Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

I want to narrow down a list of elements of a list by their attribute, type or other conditions.

Something like elements.only_type(Flower).get_nearest_to(player) looks much nicer than min(filter(lambda i: isinstance(i, Flower), elements), lambda i: i.pos.distance_to(player.pos).

Is the following a good idea in terms of efficiency, clean code and simplicity? Or is there already a good way, implementation or design pattern for this?

class Selector(object):
    def __init__(self, selection):
        self.s3l3ct1on = selection

    def __getattr__(self, name):
        return type(self)(getattr(el, name) for el in self.s3l3ct1on)

    def __iter__(self):
        return iter(self.s3l3ct1on)

    def filter(self, function):
        return type(self)(filter(function, self.s3l3ct1on))

And this is how it can be used: (A is just a class with two attributes: a and b)

>>> sel = [A(3, 4), A(0, 9), A('test', 3), A(4,22), A(3, 9)]
>>> Selector(sel)
<__main__.Selector object at 0x13b0a90>
>>> list(Selector(sel))
[<__main__.A object at 0x13b0fd0>,
 <__main__.A object at 0x13b0b50>,
 <__main__.A object at 0x13b0150>,
 <__main__.A object at 0x13b0710>,
 <__main__.A object at 0x13b06d0>]
>>> set(Selector(sel).a)
{0, 'test', 3, 4}
>>> list(Selector(sel).b)
[4, 9, 3, 22, 9]
>>> s = Selector(sel).b.filter(lambda i: i%2 == 0)
>>> list(s)
[4, 22]
share|improve this question
BTW, there's no need to name the instance attribute s3l3ct1on instead of selection. – martineau Feb 14 '13 at 1:01

2 Answers 2

up vote 1 down vote accepted

Every kind of selection process you mention can be defined in terms of an itertools iterator. The following formalizes that and could easily be extended to support more even more kinds. The syntax to use it seems very readable.

Although I didn't do any performance testing, I'd expect the results to be competitive as almost all of the overhead involved is in the constructor method. The only thing likely to be a even a tiny bit faster would be to replacing its usage with the equivalent itertools iterator function -- so it seems like it might be a valid convenience tool to use if you expected to be doing a lot of this kind of processing.

import itertools

class Selector(object):
    def __init__(self, iterable, **kwargs):
        if not kwargs:
            self.iterator = iterable
        elif len(kwargs) > 1:
            raise ValueError('only one selector type keyword allowed')
            selector, target = kwargs.items()[0]

            if selector == 'by_attr':
                self.iterator = itertools.imap(lambda obj: getattr(obj, target), iterable)
            elif selector == 'by_type':
                self.iterator = itertools.ifilter(lambda obj: isinstance(obj, target), 
            elif selector == 'by_func':
                self.iterator = itertools.ifilter(target, iterable)
                raise ValueError('unknown selector type keyword')

    def __iter__(self):
        return self.iterator

if __name__ == '__main__':
    from selector import Selector

    class A(object):
        def __init__(self, a, b):
            self.a, self.b = a, b

    class Flower(object):
        def __init__(self, name):
   = name

    sel = [A(3, 4), A(0, 9), A('test', 3), A(4,22), A(3, 9)]
    print list(Selector(sel, by_attr='a'))

    sel = [42, Flower('Buttercup'), [1,2,3,5,8], A(20, 13), Flower('Rose')]
    print list(Selector(sel, by_type=Flower))

    sel = [4, 9, 3, 22, 9]
    print list(Selector(sel, by_func=lambda i: i%2 == 0))
share|improve this answer

You can make the class itself a subclass of list for simplicity.

class Elements(list):
   def only_type(self, t):
       return Elements(i for i in self if isinstance(i, t))

   def get_nearest(self, who):
       return min(self, key=lambda x: x.pos.distance_to(who.pos))

el = Elements([Flower(), Person(), Flower(), Something()])


Same thing with Selector

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.