: Similar to first only using set(array).remove(value) and except KeyError:. –  martineau Nov 3 '10 at 2:13

Using a generator expression (note that this in operator has nothing to do with the another one)

def is_member(x, a):
   return any(x == y for y in a)

>>> is_member(10, xrange(1000000000000000))
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@Tim: as a lazy generator expression, it will break on the first match. –  tokland Oct 24 '10 at 14:29
Yes, sorry (and +1); I had timed a similar but subtly different solution. –  Tim Pietzcker Oct 24 '10 at 16:17

You could simply just iterate over every element in the list then:

def is_member(col, a):
    for i in xrange(len(col)):
        if a == col[i]: return True
    return False

>> a = [1,2,3,4]
>> is_member(a, 2)
>> is_member(a, 5)
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Why iterate manually over col? for i in col: if a==i should do. –  Tim Pietzcker Oct 24 '10 at 13:30
can't use 'in' operator –  Gusto Oct 24 '10 at 13:39
@Gusto: In for i in iterable, the in is not an operator. Just a keyword required by the grammer. –  delnan Oct 24 '10 at 14:07

Without using the "in" operator:

from itertools import imap
def is_member( item, array ):
    return any( imap(lambda x: x == item, array ) )

which will cycle through the items of the list, one at a time, and short circuit when it hits a value that is True.

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Well, there are a lot of ways to do this, of course -- but you're a little hamstrung by the prohibition of "in" anywhere in the code. Here are a few things to try.

Variations on a theme ...

def is_member(item, seq):
    return sum(map(lambda x: x == item, seq)) > 0

def is_member(item, seq):
    return len(filter(lambda x: x != item, seq)) != len(seq)

You may have heard that asking for forgiveness is better than asking for permission ...

def is_member(item, seq):
        return True
        return False

Or something a little more functional-flavored ...

import itertools, operator, functools
def is_member(item, seq):
    not_eq = functools.partial(operator.ne, item)
    return bool(list(itertools.dropwhile(not_eq, seq)))

But, since your requirements preclude the use of the looping construct which would be most reasonable, I think the experts would recommend writing your own looping framework. Something like ...

def loop(action, until):
    while True:
        if until():

def is_member(item, seq):
    seq   = seq
    sigil = [False]

    def check():
        if seq[0] == item:
            sigil[0] = True
    def til():
        return not len(seq)

    loop(check, til)

    return sigil[0]

Let us know how it goes.

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